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FAI FNSB West Valley High School 2012-EE
Managing Office 2400 College Road 3105 Lakeshore Dr. Suite 106A 4402 Thane Road Fairbanks, Alaska 99709 Anchorage, Alaska 99517 Juneau, Alaska 99801 p. 907.452.5688 p. 907.222.2445 p: 907.586.6813 f. 907.452.5694 f. 907.222.0915 f: 907.586.6819 www.nortechengr.com ENERGY AUDIT – FINAL REPORT West Valley High School 3800 Geist Road Fairbanks, Alaska Prepared for: Mr. Larry Morris Fairbanks North Star Borough School District July 31, 2012 Acknowledgment: "This material is based upon work supported by the Department of Energy under Award Number DE-EE0000095.” ENVIRONMENTAL ENGINEERING, HEALTH & SAFETY Anchorage: 3105 Lakeshore Dr, Ste 106A, 99503 907.222.2445 Fax: 222.0915 Juneau: 4402 Thane Rd, 99801 907.586.6813 Fax: 586.6819 Fairbanks: 2400 College Rd, 99709 907.452.5688 Fax: 452.5694 info@nortechengr.com www.nortechengr.com F:\00-Jobs\2011\2602 F - AHFC Grade Audits\50-100 Doyon Fairbanks Region\50-154 FNSB SD West Valley HS\Reports\Final\West Valley Cover Letter V-2.Docx As a Technical Service Provider (TSP) to the Alaska Housing Finance Corporation (AHFC) under Task Order 4, NORTECH has completed an Investment Grade Audit (IGA) of West Valley High School in Fairbanks, Alaska. This work was funded by AHFC through the American Recovery and Reinvestment Act of 2009 (ARRA). Due to the scheduling requirements for completion of the IGAs and to provide a more thorough review of certain mechanical systems, NORTECH sub-contracted RS Consulting for the primary energy audit services for West Valley High School. RS Consulting is owned and operated by Ray Sneeringer, a licensed Mechanical Engineer in the State of Washington and most of the audit field work was completed by Sandra Edwards, a Certified Energy Manager (CEM) and owner of Edwards Energy Environmental and Waste Management. RS Consulting’s IGA methodology generally followed that outlined in the REAL Manual for an IGA. RS Consulting used Trane Trace 700 to model West Valley High School due to the more complex systems found in this facility. This report evaluates a few major EEMs and ECMs, which are generally consistent with NORTECH’s overall findings that FNSB SD facilities are well-maintained and well-operated with few areas for significant potential energy savings. While NORTECH agrees with the recommendations for the EEM/ECM packages, t`he cost estimates appear to be somewhat lower than expected from local vendors. Since the recommended upgrade(s) involve specific pieces of equipment and installation methods, NORTECH recommends the FNSB SD obtain project-specific quotes or bids from local vendors before approving the specific project. Due to rapid advancements of lighting technologies, project-specific lighting retrofits should be designed no more than six months prior to retrofitting in order to achieve the best technology and maximum savings. NORTECH believes some additional energy and cost savings may be achievable in particular areas of the building. The data necessary to evaluate these upgrades is outside the scope of work of this IGA, but could most likely be collected relatively easily using the mechanical system controls and/or some dataloggers. Specific areas that have the potential for additional energy and cost savings include: 1) Plug load retrofits (ex: replacing old refrigerators, placing vending machines on timers) 2) De-lamping areas of high foot-candles if lighting replacement isn’t performed 3) Domestic hot water generation and use (ex: low flow/automatic fixtures, solar water heating) While this report differs from the format of other NORTECH reports produced for AHFC and the FNSB SD, NORTECH has reviewed the work of RS Consulting and determined this report is complete and accurately depicts the energy use of the building. Any future questions, comments, or correspondence regarding this report should be addressed to the undersigned. Sincerely, NORTECH Peter Beardsley, PE, CEA Principal RS Consulting Energy Audit – Final Report Edwards Energy Engineering & West Valley High School Waste Management Fairbanks, Alaska July 30, 2012 Page 1 ENERGY USE AUDIT REPORT FOR ALASKA HOUSING FINANCE CORPORATION Client: Alaska Housing Finance Corporation Research and Rural Development Division P.O. Box 101020 Anchorage, Alaska 99510 Attention: Ms. Rebekah Lührs Prepared by: RS Consulting 2400 NW 80th Street, Suite 178 Seattle, Washington 98117 Telephone: (206) 368‐1784 Edwards Energy Environmental & Waste Management PO Box 2110 Issaquah, Washington 98027 Telephone: (206) 303‐0121 Principal Ray W. Sneeringer, PE Investigators: Sandra F. Edwards, CEM, CDSM Prepared for: NORTECH Sustainable Environmental Engineering, Health, & Safety 2400 College Road Fairbanks, Alaska 99709 Telephone: (907) 452‐5688 RS Consulting Energy Audit – Final Report Edwards Energy Engineering & West Valley High School Waste Management Fairbanks, Alaska July 30, 2012 Page 2 ACKNOWLEDGMENT AND DISCLAIMER Acknowledgment: We would like to acknowledge and extend our heartfelt gratitude to the Department of Energy. This material is based upon work supported by the Department of Energy under Award Number DE‐ EE0000095. Disclaimer: This report was prepared as an account of work sponsored by an agency of the United States Government. Neither the United States Government nor any agency thereof, nor any of their employees, makes any warranty, express or implied, or assumes any legal liability or responsibility for the accuracy, completeness, or usefulness of any information, apparatus, product, or process disclosed, or represents that its use would not infringe privately owned rights. Reference herein to any specific commercial product, process, or service by trade name, trademark, manufacturer, or otherwise does not necessarily constitute or imply its endorsement, recommendation, or favoring by the United States Government or any agency thereof. The views and opinions of authors expressed herein do not necessarily state or reflect those of the United States Government or any agency thereof. RS Consulting Energy Audit – Final Report Edwards Energy Engineering & West Valley High School Waste Management Fairbanks, Alaska July 30, 2012 Page 3 TABLE OF CONTENTS 1.0 EXECUTIVE SUMMARY ................................................................................................................. 4 2.0 INTRODUCTION ........................................................................................................................... 6 3.0 BUILDING DESCRIPTION ............................................................................................................... 8 4.0 ENVELOPE .................................................................................................................................... 9 5.0 LIGHTING ................................................................................................................................... 11 6.0 MECHANICAL ............................................................................................................................. 15 7.0 ENERGY USE .............................................................................................................................. 17 8.0 ENERGY MEASURES ................................................................................................................... 19 9.0 ENERGY MEASURE DESCRIPTIONS ............................................................................................. 20 10.0 SIMPLE PAYBACK AND SIR ......................................................................................................... 24 11.0 OPERATIONS AND MAINTENANCE ............................................................................................. 25 12.0 RECOMMENDATIONS ................................................................................................................ 25 APPENDICES APPENDIX A ...................................................................................................... ENERGY UTILIZATION INDEX APPENDIX B ........................................................................................................................... COST ESTIMATE APPENDIX C ........................................................................................................... LIGHTING CALCULATIONS APPENDIX D .................................................................................................... MECHANICAL CALCULATIONS APPENDIX E ..................................................................................................................... SYSTEM DIAGRAMS APPENDIX F ............................................................................................................ EQUIPMENT SCHEDULES APPENDIX G ........................................................................................................................ TRACE 700 INPUT APPENDIX H ..................................................................................................................... TRACE 700 OUTPUT APPENDIX I ......................................................................................................... TREND LOG INFORMATION APPENDIX J ............................................................................................................................... FLOOR PLANS RS Consulting Energy Audit – Final Report Edwards Energy Engineering & West Valley High School Waste Management Fairbanks, Alaska July 30, 2012 Page 4 1.0 EXECUTIVE SUMMARY Background This energy audit report was prepared by RS Consulting and Edwards Energy Environmental & Waste Management in conjunction with NORTECH Sustainable Environmental Engineering, Health, & Safety for the Alaska Housing Finance Corporation. The West Valley High School is a 217,000 square foot facility located in Fairbanks, Alaska. The building serves 9th through 12th grade high school students and consists of classrooms, an auditorium, gymnasium, administrative offices, and other miscellaneous support functions. Scope This Level II Energy Audit focused on the building’s envelope, lighting, and heating/ventilation (HV) systems. The audit began with a review of existing utility bills and generation of the building’s Energy Utilization Index (EUI). Several on‐site reviews were conducted to examine the existing building systems and the most current construction drawings were reviewed to determine the configuration and sequencing of the mechanical systems. Once this information was gathered, the audit included identification of potential energy saving measures (ECMs/EEMS), creation of a computer simulation model to examine the energy saving measures, generation of a schematic level estimate of the installed costs of the measures, and calculation of relative pay backs for each measure examined. The Trane Trace 700 computer program was used to model the existing building’s energy consumption. The energy consumption values predicted by the model were then compared to actual energy consumption as shown in utility bills from 2009 and 2010. The computer model was then “tuned” to match the actual energy consumption as closely as possible. Energy Use Index Two years of utility bills were examined to determine the current energy consumption of the facility. The Energy Use Index (EUI) for this facility is 79 kBTU/SF. The chart below compares the existing and proposed EUI for the building with the EPA Energy Star design target value for a similar building in this location. This target value was developed using the Energy Star Target Finder software and represents the design criteria for a 50% Energy Star Rated Building, rather than the median value for existing K‐12 Schools. RS Consulting Energy Audit – Final Report Edwards Energy Engineering & West Valley High School Waste Management Fairbanks, Alaska July 30, 2012 Page 5 Energy Consumption The majority of the facility’s energy consumption can be attributed to the energy required to heat the outside ventilation air as it is introduced into the building. Any effort to conserve energy should start with an examination of the operation of the ventilation system. Utility Costs The annual utility cost predicted by the energy model for the existing building is $589,470. The estimated utility cost after implementation of the recommended Energy Efficiency Measures (EEM) is $475,120 for an annual savings of $114,350. A breakdown of the current and proposed energy costs is presented in the following charts: Recommendations An inspection and monitoring the outside air dampers of each air handling unit should be performed in order to reduce the amount of outside air being introduced into the facility to current code minimums during cold weather and to eliminate the introduction of outside air into the facility during unoccupied hours. We also recommend implementation of the Energy Efficiency Measures listed in the table below. Implementation of these measures should be accompanied by a more detailed Level III analysis, which should include operational data logging, detailed engineering drawings and cost estimates, and a plan for future monitoring and verification of the performance of the installed measure. WEST VALLEY HIGH SCHOOL ‐ Recommended Measures Tag Measure Description Cost Payback (Yrs) SIR ECM‐C OSA Damper Repairs $6,200 0.3 44.0 EEM‐1 Lighting Upgrades $348,000 6.8 2.1 EEM‐2 Variable Speed Drives on SF01‐02 and SF09 $51,000 1.2 12.0 Please refer the body of this report for additional information on these Energy Efficiency Measures. RS Consulting Energy Audit – Final Report Edwards Energy Engineering & West Valley High School Waste Management Fairbanks, Alaska July 30, 2012 Page 6 2.0 INTRODUCTION This energy audit report has been prepared by RS Consulting (RSC) and Edwards Energy Environmental & Waste Management (EEEWM) in conjunction with NORTECH Sustainable Environmental Engineering, Health, & Safety for the Alaska Housing Finance Corporation (AHFC). RSC and EEEWM audited West Valley High School in an effort to find cost effective opportunities to reduce building energy consumption. The Energy Conservation Measures (ECMs) and Energy Efficiency Measures (EEMs) analyzed in‐depth as part of the contract included several mechanical system improvements. Two classifications of energy saving measures were examined during this energy audit. The first is a low cost or no cost solution designed to save energy by making changes to occupant activities, schedules, control set points, or minor upgrades to existing equipment. This type of measure is identified in this report as an Energy Conservation Measure (ECM). The second type of energy saving measure requires significant capital investment to achieve energy savings. This is referred to as an Energy Efficiency Measure (EEM). This Level II Energy Audit focused on the building’s envelope, lighting, and Heating and Ventilation (HV) systems. A Level II energy audit includes a survey of the building and a breakdown of the energy end uses within the building. This audit identifies and examines practical ECMs and EEMs to determine the potential energy savings realized if the measure is enacted. It also serves to identify potential improvements that may require the more thorough data collection and detailed engineering drawings and estimates, which typically occur in a Level III audit. The scope of work for this audit consisted of an on‐site review of the existing facility, a review of the most current construction drawings, identification of potential Energy Conservation Measures (ECMs) and Energy Efficiency Measures (EEMS), creation of a computer simulation model to examine these EEMs, and a schematic level estimate of the installed costs, and relative pay backs for each measure examined. The audit team inspected the building during preliminary stages of the energy audit. The purpose of this field visit was to verify the configuration of the existing mechanical equipment and to assess its condition. Information was also gathered on the size and efficiency of the existing accessible mechanical system motors. A list of major mechanical equipment used in this facility can be found in Appendix F. We also performed a review of the building envelope to identify any potential areas for possible improvement in energy performance. Finally, we documented the type and number of lighting fixtures used throughout the facility to in order to identify opportunities to improve the performance of the lighting system. Two years of utility bills were analyzed to determine the energy performance of the existing building in order to match the existing use with the use predicted by the computer model. Potential EEMs were identified and examined via the computer model or spreadsheet calculations. The predicted energy savings of these measures were then compared to the estimated installation cost to determine the relative pay back of each measure. A building energy model was used to validate a number of proposed EEMs. The Trane Trace 700 computer program was used to model the existing building’s energy consumption. The energy consumption values predicted by the model were then compared to actual energy consumption as RS Consulting Energy Audit – Final Report Edwards Energy Engineering & West Valley High School Waste Management Fairbanks, Alaska July 30, 2012 Page 7 shown in utility bills from 2009 and 2010. The computer model was then “tuned” to match the actual energy consumption as closely as possible. This baseline was used to predict the energy savings realized by the proposed EEMs. The existing building energy use, as predicted by the computer model is shown in Figure 1. Figure 1: West Valley High School: Energy Use by System Heating energy comprises 65% (58% plus 7%) of the energy used in the school. This is consistent with the extremely low temperatures experienced during the subarctic winters in Fairbanks. This heating energy consists of an oil component, which is the oil used by the boilers and the domestic hot water generators, and an electrical component, which is the electricity used by the boiler’s ancillary equipment, such as the oil pump, the burner fan, and miscellaneous electrical controls. The cost of heating oil is significantly less than the cost of electricity per unit of energy ($.024/kbtu vs. $.052/kbtu) so although the heating system consumes 65% of the building energy, it represents only 48% of the total utility bills. Figure 2 shows the actual cost of the energy consumed by the facility. Figure 2: West Valley High School: Energy Cost by System RS Consulting Energy Audit – Final Report Edwards Energy Engineering & West Valley High School Waste Management Fairbanks, Alaska July 30, 2012 Page 8 The heating load consists of the heat lost across the building envelope and the heat used to warm outside air as it enters the building. This outside air is necessary to provide make up air for the building’s exhaust fans and ventilation air for the occupants. The breakdown of the total heat load of the school is shown in Figure 3. Figure 3: West Valley High School: Building Heating Loads by Component It can be concluded from the preceding charts, that efforts to conserve energy in the facility should begin with an examination of the ventilation air system. Please refer to Section 9.0 of this report for a more detailed discussion of this ventilation system. Information in this study has focused on the areas of building envelope, lighting, and HV systems. Please reference subsequent sections of this audit report for detailed information on the Energy Conservation Measures (ECMs), Energy Efficiency Measures (EEMs), calculation methodologies, and a summary of the findings and recommendations. 3.0 BUILDING DESCRIPTION West Valley High School is a two‐ story 216,884 square foot facility located in Fairbanks, Alaska. This school was originally constructed in 1976 with subsequent renovations and additions occurring over the years. Some of these renovations or additions occurred in 1988 and 2000. In 1988, the school received an addition of 1,826 square feet and in 2000 another 82,000 square feet. This school was constructed in 1976 and is 36 years old. The building serves Ninth (9th) through Twelfth (12th) grade high school students and consists of Classrooms, an Auditorium, Gymnasium, Administrative Offices, and other miscellaneous support functions. This school was started because Lathrop High School was so overcrowded because of the pipeline population boom in Fairbanks. Initially Lathrop High School was split into east and west with the east side high school student population of Fairbanks attending the school in the morning and the west side high school student population attending in the afternoon. After the construction of West Valley was completed, the west side students of Lathrop were permanently relocated to West Valley High School. The school is part of the Fairbanks North Star RS Consulting Energy Audit – Final Report Edwards Energy Engineering & West Valley High School Waste Management Fairbanks, Alaska July 30, 2012 Page 9 Borough School District, located in Fairbanks, Alaska. The student enrollment for the 2011‐2012 year consists of 1071 students and 110 staff. The energy utility suppliers are Golden Valley Electric (GVEA) and Sourdough Fuel. 3.1 Building Construction Year Built: 1976 Area: 216,884 sq. ft. Stories: Two Roof: Built‐Up Asphalt Roofing Floor: Slab on grade Walls: Combination of Stucco, Concrete, Sheetrock Windows: Triple‐pane (Alaska Windows)‐Vinyl Doors: Metal/Glass 3.2 Building Operation Use: Education Operation: 6:00 am – 11:00 pm (cleaning /events until 11:00 pm) Monday – Friday Summer School (Yes) –Varies Occupancy / Enrollment: 110 Staff & 1071 Students 3.3 Existing Energy Efficiency Items Several energy efficient features are currently in use in this facility. These include: Variable air volume terminal units in the classroom and administrative areas. Variable speed supply and return fans on the majority of the air handling units. Demand controlled ventilation (DCV) system with return air CO2 monitors. Variable speed pumping with two way control valves. 4.0 ENVELOPE 4.1 General The building envelope is more than a polished exterior of glass, concrete, and steel. The components utilized for controlling heat transfer, infiltration, stack effect, solar gain, and humidity are vital for a high‐ RS Consulting Energy Audit – Final Report Edwards Energy Engineering & West Valley High School Waste Management Fairbanks, Alaska July 30, 2012 Page 10 performance building. Insulated window or door panes whether it is single, double, or triple and “R” factors have an impact on the loads and efficiencies of mechanical and electrical systems. A cursory review of the existing building envelope and windows was performed to identify any areas, which may benefit from replacement, new weather stripping, caulking and/or seals to prevent infiltration of outside air. This review included verifying the proper operation and alignment of windows and doors, checking for proper levels of insulation where accessible, and noting if any insulation was found to be damaged. The Department of Energy has identified eight (8) climate zones for the United States. A list of counties and their respective climate zones can be found in American Society of Heating Refrigerating and Air‐ Conditioning Engineers (ASHRAE) Advanced Energy Design Guide, and in the Department of Energy, Energy Efficiency and Renewable Energy VOLUME 7.1 Building America Best Practices Series. Hutchinson Institute of Technology is a part of Zone 8, which means it is a part of the subarctic climate. A subarctic climate is defined as a region with 12,600 heating degree‐days (65°F basis) or more. For this climate and to achieve over 30% above ASHRAE Standard 90.1‐1999, R‐values of between R13 to R60 is recommended depending on the type and the location of the envelope description. Window U‐values of .33 is recommended and this is again to exceed energy savings of 30% above ASHRAE Standard 90.1‐ 1999. 4.2 Windows The windows installed at West Valley High School were constructed by The Alaska Window Company, now no longer in business. These three‐way windows are triple pane, turn/tilt, casements, extruded, high impact resistant and polyvinyl chloride (PVC). This style of window opens inward like a door, is very energy efficient, is less leaky, and is capable of sealing out unwanted cold air. The air space between each pane is filled with argon gas. Each pane has heat reflective coatings (“low e” coatings). “Low e coatings” is another name for window film. The higher a window’s R‐value, the greater the resistance to heat flow and the greater the insulating value. The inverse of the R‐value provides the U‐value. Low U‐ value ratings are good for windows. The Alaska windows have U‐values of .26, which equates to R‐ values of approximately R‐4.0. 4.3 Roof The roofing at West Valley High School is classified as built‐ up asphalt roofing. Built‐up‐roofing (BUR) is a roofing system comprised of numerous layers of asphalt and felts, applied in the field (not factory coated) by the contractor to achieve various ply's as specified. Commonly referred to as 4‐ply or 5‐ply, pitch and gravel, hot tar, hot, and hot mop. The final ply must be protected from UV and may require a cap sheet, gravel or some other coating. The roof insulation (R‐value) thickness is approximately R‐40 and is made of polyisocyanurate. Polyisocyanurate is rigid foam that provides continuous thermal insulation barriers for roofs. The advantages of using polyisocyanurate are the high R‐ value and the good compressive strength. The disadvantage Figure 4.1 Asphalt Built Up Roof RS Consulting Energy Audit – Final Report Edwards Energy Engineering & West Valley High School Waste Management Fairbanks, Alaska July 30, 2012 Page 11 is the R‐value degrades over time. Larger R‐values have greater thermal resistance or more insulating potential than smaller R‐values. 4.4 Walls The walls to this facility are a combination of brick, stucco, and sheetrock. Typical wall insulation at West Valley High School has an R‐value of approximately R‐20. 4.5 Doors The weather‐stripping for the most part around most of the doors is in good condition. There was just one entrance door that was observed that was in need of reinforced weatherstripping. Typical doors are 3’x7’x1¾” and hollow metal with ¼” wire‐glass glazing. 4.6 Recommendations The following items should be implemented to improve the performance and operation of the building’s envelope: Replace worn and/or broken weather‐stripping around doors. Implementing these potential opportunities will have a holistic impact on mechanical and electrical systems through building envelope improvements. Investments in the building envelope will often add value to the buildings appearance. Please refer to Appendix D for calculation of building envelope heat transfer properties. 5.0 LIGHTING 5.1 General The majority of the lighting systems were upgraded circa 1998 and now predominantly uses T8 fluorescent lamps with electronic ballasts in most interior lighting areas. Exterior lighting consists of primarily high‐pressure sodium (HPS). A lighting audit was performed to find and implement additional cost effective lighting related energy saving opportunities. A detailed description of the retrofit measures and lighting upgrades at each location can be found in Appendix C of this report. 5.2 Methodology Used A detail site survey was conducted to identify the type of light fixtures that exist in each area. A light meter was used to determine the existing light levels and compared to Illuminating Engineering Society of North America (IESNA) recommended lighting levels. A lighting ballast discriminator was used to determine the existing ballast type. A laser distance‐measuring tool was used to measure the height and width of the workspace, and a camera was used to record existing conditions. Electrical drawings Figure 4.2 Typical Entrance Doors in Need of Weather‐Stripping RS Consulting Energy Audit – Final Report Edwards Energy Engineering & West Valley High School Waste Management Fairbanks, Alaska July 30, 2012 Page 12 were also reviewed. The site survey results were used to determine the different types of retrofit measures to propose. A detail summary of the fixtures identified during the walk through is provided in Appendix C. 5.3 Existing Lighting Figure 5.1 Typical Lighting ‐ Main Gym Figure 5.2 Typical Lighting ‐ Commons Area Figure 5.3 Typical Lighting – Commons Area Figure 5.4 Typical Lighting ‐ Main Gym Based upon a detailed lighting audit, the majority of the existing interior lighting consists of a mixture of 32‐Watt T8 lamps and normal ballast factor ballast (NBF). There are also some 20‐Watt and 26‐Watt compact fluorescent lamp fixtures. In the Commons, there is a mixture of 175‐Watt and 250‐Watt metal halides. In the dressing room, corridor, Classroom 113, the walk‐in cooler/freezer, Room 171, and control room there are 25‐Watt, 50‐Watt, 90‐Watt, 100‐Watt, 150‐Watt, and 200‐Watt incandescent lamps. The main gymnasium has a mixture of 400‐Watt metal halide lamp fixtures along with 32‐Watt T8 lamp fixtures. The outside perimeter of the building has a mixture of 70‐Watt, 150‐Watt, 250‐Watt, and 400‐Watt high‐pressure sodium lighting. 5.4 Ballast Factors T8 Fluorescent lighting has the advantage of offering a range of ballast factors ‐ from 0.60 to 1.30. Ballast factors are the ratio of lamp lumens produced when lamps operated by a given ballast to the RS Consulting Energy Audit – Final Report Edwards Energy Engineering & West Valley High School Waste Management Fairbanks, Alaska July 30, 2012 Page 13 lamp lumens produced when the lamps operated on reference ballast as used by the lamp manufacturers and American National Standard Institute (ANCI) and rated at 1.0. Ballast factors range from low, normal, and high. Ballast factors of .78 are considered “low”, Ballast factors of .88 are considered normal, and ballast factors of 1.10 are considered high. In a retrofit application, the ballast factor can be used to tune the light levels in a space, especially if the levels are determined to be too high relative to the tasks performed. Most of the time T8 lamps in 25W, 28W, and 30W models operate on low (0.71‐0.78) and normal (0.87‐0.88) ballast factor with instant‐start or programmed‐start ballasts. The difference between instant‐ start versus program‐start ballast is the starting modes in which the cathodes are heated. Instant‐start ballast provides a high initial voltage to start the lamp without pre‐ heating the cathodes whereas program‐start provides an initial low voltage to heat the filaments first then after a short delay pre‐heats the cathodes. The instant start ballast starts lamps immediately, and is very energy efficient, but can be cause short lamp life if used in an application where the lamps are frequently switched on/off. The program start provides maximum lamp life in frequent on/off starting conditions. In addition, if there are concerns regarding dimming you do not want to use instant start, but should use program start. The ballast cost for instant start versus program start can vary between $15.00‐$19.00 for instant start and between $20.00 and $29.00 for program start. Information on the Consortium for Energy Efficiency (CEE) high performance 120/277 Volt T8 Ballast products have been provided in Appendix C which shows the difference, and benefits of using a program start versus an instant start, and the difference between using high, normal, or low ballast factors. On many occasions, the ballast efficacy factor (BEF) performance is improved when using a low or normal ballast factor coupled with a high lumen lamp. 5.5 Existing Lighting Controls The majority of the lighting systems within the West Valley High School are controlled via occupancy sensors. 5.6 Existing Lighting Level Measurements Recorded The lighting level measurements were taken using a light meter. These measurements were recorded in foot‐candles. A foot‐candle is a common unit of measurement used to calculate adequate lighting levels of workspaces in buildings or outdoor spaces. The existing foot‐candle level reading ranges at Hutchinson Institute of Technology were as follows: Commons‐(30‐55), Faculty Lounge‐(40‐55), corridor‐ (55), workroom‐(55), men’s restroom‐(30), Classroom 108‐(70‐80), Nurse 106‐(80‐90), student counsel storage room‐105 (50), library main‐(55‐65), Classroom 102 H‐(65), Classroom 102 G‐(150), Classroom 110‐(75‐80), classroom 112‐(80‐95), counseling main room‐(85), Classroom 113‐(70), Classroom 114‐ (110), Corridor 115‐139‐(45‐55), Storage 119‐(45), Classroom 140‐(75), kitchen‐(45‐50), auxiliary gym‐ (30‐35), main gym‐(35‐40), gym‐(35), corridors‐162‐167‐(35), Music Room 166‐(30‐35), Practice Room 166B ‐(80), and Props Room 176‐(20‐25). 5.7 Illuminating Engineering Society of North America (IESNA) Recommended Lighting Levels The Illuminating Engineering Society of North America (IESNA) recommends the following foot‐candle level reading ranges for the following: commons‐(5‐30), faculty lounge‐(5‐30), corridor‐(5‐10), workroom ‐(30), men’s restroom‐(5‐10), Classroom 108‐(20‐50), Nurse 106‐(30), student counsel storage room‐105 RS Consulting Energy Audit – Final Report Edwards Energy Engineering & West Valley High School Waste Management Fairbanks, Alaska July 30, 2012 Page 14 (10), library main‐(30), Classroom 102 H‐(20‐50), Classroom 102 G‐(20‐50), Classroom 110‐(20‐50), Classroom 112‐(20‐50), Counseling Main Room‐(20‐50), Classroom 113‐(20‐50), Classroom 114‐(20‐50), Corridor 115‐139‐(5‐10), Storage 119‐(10), Classroom 140‐(20‐50), kitchen‐(50), auxiliary gym‐(30‐60), main gym‐(30‐60), gym‐(30‐60), corridors‐162‐167‐(5‐10), Music Room 166‐(20‐50), Practice Room 166B ‐(20‐50), and Props Room 176‐(5‐10). Some of the existing lighting levels are over what is recommended by IESNA target illuminances. Copies of IESNA recommendations are provided in detail in Appendix C of this audit report. 5.8 Incentives & Lighting Product Information Update The Energy Policy Act of 2005 included a new tax incentive. The "Commercial Building Tax Deduction" establishes a tax deduction for expenses incurred for energy efficient building expenditures made by a building owner. The deduction is limited to $1.80 per square foot of the property, with allowances for partial deductions for improvements in interior lighting, HVAC and hot water systems, and building envelope systems. The Emergency Economic Stabilization Act of 2008 (HR‐1424), approved and signed on October 3, 2008, extends the benefits of the Energy Policy Act of 2005 through December 31, 2013. In fact, by federal law, T12s will not be manufactured after July 14, 2012; you eventually will not be able to find replacements for burned‐out T12s. 5.9 Recommendations Based upon a detailed audit of all areas, we are recommending lighting efficiency upgrades of existing fluorescent, incandescent, and high‐pressure sodium lighting fixtures located throughout this facility. In some of the corridors and classrooms we propose retrofitting the existing 32‐Watt T8 lamps and normal ballast factor (NBF) to 28‐Watt lamps with program‐start, low ballast factor(LBF). We recommend maintaining the 20‐Watt and 26 compact fluorescents. In the Commons, there is a mixture of 175‐Watt and 250‐Watt metal halides along with 32‐Watt compact fluorescents. We recommend maintaining the 175‐Watt metal halides and replacing some of the 250‐Watt with 28‐Watt and normal ballast. In the dressing room, corridor, Classroom 113, walk‐in cooler/freezer, Room 171, and control room there are 25‐Watt, 50‐Watt, 90‐Watt, 100‐Watt, 150‐Watt, and 200‐Watt incandescent lamps. We recommend replacing all of these incandescent lamps with LED’s. We recommend replacing the 25‐ Watt with 8‐Watt A‐19 Style LED, the 50‐Watt with 8‐Watt Par LED, the 90‐Watt with 8‐Watt A‐19 Style LED, the 100‐Watt with 16‐Watt A Style LED, and the 200‐Watt with 16‐Watt Par LED. In the main gymnasium where there is a mixture of 400‐Watt metal halide lamp fixtures along with 32‐Watt T8 lamp fixtures, we recommend replacing the existing 32‐watt T8 lamp and normal ballast with a wrap kit with reflector and 28‐watt lamp and program start and high ballast factor ballast. We also recommend replacing some of the metal halides with new F54 T‐5 lighting fixtures. In the outside perimeter of the building where there are a mixture of 70‐Watt, 150‐Watt, 250‐Watt, and 400‐Watt high‐pressure sodium lighting, we recommend replacing the of 70‐Watt with 50‐Watt pulse start metal halides, the 150‐Watt wall pack high pressure sodium with 100‐Watt metal halides, the 250‐Watt high pressure sodium with 175‐Watt metal halides, and the 400‐Watt high‐pressure sodium with 320‐Watt metal halides. The proposed cost and estimated savings are provided in the EEM Summary Table in Section 10.0 and a complete list of all the fixtures audited is located in Appendix C of this audit report. The lighting RS Consulting Energy Audit – Final Report Edwards Energy Engineering & West Valley High School Waste Management Fairbanks, Alaska July 30, 2012 Page 15 Calculations and Common Conversions, The Illuminating Engineering Society of North America (IESNA) Recommended Light Levels, IESNA Target Illuminances, Classroom Lighting Know How, and The Consortium for Energy Efficiency (CEE) List of High Performance for Commercial Lighting Systems are also included in Appendix C of this audit report. 6.0 MECHANICAL 6.1 Air‐Handling Systems West Valley High School was orginally constructed in 1976 and substantially upgraded in 2000. Several of the original air handling units (SA01‐02, SA06, SA07, SA08 and SA09) were reused in the 2000 remodel. SA01‐02 is the largest air handling unit in the facility and serves classroom areas on the first and second floor of the A and E Blocks. This unit is a built in place system that consists of a minimum outside air damper with a preheat coil, an economizer damper, a main bank of heating coils and twin 75 hp supply fans with variable volume inlet vanes. Return air is transferred to the mechanical room via a ceiling plenum, where it is either returned to the air handler or exhausted to the outside. The discharge ducts of this unit have been retrofitted with automatic duct dampers. The purpose of these dampers is not known. However, if they are used during regular operation of the unit, they will cause additional energy consumption due to the additional static pressure loss imposed. A photo of these dampers is included in Figure 6.2. Supply air from this unit is distributed through medium pressure ductwork to variable volume terminal units located in the ceiling spaces. These terminal units are equipped with air volume dampers to control the volume of air being delivered to each temperature control zone. The terminal units vary the air between full design cfm and 40% flow depending on the load in the space being served. Terminal units serving interior zones are equipped with hot water reheat coils, while those serving perimeter zones do not have a reheat coil. Heating of the perimeter zones is provided by finned tube heating elements at the exterior walls. SA06, 07, and 08 serve the gym and SA09 serves the locker rooms. All four of these units are located in the same mechanical room. SA06 and SA07 are used during the heating season and SA08 is used for cooling. SA06 and SA07, and SA09 consist of an outside air damper, preheat coil, return air damper, heating coil, and a supply fan. SA08 is similar, but is not equipped with an outside air preheat coil. Return air is transferred to the mechanical room via a ceiling plenum, where it is either returned to the air handling unit or exhausted to the outside. Figure 6.1 –SA01‐02 Heating Coils Figure 6.2 – Duct Mounted Dampers – SA01‐02 RS Consulting Energy Audit – Final Report Edwards Energy Engineering & West Valley High School Waste Management Fairbanks, Alaska July 30, 2012 Page 16 Several new air handling units were added during the 2000 remodel. The new air handling units are custom Trane units consisting of a minimum outside air damper with a glycol preheat coil, an economizer damper, mixing box, heating coil, and a variable volume plug type supply fan equipped with a variable speed drive. Supply air from these units is distributed through medium pressure ductwork to variable volume terminal units located in the ceiling spaces. These terminal units are equipped with air volume dampers to control the volume of air being delivered to each temperature control zone. The terminal units vary the air between full design cfm and 40% flow depending on the load in the space being served. Terminal units serving interior zones are equipped with hot water reheat coils, while those serving perimeter zones do not have a reheat coil. Heating of the perimeter zones is provided by finned tube heating elements at the exterior walls. The Auxiliary Gym and Weight Room are heated by duct mounted hot glycol coils in lieu of terminal units. Please refer to Appendix E for diagrams of each of these systems. 6.2 Heating Systems Building heating is provided by four Weil McClain dual fuel (gas/oil) cast iron sectional boilers located in a ground floor mechanical room. A glycol/water mixture is passed through the boilers by a variable speed pumping system. This system distributes hot glycol to heating coils located in the air handling units as well as heating coils located in the interior zone terminal units. Heating water is also distributed to perimeter finned tube units, cabinet heaters (vestibules), and unit heaters (mechanical rooms). The heating water distribution pumps are controlled by variable speed drives that regulate the speed of the pumps in response to system loads. Two way heating water control valves are used throughout the facility. A small number of three way control valves are used at the end of each run in order to keep hot water flowing in each loop. Figure 6.3 – Inlet Vanes on SA01‐02 Figure 6.4 ‐ Boilers Figure 6.5 – Heating Water Pumps RS Consulting Energy Audit – Final Report Edwards Energy Engineering & West Valley High School Waste Management Fairbanks, Alaska July 30, 2012 Page 17 Please refer to Diagram M1.1 in Appendix E for additional information on the heating water distribution system. 6.3 Control Systems The mechanical system is monitored and controlled by a Johnson Controls direct digital control (DDC) system. Valves and dampers are positioned by electric actuators. CO2 sensors are provided in the return duct of the majority of the air handling units to control the amount of outside air in response to building occupancy. 6.4 Domestic Hot Water Domestic hot water is generated by an oil/gas fired hot water heater equipped with a storage tank. 6.5 Mechanical System Trend Logs With the assistance of FNSB personnel, the operating parameters of a single air handling unit and the heating water system were monitored and recorded over a period of several days. This period included weekday and weekend operation. The intent of monitoring a select group of points was to determine if the operation of the mechanical systems was consistent with the assumed schedules and operating parameters used in the computer simulation model, and to identify any potential energy saving items that may be candidates for more in depth monitoring and analysis in the future. This data (typically referred to as a trend log) was taken for SA01‐02, which serves Blocks A and E of the main building. Observations for SA01‐02 may or may not apply to the other units that were not monitored. Certain sections of the trend data were graphed to illuminate items of interest that were noted in our review of the data collected. The data points that were monitored during this study were a small selection of the total number of points available for monitoring in the future. The following observations are from our analysis of the trend logs: The heating water temperature control is stable and the heating water temperature appears to be resetting based on outside air temperature. The outside air damper does not appear to close during unoccupied hours when the supply fan is running. This is a significant load on the heating system. Please refer to Appendix I for a graphical depiction of this data. 7.0 ENERGY USE The purpose of this energy audit is to identify measures or practices that will result in a reduction in the energy use of the facility. Fuel oil is used for building heating and domestic hot water generation, while electricity is used by fans, pumps, lights, and miscellaneous plug loads. A reduction in oil use can be achieved by one or more of the following actions: Reduce the amount of ventilation air being introduced into the building. Reduce the amount of heat lost through the envelope of the building. RS Consulting Energy Audit – Final Report Edwards Energy Engineering & West Valley High School Waste Management Fairbanks, Alaska July 30, 2012 Page 18 Recover heat before it is exhausted from the building. Improve the efficiency of the oil burning equipment. A reduction in electrical consumption can be achieved in one or more of the following manners: Improve the efficiency of the lighting systems. Vary the speed of fans and pumps in response to the building loads. Improve the efficiency of the motors. Turn off systems when they are not required. Two years of utility bills were analyzed to determine the energy consumption characteristics of the facility. These numbers were then normalized to account for any unusual weather conditions that may have occurred during the span of the two years. For example, if the winter of 2010 was abnormally warm, the yearly energy consumption would be less than that of a typical year. The number of actual heating degree days (HDD) for each month during the two year time period was compared to the historical average heating degree days for that month, and the oil consumption use was adjusted based on this ratio. These adjusted energy consumption values were then used to calculate an overall building energy use index. The calculated Energy Utilization Index (EUI) for this facility is 79 kBTU/SF. The EUI calculation is included in Appendix A. Figure 7.1 shows a comparison of the existing and proposed EUI with both the average EUI found in the building operated by the Fairbanks North Star Borough and the Environmental Protection Agency’s Energy Star rating for a median building of a similar type. This target value was developed using the Energy Star Target Finder software and represents the design criteria for a 50% Energy Star Rated Building, rather than the median value for existing K‐12 Schools. Figure 7.1 – Building Energy Use Index RS Consulting Energy Audit – Final Report Edwards Energy Engineering & West Valley High School Waste Management Fairbanks, Alaska July 30, 2012 Page 19 8.0 ENERGY MEASURES 8.1 Types of Energy Savings Measures Potential energy saving measures (ECMs and EEMs) were identified for the facility based upon an on‐site inspection, a review of utility records, computer modeling and interviews with facility personnel. The purpose of identifying these energy measures is to reduce energy consumption, and lower operational costs. Each measure was analyzed either by utilizing a spreadsheet calculation or by employing the TRACE energy‐modeling program. A rolling baseline modeling system is employed during the modeling process. This system analyzes each alternative based on the results of the previous alternative. The first alternatives analyzed are the ones thought to be most likely to result in a short payback period. The rolling baseline system is used to prevent double accounting of energy savings. For example, if one alternative improves the building envelope and the following alternative increases the efficiency of the heating system, the second alternative must take into account the decreased heating load provided by improving the envelope in the first alternative. If this reduced heating load is not taken into account, the second alternative would show additional heating energy savings that would not be realized in a building with an improved envelope. The following measures were analyzed for this facility: 8.1.1 Energy Conservation Measures: ECM A – Ventilation System Optimization ECM B – Replacement of Existing Motors with More Efficient Motors ECM‐C – Modification of the Operation of the Outside Air Dampers on SA01‐02 and SA09 8.1.2 Energy Efficiency Measures: EEM 1 – Lighting Upgrades EEM 2 – Replace Inlet Vanes with Variable Speed Drives 8.2 Computer Modeling The TRACE building modeling system examined four alternatives. The lighting energy savings measure (EEM‐1) was calculated using a spreadsheet. This was accounted for by entering the proposed lighting values into the model prior to examining any other measures. The alternatives examined were: 8.2.1 Trace Model Alternative One: Baseline Building This alternative models the existing facility using information from the most current as built drawings, as well as information gathered during our field visits. The existing wall and roof u‐values were calculated and input into the model. The existing lighting densities, HVAC system types, airflows, and operational schedules were used. The energy use predicted by the baseline model was then compared to the actual RS Consulting Energy Audit – Final Report Edwards Energy Engineering & West Valley High School Waste Management Fairbanks, Alaska July 30, 2012 Page 20 utility bills (normalized to reflect an average year) to determine if the model was accurately describing the operation of the existing facility. The model was then “tuned” to follow the existing building energy consumption as closely as possible. 8.2.2 Trace Model Alternative Two: Lighting Upgrades This alternative accounts for the lighting upgrades that were calculated via a spread sheet. The reduction in lighting load will lead to a slight increase in building heating, and this is accounted for in this alternative. 8.3.3 Trace Model Alternative Three: Modifications to the Operation of SA01‐02 OSA Dampers This alternative incorporates the lighting upgrades from EEM 1 and examines EEM 2, modifications to the outside air dampers of SF01‐02 to close the dampers during unoccupied hours. 8.2.4 Trace Model Alternative Four: Variable Speed Fans This alternative incorporates the changes Alternatives 2 and 3 and examines EEM 3, replacement of existing supply fan inlet vanes with variable speed drives. The TRACE 700 computer model input and output data is included in Appendix G and H respectively. A more thorough discussion of each ECM/EEM can be found in Section 9.0. 8.3 Energy Costs The following energy costs were used in this analysis: Fuel Oil = $3.40/Gallon Electricity Consumption = $.156 per Kwh Electrical Demand = $10.79 Kw Blended Electrical Rate = $.177 per Kwh 9.0 ENERGY MEASURE DESCRIPTIONS 9.1 ECM A – Ventilation Air Analysis Heating of the outside ventilation air is the primary source of energy use for the facility. Any actions taken to reduce the amount of ventilation air introduced into the building will save a significant amount of energy. A certain amount of fresh air is required in order to provide adequate indoor air quality; however, excessive amounts of outdoor air lead to increased energy consumption. This delicate balance between indoor air quality and energy consumption is perhaps the most important aspect of any energy conservation project. The 2009 International Mechanical Code stipulates the minimum outside air requirements for any facility. These requirements include a people component and an area component. For each particular RS Consulting Energy Audit – Final Report Edwards Energy Engineering & West Valley High School Waste Management Fairbanks, Alaska July 30, 2012 Page 21 use, the code specifies a cubic foot per minute of outside air per each occupant (cfm/person) and an amount of outside air required based on the square footage of the space (cfm/square foot). Codes that were in place during the design of this facility typically only included a people component. The 2009 IMC reduces many of the cfm/person requirements from the original codes in place during the time construction of this facility. However, some of the requirements for Classrooms have actually increased. Depending on the balance of Classroom to other uses, implementation of the new code may either increase or decrease the total required amount of outside air for a particular facility. An excerpt from the current code is listed below: Minimum Ventilation Rates ‐ Schools Use 2009 IMC Previous Cfm Cfm People Net Cfm Code Person Sq Ft 1000 Sq Ft Person Cfm/Per Classroom (Age 5‐8) 10 0.12 25 14.8 15 Classroom (Age 9+) 10 0.12 35 13.4 15 Science Room 10 0.18 25 17.2 15 Art Classroom 10 0.18 20 19.0 15 Lecture Classroom 7.5 0.06 65 8.4 15 Lecture Hall (Fixed Seats) 7.5 0.06 150 7.9 15 Computer Lab 10 0.12 25 14.8 20 Shops 10 0.18 20 19.0 20 Music/Theater/Dance 10 0.06 35 11.7 20 Multi‐Use/Assembly 7.5 0.06 100 8.1 20 Office 5 0.06 5 17.0 20 If the air handling system provides ventilation air to multiple zones, several additional calculations must be performed to determine the fraction of outdoor air required at the air handling unit. These calculations provide correction factors for over ventilated zones, air distribution effectiveness, and system efficiencies. A calculation of the overall percentage of outside air required at each air handling unit can be found in Appendix D. West Valley High School utilizes CO2 sensors in the return air ducts to monitor the ambient CO2 level. The control system modulates the amount of outside air introduced in the building in proportion to the number of people in the space at any given time. This is known as demand controlled ventilation (DCV) and is the best method to balance the need for adequate indoor air quality with the desire to reduce energy consumption. Demand Controlled Ventilation (DCV) is a method of adjusting the amount of outside ventilation air introduced in to the building based on the number of occupants at any given time. The number of occupants can be determined indirectly by measuring the concentration of carbon dioxide (CO2) in the air. Each person produces CO2 at a fairly constant rate; therefore, the concentration of CO2 in the return air system can be used as an indication of the number of people occupying the space. RS Consulting Energy Audit – Final Report Edwards Energy Engineering & West Valley High School Waste Management Fairbanks, Alaska July 30, 2012 Page 22 Measuring the return air CO2 is a relatively inexpensive method of DCV since it requires only one sensor and minimal control wiring. However, this method provides an average reading of all the spaces served by the system. If one space is fully occupied and the other is empty the average value read in the return air stream will not be indicative of what is actually happening on a room by room level and some zones may be over ventilated, while others are under ventilated. The control system monitors the CO2 level in the return air stream and opens the outside air damper when this level exceeds a certain set point. This set point is based on a calculation of the minimum amount of outside air required by code. The calculation of the maximum allowable CO2 level is provided in Appendix D. This CO2 set point should be compared to the current set point and adjusted, if possible, to reduce the amount of outside air required. The facility’s air handling units are scheduled to run during unoccupied hours any time the outside air temperature drops below minus 20 degrees F. The temperature in Fairbanks is below minus 20 degrees between the hours of 5 PM and 8 AM (unoccupied hours) for approximately 550 hours per year. The control systems are set up to allow a small percentage of outside air into the building during these times in order to keep the building pressurized and prevent any infiltration of cold air. This outside air used for pressurization must be heated prior to entering the building. The heating of this outside air represents an annual energy cost of approximately $2 per cubic foot per minute (cfm) of outside air. For example, if SF01‐02 is bringing in 9,500 cfm of outside air as was indicated in the trend logs, this would result in an annual oil energy cost of $19,000. Although pressurization of the building may be required to prevent freeze up and maintenance issues when the outside air temperatures drop below minus 20 degrees F, it does require a substantial amount of energy to heat the outside air used to pressurize the building. We recommend revisiting this practice to determine if the buildings can be operated with little or no outside air (neutral pressure) during this time in order to reduce the overall building energy consumption. We also recommend a visual inspection of all the outside air dampers in the facility to verify that they are closing properly during unoccupied hours. Also, the seals on these dampers should be inspected to verify that the damper is not leaking when it is closed. 9.2 ECM B – Energy Efficient Motors The pay back derived from replacing existing electric motors with premium efficiency motors depends on the horsepower, the efficiency, hours of operation, type of system, and the location of the existing motor. Larger motors tend to provide lower pay back periods. The tables included in Appendix D provide information on the typical motors used in this facility and indicates the existing motor efficiency at which the payback period becomes feasible. For example, if an existing 10 horsepower motor used in a perimeter heating loop has an efficiency of 87.5% or less, then replacing the motor with a premium efficiency model will provide a payback of 5 years. Motors used in variable speed systems will have a longer payback than indicated in the charts because the motor is not operating at full design horsepower for the number of hours indicated. Additionally motors located in the airstream of fan systems will also have a slightly longer payback, because the heat produced by the inefficiency of the motor is used in a beneficial way during the heating season. Please refer to the tables to determine the feasibility of replacing other motors used throughout the facility. Since many of the motor nameplates are obstructed or could not be found, a simple payback calculation for each motor is not feasible. RS Consulting Energy Audit – Final Report Edwards Energy Engineering & West Valley High School Waste Management Fairbanks, Alaska July 30, 2012 Page 23 However, as maintenance personnel are working in this building, this chart can be used to determine if the motors should be replaced or re‐used. 9.3 EEM 1 ‐ Lighting System Upgrade This EEM examines lighting efficiency upgrades of existing fluorescent, incandescent, and high‐pressure sodium lighting fixtures located throughout this facility. In some of the corridors and classrooms we propose retrofitting the existing 32‐Watt T8 lamps and normal ballast factor (NBF) to 28‐Watt lamps with program‐start, low ballast factor(LBF). We recommend maintaining the 20‐Watt and 26 compact fluorescents. In the Commons, there is a mixture of175‐Watt and 250‐Watt metal halides along with 32‐ Watt compact fluorescents. We recommend maintaining the 175‐Watt metal halides and replacing some of the 250‐Watt with 28‐Watt and normal ballast. In the dressing room, corridor, Classroom 113, walk‐in cooler/freezer, Room 171, and control room there are 25‐Watt, 50‐Watt, 90‐Watt, 100‐Watt, 150‐Watt, and 200‐Watt incandescent lamps. We recommend replacing all of these incandescent lamps with LED’s. We recommend replacing the 25‐Watt with 8‐Watt A‐19 Style LED, the 50‐Watt with 8‐Watt Par LED, the 90‐Watt with 8‐Watt A‐19 Style LED, the 100‐Watt with 16‐Watt A Style LED and the 200‐Watt with 16‐Watt Par LED. In the main gymnasium where there is a mixture of 400‐Watt metal halide lamp fixtures along with 32‐Watt T8 lamp fixtures. We recommend replacing the existing 32‐ Watt T8 lamp and normal ballast with a wrap kit with reflector and 28‐Watt lamp and program start and high ballast factor ballast. We also recommend replacing some of the metal halides with new F54 T‐5 lighting fixtures. In the outside perimeter of the building where there are a mixture of 70‐Watt, 150‐ Watt, 250‐Watt, and 400‐Watt high‐pressure sodium lighting we recommend replacing the of 70‐Watt with 50‐Watt pulse start metal halides, the 150‐Watt wall pack high pressure sodium with 100‐Watt metal halides, the 250‐Watt high pressure sodium with 175‐Watt metal halides, and the 400‐Watt high‐ pressure sodium with 320‐Watt metal halides. A complete detail of all the fixtures audited, proposed, and cost savings is provided in the EEM Summary Table in Section 10.0 and in Appendix C of this audit report. 9.4 ECM C – Modify SF01‐02 Outside Air Controls Examination of the trend logs for SF01‐SF02 indicates that the outside air dampers are not closing when the fans run during unoccupied hours. The control system is designed to run the supply fans during unoccupied hours whenever the outside air temperature drops below minus 20 degrees F. The outside air damper should be closed during this time, or allow a maximum of 5% OSA, but they remain open at 25% OSA. The trend logs also provide data on the total air flow for the system, and given this airflow; we are able to calculate the total flow of outside air being introduced into the building. Since we know the total outside airflow, we can calculate the energy savings provided by shutting these dampers. This alternative examines the savings provided by correcting the control sequence and/or repairing the damper operators to close this damper. 9.5 EEM 2 – Replace Inlet Vanes with Variable Speed Drives The original design of the variable air volume fans included using modulating vanes on the inlet of each fan to vary the amount of air produced by the fans by changing the angle of air as it hit the fans blades. The fans run at full speed; however, total horsepower required decreases as the motor unloads. This RS Consulting Energy Audit – Final Report Edwards Energy Engineering & West Valley High School Waste Management Fairbanks, Alaska July 30, 2012 Page 24 technique saves energy; however, is not as efficient as simply slowing down the speed of the fan blade by using variable speed drives. This EEM includes the following: Remove inlet vane controller and lock inlet vanes in the open position on SF01‐02 and SF09. Replace the existing motors with high efficiency motors designed for use with variable speed drives. Provide new variable speed drives for each fan motor. Extend the existing DDC control system to incorporate these new points. The existing fan motors on SF01 and SF02 are 75 hp. These motors appear to be oversized for the current airflows served by this system, and can be replaced with two 50 hp motors. 10.0 SIMPLE PAYBACK AND SIR The total energy saved by employing Energy Conservations Measures ECM‐A, Ventilation Air Reduction and ECM‐B, Energy Efficient Motors, could not be calculated. Calculation of the total energy saved from implementing ECM‐A requires detailed data monitoring and analysis of each individual air handling system in order to determine the existing energy consumption of each unit. Calculation of the total energy saved by employing ECM B could not be performed since many of the motor nameplates were inaccessible or missing during our walkthrough. This level of detailed analysis is beyond the scope of a Level II audit and is typically performed during a Level III Audit. Therefore, simple payback and Savings to Investment Ratio (SIR) calculations are not presented for the recommended Energy Conservation Measures (ECM A and ECM B). However, we do have enough data to estimate the energy saved by employing ECM C so we are able to calculate the simple pay back and SIR of this ECM. The simple payback calculation is a quick method of comparing various ECMs/EEMs; however, does not take into account the time value of money or the costs or savings beyond the first cost. The savings‐to‐investment ratio (SIR) is the ratio of the present value savings to the present value costs of an energy conservation measure. The numerator of the ratio is the present value of net savings in energy plus or minus any additional maintenance costs related to the measure. The denominator of the ratio is the present value of the installation cost of the measure. The following formulas were used in the calculation of each ratio: Simple Payback = Cost of Energy Saved/Cost of Installation of ECM/EEM SIR = Present Value of Energy Saved for the Life of the Measure/Present Value of the Installed Cost RS Consulting Energy Audit – Final Report Edwards Energy Engineering & West Valley High School Waste Management Fairbanks, Alaska July 30, 2012 Page 25 WEST VALLEY HIGH SCHOOL ‐ EEM SUMMARY Measure Number Measure Description Annual Energy and Cost Savings Payback Calculations Peak Demand Savings Electricity Usage Savings Oil Usage Savings Annual Cost Savings Measure Cost Simple Payback Savings to Invest Ratio Kw Kwh Therms $ $ Yrs ECM‐C OSA Damper Repairs 5 19,900 6,670 $19,360 $6,200 0.3 44.0 EEM‐1 Lighting Upgrades 1109 298,740 *(2,918) $51,480 $348,000 6.8 2.1 EEM‐2 Add VSDs on SA01‐02,SA09 73 277,680 **(249) $43,500 $51,000 1.2 12.0 * The reduction in lighting leads to an increase in the overall annual heat load of the building. ** The reduction in fan heat leads to an increase in the overall annual heat load of the building. 11.0 OPERATIONS AND MAINTENANCE A successful operations and maintenance plan is the key to continued energy savings in any facility. According to the American Society of Heating and Refrigeration Engineers (ASHRAE) 2007 Handbook, the original design and installation of a mechanical system constitutes only around 10% of the total life cycle cost, while operation and maintenance costs represent approximately 80% of the total cost over the life of the system. The remaining 10% of the life cycle cost is attributed to acquisition, renewal and disposal. When a mechanical system is installed, it should be commissioned to ensure that the operation of the system meets the design intent. Over the life of this system, its operation should be verified via control system trending and/or field measurements. If the system is found to be operating outside of the original design intent, corrective action or retro commissioning should be initiated. A quality preventative maintenance plan can extend the life of the mechanical system beyond the estimated service life of the equipment and free up capital funds for other projects. Frequent filter changes can result in significant energy savings over the life of the building. The pressure drop across the filter increases as it captures dirt and dust. This increased pressure drop results in additional energy consumption, a decrease in airflow, or both. For a typical 20,000 cfm fan system a 1‐inch static pressure increase will result in an increased annual energy cost of $2,000. The level of maintenance at the West Valley High School appears to be excellent. The level of quality of the installed Pace custom air handlers is very high, and there were no visible signs of wear or of any maintenance problems. The mechanical spaces are clean and well kept and the filters appear to have been changed frequently. 12.0 RECOMMENDATIONS The West Valley High School was substantially renovated in 2000 and the majority of the envelope, lighting, and mechanical systems are approximately 12 years old. Further advances in lighting efficiency in the last decade allow us to recommend incremental improvements in the lighting systems since these potential energy savings opportunities can yield a favorable financial return. The existing mechanical systems currently employ many energy saving techniques, including variable speed pumping, variable RS Consulting Energy Audit – Final Report Edwards Energy Engineering & West Valley High School Waste Management Fairbanks, Alaska July 30, 2012 Page 26 speed fans, and DCV control. Therefore, opportunities for additional savings measures that have attractive paybacks are minimal. However, the air handling units that were not replaced in the 2000 remodel employ old technology (inlet vanes) to achieve variable volume flow. Replacing these inlet vanes with variable speed drives will generate substantial energy savings We recommend further analysis of the following Energy Conservation Measures: ECM A Ventilation Air Reductions Verify that the maximum CO2 set points used in the Demand Controlled Ventilation (DCV) control scheme are in agreement with current codes. It is possible that some of the set points may be increased, which will reduce the amount of outside air needed. Revisit the practice of pressurizing the building in cold weather during unoccupied hours. This practice may be required to prevent freeze up or damage; however, any reduction in the amount of pressurization required will result in substantial energy savings. Inspect and repair all outside air dampers that may be leaking or not closing properly to prevent introduction of unwanted outside air during unoccupied hours. The majority of the facility energy use can be attributed to the heating of the outside air as it is introduced into the building. Therefore, anything that can be done to reduce this outside airflow will have the greatest impact on the overall energy consumption of the facility. ECM B Replace Low Efficiency Motors Where Applicable Replace motors that do not meet the minimum efficiency criteria as listed in the Table provided in Appendix D. We recommend implementation of the following Energy Conservation and Energy Efficiency Measures: ECM C Repair Operation of OSA Dampers on SA01‐02 The outside air dampers for this system are not closing properly during unoccupied hours. Repairing the dampers, and/or modifying the control sequence will result in a reduction in oil consumption. EEM 1 Lighting Upgrades Electrical energy consumption will be reduced significantly by upgrading the lighting system with energy efficient fixtures. EEM 2 Variable Speed Drives on SA01‐02 and SA09 Remove the existing inlet vanes and fan motors and provide new premium efficiency motors with variable speed drives. APPENDIX A – CALCULATION OF ENERGY USE INDEX Building Square Footage 216,884 Estimated Estimated Estimated Actual Average Total Delivered Monthly Monthly Monthly Base 60 Base 60 Cost Per Cost per Energy Use Date Gallons kbtu Cost Cost/Mbtu Cost/Gal Use (Gal)kbtu-Oil Cost HDD HDD KWH kbtu-Elec Cost KWH kbtu kbtu Jan-09 16,851 2,274,042 29,104$0.013$1.727$12,687 1,712,082 26,986$2182 2236 228,400 779,301 33,037$0.145$0.042$2,491,382 Feb-09 10,859 1,465,422 19,937$0.014$1.836$9,791 1,321,332 20,827$1684 1709 245,000 835,940 34,925$0.143$0.042$2,157,272 Mar-09 8,243 1,112,393 14,007$0.013$1.699$9,559 1,289,946 20,332$1644 1652 169,600 578,675 21,205$0.125$0.037$1,868,621 Apr-09 4,499 607,140 8,005$0.013$1.779$4,936 666,158 10,500$849 775 190,400 649,645 20,678$0.109$0.032$1,315,803 May-09 0 0 -$--1,698 229,114 3,611$292 287 194,000 661,928 20,748$0.107$0.031$891,042 Jun-09 0 0 -$--488 65,910 1,039$84 93 171,400 584,817 23,290$0.136$0.040$650,726 Jul-09 4,002 540,070 8,308$0.015$2.076$174 23,539 371$30 59 110,800 378,050 15,813$0.143$0.042$401,589 Aug-09 0 0 -$--1,192 160,851 2,535$205 166 147,400 502,929 19,369$0.131$0.039$663,780 Sep-09 3,833 517,263 10,679$0.021$2.786$2,262 305,224 4,811$389 398 170,000 580,040 27,096$0.159$0.047$885,264 Oct-09 4,644 626,708 10,709$0.017$2.306$5,378 725,791 11,440$925 1076 199,200 679,670 30,928$0.155$0.046$1,405,461 Nov-09 8,982 1,212,121 22,060$0.018$2.456$10,524 1,420,196 22,385$1810 1716 210,200 717,202 32,433$0.154$0.045$2,137,398 Dec-09 8,062 1,087,967 26,035$0.024$3.229$11,286 1,522,984 24,005$1941 2064 204,000 696,048 34,777$0.170$0.050$2,219,032 Jan-10 13,096 1,767,305 32,589$0.018$2.488$13,025 1,757,763 34,029$2292 2236 191,000 651,692 33,316$0.174$0.051$2,409,455 Feb-10 9,675 1,305,641 23,315$0.018$2.410$9,093 1,227,060 23,755$1600 1709 220,600 752,687 37,689$0.171$0.050$1,979,747 Mar-10 10,210 1,377,840 25,644$0.019$2.512$8,445 1,139,632 22,063$1486 1652 192,800 657,834 33,426$0.173$0.051$1,797,465 Apr-10 4,460 601,877 11,807$0.020$2.647$3,353 452,478 8,760$590 775 196,000 668,752 33,619$0.172$0.050$1,121,230 May-10 2,113 285,149 5,612$0.020$2.656$1,421 191,728 3,712$250 287 189,800 647,598 32,919$0.173$0.051$839,326 Jun-10 0 0 -$--529 71,323 1,381$93 93 147,400 502,929 25,991$0.176$0.052$574,252 Jul-10 0 0 -$--324 43,714 846$57 59 117,200 399,886 20,472$0.175$0.051$443,600 Aug-10 1,042 140,618 2,814$0.020$2.700$659 88,962 1,722$116 166 105,800 360,990 18,883$0.178$0.052$449,951 Sep-10 2,066 278,807 5,476$0.020$2.650$2,415 325,938 6,310$425 398 147,400 502,929 25,369$0.172$0.050$828,867 Oct-10 7,507 1,013,070 20,525$0.020$2.734$5,740 774,582 14,995$1010 1076 182,800 623,714 30,465$0.167$0.049$1,398,295 Nov-10 9,452 1,275,547 26,460$0.021$2.799$8,002 1,079,813 20,904$1408 1716 203,600 694,683 33,351$0.164$0.048$1,774,496 Dec-10 7,091 956,930 20,047$0.021$2.827$13,707 1,849,793 35,811$2412 2064 192,000 655,104 31,414$0.164$0.048$2,504,897 Heating Deg DaysFuel Oil Use Electrical Use West Valley High School Energy Use Index Dec-10 7,091 956,930 20,047$0.021$2.827$13,707 1,849,793 35,811$2412 2064 192,000 655,104 31,414$0.164$0.048$2,504,897 Avg Cost 2009 69,975 9,443,126 148,844$0.021$2.127$69,975 9,443,126 148,844$12,035 12,231 2,240,400 7,644,245 314,300$Avg Cost Avg Cost 17,087,371 2010 66,712 9,002,784 174,288$0.024$2.613$66,712 9,002,784 174,288$11,739 12,231 2,086,400 7,118,797 356,916$Per KWH Per Mbtu 16,121,581 Averages 68,344 9,222,955 161,566$0.023$2.370$68,344 9,222,955 161,566$11,887 12,231 2,163,400 7,381,521 335,608$0.162$0.048$33,208,952 Energy Adjusted Energy Use( MBH)Oil Elect Total BTU/SF For HDD Oil Electric Total 2009 9,443,126 7,644,245 17,087,371 78,786 80,069 Average Annual Utility Costs 161,566$335,608$497,174$ 2010 9,002,784 7,118,797 16,121,581 74,333 77,448 Utility Costs per Square Foot 0.74$1.55$2.29$ Average 78,800 West Valley High School Energy Use Index APPENDIX B –COST ESTIMATES RS Consulting Opinion of Probable Cost Job:West Valley High School Date:7-May-12 Job #:Status of Design:Energy Audit Est:RWS QTY UNIT MATERIAL LABOR ENGINEERING EST DESCRIPTION UNIT TOTAL UNIT TOTAL UNIT TOTAL EEM Replace Inlet Vanes with Variable Speed Drives on SF01-02 and SF09 Remove Inlet Vane Linkages SF01 2 EA 480 960 480 $960 Remove Inlet Vane Linkages SF09 1 EA 480 480 480 $480 Lock Vnes in Place 3 EA 120 360 120 $360 Remove Exist 75 HP Motors 2 EA 480 960 480 $960 Remove Exist 15 HP Motor 1 EA 120 120 120 $120 Provide New 50 HP Motor 2 EA 3500 7000 650 1300 4150 $8,300 Provide New 15 HP Motor 1 EA 1400 1400 450 450 1850 $1,850 Provide New 50 HP Var Spd Drive 2 EA 4200 8400 550 1100 4750 $9,500 Provide New 15 HP Var Spd Drive 1 EA 1800 1800 350 350 2150 $2,150 Modify Control Wiring and Conduit 1 EA 1000 1000 3200 3200 4200 $4,200 Controls Programming and Test 1 EA 2500 2500 2500 $2,500 Subtotal $31,380 General Conditions 25%$7,845 $39,225 Construction Contingency 15%$5,884 $45,109 Design 12%$5,413 $50,522 Total for EEM $50,522 Round to $51,000 APPENDIX C –LIGHTING CALCULATIONS Project Name Contact - 19804 141st Place NE Woodinville, WA 98072 Office: 425-806-9200 Fax: 425-806-7455 Energy Analysis Existing System Baseline Energy Efficient System Energy Reduction 25.45% Annual Energy Savings Estimated Annual Savings at 15.600¢per kWh Total Savings Rebates Estimated Potential Golden Valley Electric Utility Rebate / Grant Project Investments Lighting System Sensors / Controls $11,974.57 $46,603.31 Estimated Demand Savings $318,245.00 $9,885.00 West Valley High School $0.00 1,173,819 kWh / Yr. 875,080 kWh / Yr. (206) 303-0121Sandra Edwards Project Analysis for West Valley High School $58,577.88 298,739 kWh / Yr. Lamp Recycle Permits Waste Removal Haz-Mat (PCB) Fees Lifts and Equipment State Tax (if applicable)0.00% Total Project Investment Proposal Outline Total Initial Investment Total Estimated Rebate Actual Investment Total Annual Energy Savings Simple Payback $7,711.06 $0.00 $348,014.68 $4,068.81 $8,104.81 $0.00 $58,577.88 $348,014.68 Date ___________________ $0.00 $0.00 The information provided herein is based on information collected from the building location during our energy surveys and also provided by authorized personnel. All data contained within this document is to be considered as an estimate. This information is proprietary, not to be disclosed to third parties without prior written permission from Northwest Edison. $348,014.68 I, the undersigned, do hereby give consent to proceed with the project as outlined in this and all other relevant project documents. I understand that the material costs are considered current for sixty days from the date stated below. All other data provided by sources other than Northwest Edison is subject to change without notice. Authorized Signature ______________________________________________________________________ 5.94 Years Energy AuditFacility ContactAuditor(s)Phone Ext. Audit DateBuilding ContactLast RevisedPhone Ext. Utility kWh Rate Demand RateTax RateFacility TypeHeatLamp ReplaceBallast ReplaceSecond Tier Start LevelGroupSpotECM #Fixture QtyLamp WattsFixture WattsFixture HeightHours/DayDays/WeekFCSensor QtySensor / Power PackEnergy SavedSensor HeightE232 90 9 7P228 48 9 7*E8232 90 9 7 30-55P8228 73 9 7*E6932 32 12 7P6928 26 12 7ACAddressCity99709Sandra Edwards(206) 303-0121 10/30/11PCB / PercentGolden Valley Electric15.600¢West Valley High SchoolAlaskaFairbanks3800 Geist RoadProject NameZip Code4.00%Fairbanks North StarLB328NP(425) 806-9200(425) 806-74550.0000Maint. RateES4132NLB128NPET4332NExisting / Proposed Fixture DescriptionExisting Troffer 4' w 3 F32 T8 32 watt Lamps, NBF BallastTroffer Kit with Reflector 4' 2L F32 T8 28 watt, PRS NBF BallastLocationStateEntry to CommonsCountyEntry to CommonsCommons12CommonsCommonsCommonsOffice Phone #Office Fax #2/2/12Sq. FeetSurvey NotesAC, 841uplight, 841All lamps are 841 unless noted otherwise. ACFixture IDET4332NTK4228NPExisting Strip T8 4' w 1 F32 32 watt Lamp, NBF Ballast Lamp and Ballast Retro with 1L F32 T8 28 watt, PRS NBF BallastExisting Troffer 4' w 3 F32 T8 32 watt Lamps, NBF BallastLamp and Ballast Retro with 3L F32 T8 28 watt, PRS NBF Ballast3$10.7919804 141st Place NE Woodinville, WA 98072Mike CampbellNWE Contact Phone(509) 775-8021*E7250 295 12 7P728 72 12 7*E1250 295 12 7P100 127*E1926 52 12 7P1926 52 12 7*E1132 32 9 7P1128 22 9 7*E32 250 295 25.0 ft 12 7P32 250 295 25.0 ft 12 7*E13 250 295 16.0 ft 12 7P13 250 295 16.0 ft 12 7*E8175 210 12 7P8175 210 12 7Triangular shoebox on pole @ 16', 2 boltrecessed canAC, 841Triangular shoebox on wall, 25 - 28'Energy saver lampECFL226EWMH250CommonsCommonsEWMH250EFMH250EFMH250CommonsEFMH175Commons18 cell, 841DecommissionEFMH250CommonsCommonsEFMH250Existing Fixture Metal Halide 175 watt LampExisting Fixture Metal Halide 250 watt Lamp6DECOMCommonsECFL226CommonsExisting Fixture Metal Halide 250 watt LampDecommission / Remove FixtureExisting Fixture with 2 - 26 watt CFL Lamps54CommonsCommons10Commons89CommonsEFMH175NTP4328NExisting Strip T8 4' w 1 F32 32 watt Lamp, NBF Ballast 7CommonsES4132NCommonsLamp and Ballast Retro with 1L F32 T8 28 watt, PRS LBF BallastLB128LPExisting Fixture with 2 - 26 watt CFL LampsNew Troffer Parabolic Fixture 4' w 3 F32 28 watt Lamp, NBF BallastExisting Wall Pack Metal Halide 250 watt LampExisting Fixture Metal Halide 175 watt LampExisting Wall Pack Metal Halide 250 watt LampExisting Fixture Metal Halide 250 watt LampExisting Fixture Metal Halide 250 watt LampThis information is proprietary, not to be disclosed to third parties without prior written permission from Northwest Edison.Energy Audit Calculation 1 of 38 2/2/2012 Energy AuditFacility ContactAuditor(s)Phone Ext. Audit DateBuilding ContactLast RevisedPhone Ext. Utility kWh Rate Demand RateTax RateFacility TypeHeatLamp ReplaceBallast ReplaceSecond Tier Start LevelGroupSpotECM #Fixture QtyLamp WattsFixture WattsFixture HeightHours/DayDays/WeekFCSensor QtySensor / Power PackEnergy SavedSensor HeightACAddressCity99709Sandra Edwards(206) 303-0121 10/30/11PCB / PercentGolden Valley Electric15.600¢West Valley High SchoolAlaskaFairbanks3800 Geist RoadProject NameZip Code4.00%Fairbanks North Star(425) 806-9200(425) 806-74550.0000Maint. RateExisting / Proposed Fixture DescriptionLocationStateCountyOffice Phone #Office Fax #2/2/12Sq. FeetSurvey NotesFixture ID$10.7919804 141st Place NE Woodinville, WA 98072Mike CampbellNWE Contact Phone(509) 775-8021*E826 52 10.6 5P826 52 10.6 5*E2132 122 10.6 5P2128 96 10.6 5*E332 122 10.6 5 1.00 WSD2PI 25%P328 94 10.6 5 25%Admin Office (Main)101C OfficeET4432NLB428NPET4432NLB428N2P WSDEnergy saver lampExisting para w/2 motorola ballasts - (d) w/each ballast .22 @27711Admin Office (Main)1312Admin Office (Main)101C OfficeAdmin Office (Main)ECFL226ECFL226Existing Troffer 4' w 4 F32 T8 32 watt Lamps, NBF Ballast Lamp and Ballast Retro with 4L F32 T8 28 watt, PRS NBF BallastExisting Fixture with 2 - 26 watt CFL LampsExisting Fixture with 2 - 26 watt CFL LampsExisting Troffer 4' w 4 F32 T8 32 watt Lamps, NBF Ballast Lamp And Ballast Retrofit w 4 F32 28 watt Lamp, NBF Ballast*E132 122 24 7P128 96 24 7*E332 122 10.6 5 1.00 WSD2PI 25%P328 94 10.6 5 25%*E132 122 24 7P128 96 24 7*E532 122 10.6 5 1.00 WSD2PI 25%P528 94 10.6 5 25%*E132 122 24 7P128 96 24 7*E532 122 10.6 5 1.00 WSD2PI 25%P528 94 10.6 5 25%*E132 122 24 7P128 96 24 716A101F OfficeET4432NExisting Troffer 4' w 4 F32 T8 32 watt Lamps, NBF Ballast (1) 24/7 on emergency circuit101F OfficeLB428NLamp And Ballast Retrofit w 4 F32 28 watt Lamp, NBF Ballast14AJennie Burnett Office AreaET4432NExisting Troffer 4' w 4 F32 T8 32 watt Lamps, NBF Ballast (1) on 24/7Jennie Burnett Office AreaLB428NLamp And Ballast Retrofit w 4 F32 28 watt Lamp, NBF Ballast13A101C OfficeET4432NExisting Troffer 4' w 4 F32 T8 32 watt Lamps, NBF Ballast (1) on 24/7101C OfficeLB428NLamp And Ballast Retrofit w 4 F32 28 watt Lamp, NBF Ballast15A101E OfficeET4432NExisting Troffer 4' w 4 F32 T8 32 watt Lamps, NBF Ballast (1) 24/7 on emergency circuit101E OfficeLB428NLamp And Ballast Retrofit w 4 F32 28 watt Lamp, NBF BallastET4432NJennie Burnett Office AreaLB428NPJennie Burnett Office AreaET4432NLB428NP101F OfficeET4432NLB428NP14101E Office16101F Office15101E OfficeExisting Troffer 4' w 4 F32 T8 32 watt Lamps, NBF Ballast Lamp and Ballast Retro with 4L F32 T8 28 watt, PRS NBF BallastExisting Troffer 4' w 4 F32 T8 32 watt Lamps, NBF Ballast Lamp and Ballast Retro with 4L F32 T8 28 watt, PRS NBF BallastExisting Troffer 4' w 4 F32 T8 32 watt Lamps, NBF Ballast Lamp and Ballast Retro with 4L F32 T8 28 watt, PRS NBF BallastThis information is proprietary, not to be disclosed to third parties without prior written permission from Northwest Edison.Energy Audit Calculation 2 of 38 2/2/2012 Energy AuditFacility ContactAuditor(s)Phone Ext. Audit DateBuilding ContactLast RevisedPhone Ext. Utility kWh Rate Demand RateTax RateFacility TypeHeatLamp ReplaceBallast ReplaceSecond Tier Start LevelGroupSpotECM #Fixture QtyLamp WattsFixture WattsFixture HeightHours/DayDays/WeekFCSensor QtySensor / Power PackEnergy SavedSensor HeightACAddressCity99709Sandra Edwards(206) 303-0121 10/30/11PCB / PercentGolden Valley Electric15.600¢West Valley High SchoolAlaskaFairbanks3800 Geist RoadProject NameZip Code4.00%Fairbanks North Star(425) 806-9200(425) 806-74550.0000Maint. RateExisting / Proposed Fixture DescriptionLocationStateCountyOffice Phone #Office Fax #2/2/12Sq. FeetSurvey NotesFixture ID$10.7919804 141st Place NE Woodinville, WA 98072Mike CampbellNWE Contact Phone(509) 775-8021*E332 122 10.6 5 1.00 WSD2PI 25%P328 94 10.6 5 25%*E132 122 24 7P128 96 24 7*E1732 122 8 5 50-60P1728 94 8 517A101G OfficeET4432NExisting Troffer 4' w 4 F32 T8 32 watt Lamps, NBF Ballast on emergency circuit101G OfficeLB428NLamp And Ballast Retrofit w 4 F32 28 watt Lamp, NBF BallastET4432NLB428NPET4432NLB428NPAC18107 Faculty Lounge107 Faculty Lounge17101G Office101G OfficeExisting Troffer 4' w 4 F32 T8 32 watt Lamps, NBF Ballast Lamp and Ballast Retro with 4L F32 T8 28 watt, PRS NBF BallastExisting Troffer 4' w 4 F32 T8 32 watt Lamps, NBF Ballast Lamp and Ballast Retro with 4L F32 T8 28 watt, PRS NBF Ballast*E132 122 24 7P128 96 24 7*E432 122 24 7 55P428 96 24 7*E132 122 24 7P128 96 24 7*E124 7P100 247*E132 61 2 5P128 42 2 5*E132 90 8 5 55P128 62 8 5*E432 61 12.75 5 30P428 42 12.75 518CHall with Restroom in Staff AreaET4432NExisting Troffer 4' w 4 F32 T8 32 watt Lamps, NBF Ballast on emergency circuitHall with Restroom in Staff AreaLB428NLamp And Ballast Retrofit w 4 F32 28 watt Lamp, NBF BallastJ2 Custodial21F2 Mens Restroom107A Work RoomLB328LP18A107 Faculty LoungeET4432NExisting Troffer 4' w 4 F32 T8 32 watt Lamps, NBF Ballast on emergency circuit107 Faculty LoungeLB428NLamp And Ballast Retrofit w 4 F32 28 watt Lamp, NBF BallastHall with Restroom in Staff AreaET4432NLB428NEW4232NLB228LEW4232NLB228LP84119F2 Mens Restroom18BHall with Restroom in Staff AreaJ2 CustodialLamp And Ballast Retrofit w 4 F32 28 watt Lamp, NBF BallastExisting Troffer 4' w 4 F32 T8 32 watt Lamps, NBF Ballast ACExisting Wrap T8 4' w 2 F32 32 watt Lamp, NBF BallastLamp and Ballast Retro with 2L F32 T8 28 watt, PRS LBF BallastACLamp and Ballast Retro with 3L F32 T8 28 watt, PRS LBF Ballast20107A Work RoomET4332NExisting Troffer 4' w 3 F32 T8 32 watt Lamps, NBF Ballast18DHall with Restroom in Staff AreaVending miser controls 2 machinesHall with Restroom in Staff AreaVMVending Misor SensorExisting Wrap T8 4' w 2 F32 32 watt Lamp, NBF BallastLamp And Ballast Retrofit w 2 F32 28 watt Lamp, LBF BallastThis information is proprietary, not to be disclosed to third parties without prior written permission from Northwest Edison.Energy Audit Calculation 3 of 38 2/2/2012 Energy AuditFacility ContactAuditor(s)Phone Ext. Audit DateBuilding ContactLast RevisedPhone Ext. Utility kWh Rate Demand RateTax RateFacility TypeHeatLamp ReplaceBallast ReplaceSecond Tier Start LevelGroupSpotECM #Fixture QtyLamp WattsFixture WattsFixture HeightHours/DayDays/WeekFCSensor QtySensor / Power PackEnergy SavedSensor HeightACAddressCity99709Sandra Edwards(206) 303-0121 10/30/11PCB / PercentGolden Valley Electric15.600¢West Valley High SchoolAlaskaFairbanks3800 Geist RoadProject NameZip Code4.00%Fairbanks North Star(425) 806-9200(425) 806-74550.0000Maint. RateExisting / Proposed Fixture DescriptionLocationStateCountyOffice Phone #Office Fax #2/2/12Sq. FeetSurvey NotesFixture ID$10.7919804 141st Place NE Woodinville, WA 98072Mike CampbellNWE Contact Phone(509) 775-8021*E432 61 12.75 5P428 42 12.75 5*E332 90 8 5P328 73 8 5*E132 90 24 7P128 72 24 723A103A OfficeET4332NExisting Troffer 4' w 3 F32 T8 32 watt Lamps, NBF Ballaston emergency circuit103A OfficeLB328NLamp And Ballast Retrofit w 3 F32 28 watt Lamp, NBF Ballast2322F1 Womens Restroom103A OfficeF1 Womens RestroomEW4232NLB228LPET4332NLB328NP103A OfficeACACExisting Troffer 4' w 3 F32 T8 32 watt Lamps, NBF BallastLamp and Ballast Retro with 3L F32 T8 28 watt, PRS NBF BallastExisting Wrap T8 4' w 2 F32 32 watt Lamp, NBF BallastLamp and Ballast Retro with 2L F32 T8 28 watt, PRS LBF Ballast*E432 122 10.6 5P428 96 10.6 5*E132 122 24 7P128 96 24 7*E632 122 10.6 5P628 96 10.6 5*E432 122 10.6 5P428 96 10.6 5*E132 122 24 7P128 96 24 7*E1032 90 18 7P1028 73 18 7*E532 90 24 7P528 72 24 7Hall - 103-108LB328NLamp And Ballast Retrofit w 3 F32 28 watt Lamp, NBF Ballast24AOffice next to 103AET4432NExisting Troffer 4' w 4 F32 T8 32 watt Lamps, NBF Ballast (1) on 24/7Office next to 103ALB428NLamp And Ballast Retrofit w 4 F32 28 watt Lamp, NBF Ballast26A101 B Work RoomET4432NExisting Troffer 4' w 4 F32 T8 32 watt Lamps, NBF Ballast on emergency circuit101 B Work RoomLB428NLamp And Ballast Retrofit w 4 F32 28 watt Lamp, NBF BallastET4432NLB428NET4432N101 B Work RoomLB428N26ET4332NLB328NP27Hall - 103-108104 Office101 B Work RoomET4432NLB428N27AHall - 103-108ET4332NExisting Troffer 4' w 3 F32 T8 32 watt Lamps, NBF BallastHall - 103-1082524Office next to 103A104 OfficeOffice next to 103AACExisting Troffer 4' w 4 F32 T8 32 watt Lamps, NBF Ballast Lamp And Ballast Retrofit w 4 F32 28 watt Lamp, NBF BallastExisting Troffer 4' w 4 F32 T8 32 watt Lamps, NBF Ballast Lamp And Ballast Retrofit w 4 F32 28 watt Lamp, NBF BallastExisting Troffer 4' w 3 F32 T8 32 watt Lamps, NBF BallastLamp and Ballast Retro with 3L F32 T8 28 watt, PRS NBF BallastExisting Troffer 4' w 4 F32 T8 32 watt Lamps, NBF Ballast Lamp And Ballast Retrofit w 4 F32 28 watt Lamp, NBF Ballast(5) on emergency circuitThis information is proprietary, not to be disclosed to third parties without prior written permission from Northwest Edison.Energy Audit Calculation 4 of 38 2/2/2012 Energy AuditFacility ContactAuditor(s)Phone Ext. Audit DateBuilding ContactLast RevisedPhone Ext. Utility kWh Rate Demand RateTax RateFacility TypeHeatLamp ReplaceBallast ReplaceSecond Tier Start LevelGroupSpotECM #Fixture QtyLamp WattsFixture WattsFixture HeightHours/DayDays/WeekFCSensor QtySensor / Power PackEnergy SavedSensor HeightACAddressCity99709Sandra Edwards(206) 303-0121 10/30/11PCB / PercentGolden Valley Electric15.600¢West Valley High SchoolAlaskaFairbanks3800 Geist RoadProject NameZip Code4.00%Fairbanks North Star(425) 806-9200(425) 806-74550.0000Maint. RateExisting / Proposed Fixture DescriptionLocationStateCountyOffice Phone #Office Fax #2/2/12Sq. FeetSurvey NotesFixture ID$10.7919804 141st Place NE Woodinville, WA 98072Mike CampbellNWE Contact Phone(509) 775-8021*E420 20 24 7P420 20 24 7*E232 61 10.6 5P228 42 10.6 5*E1232 122 7.5 5 70-80P1228 94 7.5 5ECFL20ECFL20EW4232NE-1LB228L108 CRLB428NP2928Hall - 103-108E-1Hall - 103-10830108 CRET4432NExisting Wrap T8 4' w 2 F32 32 watt Lamp, NBF BallastLamp And Ballast Retrofit w 2 F32 28 watt Lamp, LBF BallastExisting Troffer 4' w 4 F32 T8 32 watt Lamps, NBF Ballast Lamp and Ballast Retro with 4L F32 T8 28 watt, PRS NBF BallastExisting 20 Watt CFL Recessed CanExisting 20 Watt CFL Recessed Can841AC, 841*E1132 122 8 5 80-90P1128 94 8 5*E132 122 24 7P128 96 24 7*E4100 100 10.6 5P48 8 10.6 5*E532 61 8 5P528 42 8 5*E132 61 8 5P128 42 8 5*E432 90 2 5 50P428 64 2 5*E120 32 90 7.5 5 55-65P120 28 73 7.5 531A106 NurseET4432NExisting Troffer 4' w 4 F32 T8 32 watt Lamps, NBF Ballast (1) on 24/7106 NurseLB428NLamp And Ballast Retrofit w 4 F32 28 watt Lamp, NBF BallastLamp and Ballast Retro with 3L F32 T8 28 watt, PRS NBF BallastReplace with 8 Watt A-19 Style LED LampExisting Wrap T8 4' w 2 F32 32 watt Lamp, NBF BallastLamp and Ballast Retro with 2L F32 T8 28 watt, PRS LBF BallastExisting Incandescent 100 watt Lamp106 Nurse8WLEDA19106 Nurse313332106 NurseEINC100EW4232N106 NurseLB228LP36Existing Troffer 4' w 3 F32 T8 32 watt Lamps, NBF BallastLibrary - MainET4332NLibrary - MainLB328NP105 Student Counsel StorageET4332N105 Student Counsel StorageLB328LLamp and Ballast Retro with 2L F32 T8 28 watt, PRS LBF Ballast35Existing Troffer 4' w 3 F32 T8 32 watt Lamps, NBF BallastLamp And Ballast Retrofit w 3 F32 28 watt Lamp, LBF Ballast34Existing Troffer T8 4' w 2 F32 32 watt Lamp, NBF Ballast106 NurseET4232N106 NurseLB228LPExisting Troffer 4' w 4 F32 T8 32 watt Lamps, NBF Ballast Lamp and Ballast Retro with 4L F32 T8 28 watt, PRS NBF Ballast106 NurseET4432N106 NurseLB428NPACACACACWarm whiteThis information is proprietary, not to be disclosed to third parties without prior written permission from Northwest Edison.Energy Audit Calculation 5 of 38 2/2/2012 Energy AuditFacility ContactAuditor(s)Phone Ext. Audit DateBuilding ContactLast RevisedPhone Ext. Utility kWh Rate Demand RateTax RateFacility TypeHeatLamp ReplaceBallast ReplaceSecond Tier Start LevelGroupSpotECM #Fixture QtyLamp WattsFixture WattsFixture HeightHours/DayDays/WeekFCSensor QtySensor / Power PackEnergy SavedSensor HeightACAddressCity99709Sandra Edwards(206) 303-0121 10/30/11PCB / PercentGolden Valley Electric15.600¢West Valley High SchoolAlaskaFairbanks3800 Geist RoadProject NameZip Code4.00%Fairbanks North Star(425) 806-9200(425) 806-74550.0000Maint. RateExisting / Proposed Fixture DescriptionLocationStateCountyOffice Phone #Office Fax #2/2/12Sq. FeetSurvey NotesFixture ID$10.7919804 141st Place NE Woodinville, WA 98072Mike CampbellNWE Contact Phone(509) 775-8021*E832 90 24 7P828 72 24 7*E3926 52 10 5P3926 52 10 5*E2432 32 10 5P2428 22 10 536ALibrary - MainET4332NExisting Troffer 4' w 3 F32 T8 32 watt Lamps, NBF Ballast(8) on 24/7Library - MainLB328NLamp And Ballast Retrofit w 3 F32 28 watt Lamp, NBF BallastLamp And Ballast Retrofit w 1 F32 28 watt Lamp, LBF Ballast38Existing Troffer T8 4' w 1 F32 32 watt Lamp, NBF BallastLibrary - MainET4132NLibrary - MainLB128L37Existing Fixture with 2 - 26 watt CFL LampsExisting Fixture with 2 - 26 watt CFL LampsLibrary - MainECFL226Library - MainECFL226Energy saver lampUplight in case*E126 52 2 5P126 52 2 5*E532 90 8 5 65P528 73 8 5*E132 90 24 7P128 72 24 7*E332 122 8 5 150P328 94 8 5*E132 122 24 7P128 96 24 7*E432 90 8 5P428 73 8 5*E632 90 8 5P628 73 8 5102HLB328NLamp And Ballast Retrofit w 3 F32 28 watt Lamp, NBF Ballast41A102GET4432NExisting Troffer 4' w 4 F32 T8 32 watt Lamps, NBF Ballast (1) on 24/7102GLB428NLamp And Ballast Retrofit w 4 F32 28 watt Lamp, NBF BallastACLamp and Ballast Retro with 3L F32 T8 28 watt, PRS NBF Ballast43Existing Troffer 4' w 3 F32 T8 32 watt Lamps, NBF BallastLamp and Ballast Retro with 3L F32 T8 28 watt, PRS NBF Ballast42Existing Troffer 4' w 3 F32 T8 32 watt Lamps, NBF Ballast102F CopyET4332N102F CopyLB328NP102E TechET4332N102E TechLB328NP39Existing Fixture with 2 - 26 watt CFL LampsExisting Fixture with 2 - 26 watt CFL LampsLamp and Ballast Retro with 3L F32 T8 28 watt, PRS NBF Ballast41Existing Troffer 4' w 4 F32 T8 32 watt Lamps, NBF Ballast Lamp and Ballast Retro with 4L F32 T8 28 watt, PRS NBF Ballast40Existing Troffer 4' w 3 F32 T8 32 watt Lamps, NBF Ballast102HET4332N102HLB328NPCloset in CornerECFL226Closet in CornerECFL226102GET4432N102GLB428NP40A102HET4332NExisting Troffer 4' w 3 F32 T8 32 watt Lamps, NBF BallastACEnergy saver lampAC(1) on 24/7ACThis information is proprietary, not to be disclosed to third parties without prior written permission from Northwest Edison.Energy Audit Calculation 6 of 38 2/2/2012 Energy AuditFacility ContactAuditor(s)Phone Ext. Audit DateBuilding ContactLast RevisedPhone Ext. Utility kWh Rate Demand RateTax RateFacility TypeHeatLamp ReplaceBallast ReplaceSecond Tier Start LevelGroupSpotECM #Fixture QtyLamp WattsFixture WattsFixture HeightHours/DayDays/WeekFCSensor QtySensor / Power PackEnergy SavedSensor HeightACAddressCity99709Sandra Edwards(206) 303-0121 10/30/11PCB / PercentGolden Valley Electric15.600¢West Valley High SchoolAlaskaFairbanks3800 Geist RoadProject NameZip Code4.00%Fairbanks North Star(425) 806-9200(425) 806-74550.0000Maint. RateExisting / Proposed Fixture DescriptionLocationStateCountyOffice Phone #Office Fax #2/2/12Sq. FeetSurvey NotesFixture ID$10.7919804 141st Place NE Woodinville, WA 98072Mike CampbellNWE Contact Phone(509) 775-8021*E1232 90 2 5P1228 73 2 5*E632 122 8 5P628 94 8 5*E132 61 2 5P128 42 2 5ACLamp And Ballast Retrofit w 2 F32 28 watt Lamp, LBF Ballast46Existing Wrap T8 4' w 2 F32 32 watt Lamp, NBF BallastM-Z EquipmentEW4232NM-Z EquipmentLB228LLamp and Ballast Retro with 3L F32 T8 28 watt, PRS NBF Ballast45Existing Troffer 4' w 4 F32 T8 32 watt Lamps, NBF Ballast Lamp and Ballast Retro with 4L F32 T8 28 watt, PRS NBF Ballast44Existing Troffer 4' w 3 F32 T8 32 watt Lamps, NBF Ballast102D Storage - FilesET4332N102D Storage - FilesLB328NP102C Work RoomET4432N102C Work RoomLB428NPAC*E1132 90 8 5P1128 73 8 5*E232 90 8 5P228 73 8 5*E132 90 24 7P128 72 24 7*E932 90 18 7P928 73 18 7*E532 90 24 7P528 72 24 7*E490 90 24 7P488 247*E1132 122 7.5 5 75-80P1128 94 7.5 549AHall to 109-112ET4332NExisting Troffer 4' w 3 F32 T8 32 watt Lamps, NBF Ballast(5) on 24/7Hall to 109-112LB328NLamp And Ballast Retrofit w 3 F32 28 watt Lamp, NBF BallastReplace with 8 Watt A-19 Style LED LampLB428NPLamp and Ballast Retro with 4L F32 T8 28 watt, PRS NBF Ballast48ABroadcasting RoomET4332NExisting Troffer 4' w 3 F32 T8 32 watt Lamps, NBF Ballast(1) on 24/7Broadcasting RoomLB328NLamp And Ballast Retrofit w 3 F32 28 watt Lamp, NBF BallastACAC50Existing Incandescent 90 watt LampHall to 109-112EINC90Hall to 109-1128WLEDA1950A110 CRET4432NExisting Troffer 4' w 4 F32 T8 32 watt Lamps, NBF Ballast 110 CR47Existing Troffer 4' w 3 F32 T8 32 watt Lamps, NBF BallastLamp and Ballast Retro with 3L F32 T8 28 watt, PRS NBF BallastLamp and Ballast Retro with 3L F32 T8 28 watt, PRS NBF Ballast49Existing Troffer 4' w 3 F32 T8 32 watt Lamps, NBF BallastLamp and Ballast Retro with 3L F32 T8 28 watt, PRS NBF Ballast48Existing Troffer 4' w 3 F32 T8 32 watt Lamps, NBF BallastBroadcasting RoomET4332NBroadcasting RoomLB328NP102B CPU LabET4332N102B CPU LabLB328NPHall to 109-112ET4332NHall to 109-112LB328NPACWarm whiteACThis information is proprietary, not to be disclosed to third parties without prior written permission from Northwest Edison.Energy Audit Calculation 7 of 38 2/2/2012 Energy AuditFacility ContactAuditor(s)Phone Ext. Audit DateBuilding ContactLast RevisedPhone Ext. Utility kWh Rate Demand RateTax RateFacility TypeHeatLamp ReplaceBallast ReplaceSecond Tier Start LevelGroupSpotECM #Fixture QtyLamp WattsFixture WattsFixture HeightHours/DayDays/WeekFCSensor QtySensor / Power PackEnergy SavedSensor HeightACAddressCity99709Sandra Edwards(206) 303-0121 10/30/11PCB / PercentGolden Valley Electric15.600¢West Valley High SchoolAlaskaFairbanks3800 Geist RoadProject NameZip Code4.00%Fairbanks North Star(425) 806-9200(425) 806-74550.0000Maint. RateExisting / Proposed Fixture DescriptionLocationStateCountyOffice Phone #Office Fax #2/2/12Sq. FeetSurvey NotesFixture ID$10.7919804 141st Place NE Woodinville, WA 98072Mike CampbellNWE Contact Phone(509) 775-8021*E132 122 24 7P128 96 24 7*E1832 122 10 5 80-95P1828 96 10 5*E232 61 10 5P228 42 10 550B110 CRET4432NExisting Troffer 4' w 4 F32 T8 32 watt Lamps, NBF Ballast (1) on 24/7110 CRLB428NLamp And Ballast Retrofit w 4 F32 28 watt Lamp, NBF Ballast51Existing Troffer 4' w 4 F32 T8 32 watt Lamps, NBF Ballast Lamp And Ballast Retrofit w 4 F32 28 watt Lamp, NBF BallastLamp And Ballast Retrofit w 2 F32 28 watt Lamp, LBF Ballast52Existing Wrap T8 4' w 2 F32 32 watt Lamp, NBF Ballast112 AEW4232N112 ALB228L112 CRET4432N112 CRLB428N*E832 122 7.5 5 85P828 94 7.5 5*E132 122 24 7P128 96 24 7*E1432 90 7.5 5P1428 73 7.5 5*E132 90 24 7P128 72 24 7*E126 52 10 5P126 52 10 5*E332 122 8 5P328 94 8 5*E132 122 24 7P128 96 24 7LB428NLamp And Ballast Retrofit w 4 F32 28 watt Lamp, NBF Ballast53AC III Counseling - MainET4432NExisting Troffer 4' w 4 F32 T8 32 watt Lamps, NBF Ballast (1) on 24/7C III Counseling - MainLB428NLamp And Ballast Retrofit w 4 F32 28 watt Lamp, NBF Ballast54AC III Counseling - MainET4332NExisting Troffer 4' w 3 F32 T8 32 watt Lamps, NBF Ballast(1) on 24/7C III Counseling - MainLB328NLamp And Ballast Retrofit w 3 F32 28 watt Lamp, NBF BallastLamp and Ballast Retro with 3L F32 T8 28 watt, PRS NBF Ballast55Existing Fixture with 2 - 26 watt CFL LampsExisting Fixture with 2 - 26 watt CFL Lamps54Existing Troffer 4' w 3 F32 T8 32 watt Lamps, NBF BallastC III Counseling - MainET4332NC III Counseling - MainLB328NPLamp and Ballast Retro with 4L F32 T8 28 watt, PRS NBF Ballast56Existing Troffer 4' w 4 F32 T8 32 watt Lamps, NBF Ballast III - IET4432NIII - ILB428NPC III Counseling - MainECFL226C III Counseling - MainECFL22656AIII - IET4432NExisting Troffer 4' w 4 F32 T8 32 watt Lamps, NBF Ballast III - I53Existing Troffer 4' w 4 F32 T8 32 watt Lamps, NBF Ballast Lamp and Ballast Retro with 4L F32 T8 28 watt, PRS NBF BallastC III Counseling - MainET4432NC III Counseling - MainLB428NPACACACEnergy saver lamp(1) on 24/7This information is proprietary, not to be disclosed to third parties without prior written permission from Northwest Edison.Energy Audit Calculation 8 of 38 2/2/2012 Energy AuditFacility ContactAuditor(s)Phone Ext. Audit DateBuilding ContactLast RevisedPhone Ext. Utility kWh Rate Demand RateTax RateFacility TypeHeatLamp ReplaceBallast ReplaceSecond Tier Start LevelGroupSpotECM #Fixture QtyLamp WattsFixture WattsFixture HeightHours/DayDays/WeekFCSensor QtySensor / Power PackEnergy SavedSensor HeightACAddressCity99709Sandra Edwards(206) 303-0121 10/30/11PCB / PercentGolden Valley Electric15.600¢West Valley High SchoolAlaskaFairbanks3800 Geist RoadProject NameZip Code4.00%Fairbanks North Star(425) 806-9200(425) 806-74550.0000Maint. RateExisting / Proposed Fixture DescriptionLocationStateCountyOffice Phone #Office Fax #2/2/12Sq. FeetSurvey NotesFixture ID$10.7919804 141st Place NE Woodinville, WA 98072Mike CampbellNWE Contact Phone(509) 775-8021*E332 122 8 5P328 94 8 5*E132 122 24 7P128 96 24 7*E232 122 8 5P228 94 8 557AIII - HET4432NExisting Troffer 4' w 4 F32 T8 32 watt Lamps, NBF Ballast (1) on 24/7III - HLB428NLamp And Ballast Retrofit w 4 F32 28 watt Lamp, NBF BallastLamp and Ballast Retro with 4L F32 T8 28 watt, PRS NBF Ballast58Existing Troffer 4' w 4 F32 T8 32 watt Lamps, NBF Ballast III - GET4432NIII - GLB428NP57Existing Troffer 4' w 4 F32 T8 32 watt Lamps, NBF Ballast Lamp and Ballast Retro with 4L F32 T8 28 watt, PRS NBF BallastIII - HET4432NIII - HLB428NPACAC*E132 122 24 7P128 96 24 7*E232 122 8 5P228 94 8 5*E132 122 24 7P128 96 24 7*E332 122 8 5P328 94 8 5*E132 122 24 7P128 96 24 7*E432 122 8 5P428 94 8 5*E532 122 8 5P528 94 8 5III - FLB428NLamp And Ballast Retrofit w 4 F32 28 watt Lamp, NBF Ballast60AIII - EET4432NExisting Troffer 4' w 4 F32 T8 32 watt Lamps, NBF Ballast (1) on 24/7III - ELB428NLamp And Ballast Retrofit w 4 F32 28 watt Lamp, NBF Ballast58AIII - GET4432NExisting Troffer 4' w 4 F32 T8 32 watt Lamps, NBF Ballast (1) on 24/7III - GLB428NLamp And Ballast Retrofit w 4 F32 28 watt Lamp, NBF BallastLamp and Ballast Retro with 4L F32 T8 28 watt, PRS NBF Ballast62Existing Troffer 4' w 4 F32 T8 32 watt Lamps, NBF Ballast III - JET4432NIII - JLB428NP59Existing Troffer 4' w 4 F32 T8 32 watt Lamps, NBF Ballast Lamp and Ballast Retro with 4L F32 T8 28 watt, PRS NBF BallastLamp and Ballast Retro with 4L F32 T8 28 watt, PRS NBF Ballast61Existing Troffer 4' w 4 F32 T8 32 watt Lamps, NBF Ballast Lamp and Ballast Retro with 4L F32 T8 28 watt, PRS NBF Ballast60Existing Troffer 4' w 4 F32 T8 32 watt Lamps, NBF Ballast III - EET4432NIII - ELB428NPIII - FET4432NIII - FLB428NPIII - DET4432NIII - DLB428NP59AIII - FET4432NExisting Troffer 4' w 4 F32 T8 32 watt Lamps, NBF Ballast ACACACAC(1) on 24/7This information is proprietary, not to be disclosed to third parties without prior written permission from Northwest Edison.Energy Audit Calculation 9 of 38 2/2/2012 Energy AuditFacility ContactAuditor(s)Phone Ext. Audit DateBuilding ContactLast RevisedPhone Ext. Utility kWh Rate Demand RateTax RateFacility TypeHeatLamp ReplaceBallast ReplaceSecond Tier Start LevelGroupSpotECM #Fixture QtyLamp WattsFixture WattsFixture HeightHours/DayDays/WeekFCSensor QtySensor / Power PackEnergy SavedSensor HeightACAddressCity99709Sandra Edwards(206) 303-0121 10/30/11PCB / PercentGolden Valley Electric15.600¢West Valley High SchoolAlaskaFairbanks3800 Geist RoadProject NameZip Code4.00%Fairbanks North Star(425) 806-9200(425) 806-74550.0000Maint. RateExisting / Proposed Fixture DescriptionLocationStateCountyOffice Phone #Office Fax #2/2/12Sq. FeetSurvey NotesFixture ID$10.7919804 141st Place NE Woodinville, WA 98072Mike CampbellNWE Contact Phone(509) 775-8021*E132 122 24 7P128 96 24 7*E532 122 8 5P528 94 8 5*E132 122 24 7P128 96 24 7109LB428NLamp And Ballast Retrofit w 4 F32 28 watt Lamp, NBF Ballast62AIII - JET4432NExisting Troffer 4' w 4 F32 T8 32 watt Lamps, NBF Ballast (1) on 24/7III - JLB428NLamp And Ballast Retrofit w 4 F32 28 watt Lamp, NBF Ballast63Existing Troffer 4' w 4 F32 T8 32 watt Lamps, NBF Ballast Lamp and Ballast Retro with 4L F32 T8 28 watt, PRS NBF Ballast109ET4432N109LB428NP63A109ET4432NExisting Troffer 4' w 4 F32 T8 32 watt Lamps, NBF Ballast AC(1) on 24/7*E832 61 12.75 5 30P828 42 12.75 5*E732 61 12.75 5P728 42 12.75 5*E132 32 2 5 30P128 96 2 5*E232 61 2 5P228 42 2 5*E1432 90 7.5 5 70P1428 73 7.5 5*E850 50 10 5P888 105*E232 32 2 5P228 22 2 5Lamp And Ballast Retrofit w 1 F32 28 watt Lamp, LBF Ballast70Existing Strip T8 4' w 1 F32 32 watt Lamp, NBF Ballast M3 EquipmentES4132NM3 EquipmentLB128LLamp And Ballast Retrofit w 4 F32 28 watt Lamp, NBF Ballast67Existing Wrap T8 4' w 2 F32 32 watt Lamp, NBF BallastLamp And Ballast Retrofit w 2 F32 28 watt Lamp, LBF Ballast66Existing Strip T8 4' w 1 F32 32 watt Lamp, NBF Ballast High VoltageES4132NHigh VoltageLB428NLamp and Ballast Retro with 3L F32 T8 28 watt, PRS NBF Ballast69Existing Incandescent 50 watt LampReplace with 8 Watt Par 20 LED Lamp68Existing Troffer 4' w 3 F32 T8 32 watt Lamps, NBF Ballast113 CRET4332N113 CRLB328NPAcross from High Voltage JCEW4232NAcross from High Voltage JCLB228L113 CREINC50113 CR8WLEDP20Lamp and Ballast Retro with 2L F32 T8 28 watt, PRS LBF Ballast65Existing Wrap T8 4' w 2 F32 32 watt Lamp, NBF BallastLamp and Ballast Retro with 2L F32 T8 28 watt, PRS LBF Ballast64Existing Wrap T8 4' w 2 F32 32 watt Lamp, NBF BallastM1 - 1 Mens RestroomEW4232NM1 - 1 Mens RestroomLB228LPW1 - 1 Womens RestroomEW4232NW1 - 1 Womens RestroomLB228LPWarm whiteACACACThis information is proprietary, not to be disclosed to third parties without prior written permission from Northwest Edison.Energy Audit Calculation 10 of 38 2/2/2012 Energy AuditFacility ContactAuditor(s)Phone Ext. Audit DateBuilding ContactLast RevisedPhone Ext. Utility kWh Rate Demand RateTax RateFacility TypeHeatLamp ReplaceBallast ReplaceSecond Tier Start LevelGroupSpotECM #Fixture QtyLamp WattsFixture WattsFixture HeightHours/DayDays/WeekFCSensor QtySensor / Power PackEnergy SavedSensor HeightACAddressCity99709Sandra Edwards(206) 303-0121 10/30/11PCB / PercentGolden Valley Electric15.600¢West Valley High SchoolAlaskaFairbanks3800 Geist RoadProject NameZip Code4.00%Fairbanks North Star(425) 806-9200(425) 806-74550.0000Maint. RateExisting / Proposed Fixture DescriptionLocationStateCountyOffice Phone #Office Fax #2/2/12Sq. FeetSurvey NotesFixture ID$10.7919804 141st Place NE Woodinville, WA 98072Mike CampbellNWE Contact Phone(509) 775-8021*E632 61 24 7P628 96 24 7*E632 122 7.5 5 110P628 94 7.5 5*E832 32 24 7 45-55P828 22 24 771Existing Troffer T8 4' w 2 F32 32 watt Lamp, NBF BallastLamp And Ballast Retrofit w 4 F32 28 watt Lamp, NBF BallastLamp and Ballast Retro with 4L F32 T8 28 watt, PRS NBF Ballast73Existing Troffer T8 4' w 1 F32 32 watt Lamp, NBF BallastLamp And Ballast Retrofit w 1 F32 28 watt Lamp, LBF Ballast72Existing Troffer 4' w 4 F32 T8 32 watt Lamps, NBF Ballast 114 CRET4432N114 CRLB428NPEntry Opposite Where We EndedET4232NEntry Opposite Where We EndedLB428NHall for 115-139ET4132NHall for 115-139LB128LAll 24/7ACExisting cove light, 841*E108 32 90 18 7P108 28 73 18 7*E3232 90 24 7P3228 72 24 7*E632 122 7.5 5P628 94 7.5 5*E1932 122 7.5 5P1928 94 7.5 5*E432 90 18 7P428 72 18 7*E232 90 24 7P228 72 24 7*E432 32 18 7P428 22 18 7Lamp And Ballast Retrofit w 1 F32 28 watt Lamp, LBF Ballast78Existing Strip T8 4' w 1 F32 32 watt Lamp, NBF Ballast Hall to 120ES4132NHall to 120LB128LLamp and Ballast Retro with 3L F32 T8 28 watt, PRS NBF Ballast75Existing Troffer 4' w 4 F32 T8 32 watt Lamps, NBF Ballast Lamp and Ballast Retro with 4L F32 T8 28 watt, PRS NBF Ballast74Existing Troffer 4' w 3 F32 T8 32 watt Lamps, NBF BallastHall for 115-139ET4332NHall for 115-139LB328NPLamp and Ballast Retro with 4L F32 T8 28 watt, PRS NBF Ballast77Existing Troffer 4' w 3 F32 T8 32 watt Lamps, NBF BallastLamp And Ballast Retrofit w 3 F32 28 watt Lamp, NBF Ballast76Existing Troffer 4' w 4 F32 T8 32 watt Lamps, NBF Ballast 116 CRET4432N116 CRLB428NP115 CRET4432N115 CRLB428NPHall to 120ET4332NHall to 120LB328NACACIn display74AHall for 115-139ET4332NExisting Troffer 4' w 3 F32 T8 32 watt Lamps, NBF Ballast(32) on 24/7Hall for 115-139LB328NLamp And Ballast Retrofit w 3 F32 28 watt Lamp, NBF BallastAC77AHall to 120ET4332NExisting Troffer 4' w 3 F32 T8 32 watt Lamps, NBF Ballast(2) on 24/7Hall to 120LB328NLamp And Ballast Retrofit w 3 F32 28 watt Lamp, NBF BallastThis information is proprietary, not to be disclosed to third parties without prior written permission from Northwest Edison.Energy Audit Calculation 11 of 38 2/2/2012 Energy AuditFacility ContactAuditor(s)Phone Ext. Audit DateBuilding ContactLast RevisedPhone Ext. Utility kWh Rate Demand RateTax RateFacility TypeHeatLamp ReplaceBallast ReplaceSecond Tier Start LevelGroupSpotECM #Fixture QtyLamp WattsFixture WattsFixture HeightHours/DayDays/WeekFCSensor QtySensor / Power PackEnergy SavedSensor HeightACAddressCity99709Sandra Edwards(206) 303-0121 10/30/11PCB / PercentGolden Valley Electric15.600¢West Valley High SchoolAlaskaFairbanks3800 Geist RoadProject NameZip Code4.00%Fairbanks North Star(425) 806-9200(425) 806-74550.0000Maint. RateExisting / Proposed Fixture DescriptionLocationStateCountyOffice Phone #Office Fax #2/2/12Sq. FeetSurvey NotesFixture ID$10.7919804 141st Place NE Woodinville, WA 98072Mike CampbellNWE Contact Phone(509) 775-8021*E2732 122 7.5 5P2728 65 7.5 5*E232 90 24 7P228 64 24 7*E632 90 2 5 45P628 73 2 579Existing Troffer 4' w 4 F32 T8 32 watt Lamps, NBF Ballast Troffer Kit with Reflector 4' 2L F32 T8 28 watt, PRS HBF BallastLamp And Ballast Retrofit w 3 F32 28 watt Lamp, LBF Ballast81Existing Troffer 4' w 3 F32 T8 32 watt Lamps, NBF BallastLamp and Ballast Retro with 3L F32 T8 28 watt, PRS NBF Ballast80Existing Troffer 4' w 3 F32 T8 32 watt Lamps, NBF BallastShort Hall to 119 StorageET4332NShort Hall to 119 StorageLB328L117 CRET4432N117 CRTK4228HP119 StorageET4332N119 StorageLB328NPACAC*E2932 122 7.5 5P2928 94 7.5 5*E632 32 7.5 5P628 22 7.5 5*E2732 122 7.5 5P2728 94 7.5 5*E532 32 7.5 5P528 22 7.5 5*E332 90 7.5 5P328 73 7.5 5*E1532 90 7.5 5 65P1528 73 7.5 5*E1532 90 7.5 5P1528 73 7.5 5Lamp and Ballast Retro with 3L F32 T8 28 watt, PRS NBF Ballast87Existing Troffer 4' w 3 F32 T8 32 watt Lamps, NBF BallastLamp and Ballast Retro with 3L F32 T8 28 watt, PRS NBF Ballast86Existing Troffer 4' w 3 F32 T8 32 watt Lamps, NBF Ballast118 CR ET4332N118 CR LB328NPLamp and Ballast Retro with 3L F32 T8 28 watt, PRS NBF Ballast88Existing Troffer 4' w 3 F32 T8 32 watt Lamps, NBF Ballast122 CRET4332N122 CRLB328NP121 CRET4332N121 CRLB328NPLamp and Ballast Retro with 4L F32 T8 28 watt, PRS NBF Ballast83Existing Strip T8 4' w 1 F32 32 watt Lamp, NBF Ballast Lamp and Ballast Retro with 1L F32 T8 28 watt, PRS LBF Ballast82Existing Troffer 4' w 4 F32 T8 32 watt Lamps, NBF Ballast 120 CRET4432N120 CRLB428NPLamp and Ballast Retro with 4L F32 T8 28 watt, PRS NBF Ballast85Existing Strip T8 4' w 1 F32 32 watt Lamp, NBF Ballast Lamp and Ballast Retro with 1L F32 T8 28 watt, PRS LBF Ballast84Existing Troffer 4' w 4 F32 T8 32 watt Lamps, NBF Ballast 118 CR ET4432N118 CR LB428NP120 CRES4132N120 CRLB128LP118 CR ES4132N118 CR LB128LPACACACACACAC, In cove up lightACThis information is proprietary, not to be disclosed to third parties without prior written permission from Northwest Edison.Energy Audit Calculation 12 of 38 2/2/2012 Energy AuditFacility ContactAuditor(s)Phone Ext. Audit DateBuilding ContactLast RevisedPhone Ext. Utility kWh Rate Demand RateTax RateFacility TypeHeatLamp ReplaceBallast ReplaceSecond Tier Start LevelGroupSpotECM #Fixture QtyLamp WattsFixture WattsFixture HeightHours/DayDays/WeekFCSensor QtySensor / Power PackEnergy SavedSensor HeightACAddressCity99709Sandra Edwards(206) 303-0121 10/30/11PCB / PercentGolden Valley Electric15.600¢West Valley High SchoolAlaskaFairbanks3800 Geist RoadProject NameZip Code4.00%Fairbanks North Star(425) 806-9200(425) 806-74550.0000Maint. RateExisting / Proposed Fixture DescriptionLocationStateCountyOffice Phone #Office Fax #2/2/12Sq. FeetSurvey NotesFixture ID$10.7919804 141st Place NE Woodinville, WA 98072Mike CampbellNWE Contact Phone(509) 775-8021*E1532 90 7.5 5P1528 73 7.5 5*E332 122 2 5P328 96 2 5*E1532 90 7.5 5P1528 73 7.5 5Lamp And Ballast Retrofit w 4 F32 28 watt Lamp, NBF Ballast91Existing Troffer 4' w 3 F32 T8 32 watt Lamps, NBF BallastLamp and Ballast Retro with 3L F32 T8 28 watt, PRS NBF Ballast90Existing Troffer 4' w 4 F32 T8 32 watt Lamps, NBF Ballast 124 StorageET4432N124 StorageLB428N125 CRET4332N125 CRLB328NP89Existing Troffer 4' w 3 F32 T8 32 watt Lamps, NBF BallastLamp and Ballast Retro with 3L F32 T8 28 watt, PRS NBF Ballast123 CRET4332N123 CRLB328NPAC841AC*E1532 90 7.5 5P1528 73 7.5 5*E1532 90 7.5 5P1528 73 7.5 5*E1532 90 7.5 5P1528 73 7.5 5*E332 61 2 5P328 42 2 5*E1532 90 7.5 5P1528 73 7.5 5*E1532 90 7.5 5P1528 73 7.5 5*E1532 90 7.5 5P1528 73 7.5 5Lamp and Ballast Retro with 3L F32 T8 28 watt, PRS NBF Ballast98Existing Troffer 4' w 3 F32 T8 32 watt Lamps, NBF Ballast131 CRET4332N131 CRLB328NPLamp and Ballast Retro with 3L F32 T8 28 watt, PRS NBF Ballast95Existing Wrap T8 4' w 2 F32 32 watt Lamp, NBF BallastLamp And Ballast Retrofit w 2 F32 28 watt Lamp, LBF Ballast94Existing Troffer 4' w 3 F32 T8 32 watt Lamps, NBF Ballast128 CRET4332N128 CRLB328NPLamp and Ballast Retro with 3L F32 T8 28 watt, PRS NBF Ballast97Existing Troffer 4' w 3 F32 T8 32 watt Lamps, NBF BallastLamp and Ballast Retro with 3L F32 T8 28 watt, PRS NBF Ballast96Existing Troffer 4' w 3 F32 T8 32 watt Lamps, NBF Ballast129 CRET4332N129 CRLB328NPS 6A StorageEW4232NS 6A StorageLB228L130 CRET4332N130 CRLB328NPLamp and Ballast Retro with 3L F32 T8 28 watt, PRS NBF Ballast93Existing Troffer 4' w 3 F32 T8 32 watt Lamps, NBF BallastLamp and Ballast Retro with 3L F32 T8 28 watt, PRS NBF Ballast92Existing Troffer 4' w 3 F32 T8 32 watt Lamps, NBF Ballast126 CRET4332N126 CRLB328NP127 CRET4332N127 CRLB328NPACACACACACACThis information is proprietary, not to be disclosed to third parties without prior written permission from Northwest Edison.Energy Audit Calculation 13 of 38 2/2/2012 Energy AuditFacility ContactAuditor(s)Phone Ext. Audit DateBuilding ContactLast RevisedPhone Ext. Utility kWh Rate Demand RateTax RateFacility TypeHeatLamp ReplaceBallast ReplaceSecond Tier Start LevelGroupSpotECM #Fixture QtyLamp WattsFixture WattsFixture HeightHours/DayDays/WeekFCSensor QtySensor / Power PackEnergy SavedSensor HeightACAddressCity99709Sandra Edwards(206) 303-0121 10/30/11PCB / PercentGolden Valley Electric15.600¢West Valley High SchoolAlaskaFairbanks3800 Geist RoadProject NameZip Code4.00%Fairbanks North Star(425) 806-9200(425) 806-74550.0000Maint. RateExisting / Proposed Fixture DescriptionLocationStateCountyOffice Phone #Office Fax #2/2/12Sq. FeetSurvey NotesFixture ID$10.7919804 141st Place NE Woodinville, WA 98072Mike CampbellNWE Contact Phone(509) 775-8021*E332 61 2 5P328 42 2 5*E1232 90 7.5 5P1228 73 7.5 5*E1532 90 7.5 5P1528 73 7.5 599Existing Wrap T8 4' w 2 F32 32 watt Lamp, NBF BallastLamp And Ballast Retrofit w 2 F32 28 watt Lamp, LBF BallastLamp and Ballast Retro with 3L F32 T8 28 watt, PRS NBF Ballast101Existing Troffer 4' w 3 F32 T8 32 watt Lamps, NBF BallastLamp and Ballast Retro with 3L F32 T8 28 watt, PRS NBF Ballast100Existing Troffer 4' w 3 F32 T8 32 watt Lamps, NBF Ballast137 CRET4332N137 CRLB328NPS 5A StorageEW4232NS 5A StorageLB228L136 CRET4332N136 CRLB328NPACAC*E1532 90 7.5 5P1528 73 7.5 5*E132 61 10.6 5P128 42 10.6 5*E432 61 2 5P428 42 2 5*E132 61 2 5P128 42 2 5*E1532 90 7.5 5P1528 73 7.5 5*E1132 183 10 5P2228 72 10 5*E132 90 10 5P128 72 10 5Lamp and Ballast Retro with 3L F32 T8 28 watt, PRS NBF Ballast107Existing Strip T8 8' w 6 F32 32 watt Lamp, NBF Ballast Lamp And Ballast Retrofit w 3 F32 28 watt Lamp, NBF Ballast106Existing Troffer 4' w 3 F32 T8 32 watt Lamps, NBF Ballast132 CRET4332N132 CRLB328NPLamp And Ballast Retrofit w 3 F32 28 watt Lamp, NBF Ballast108Existing Strip T8 4' w 3 F32 32 watt Lamp, NBF Ballast 133 CRES4332N133 CRLB328N133 CRES8632N133 CRLB328NLamp and Ballast Retro with 3L F32 T8 28 watt, PRS NBF Ballast103Existing Strip T8 4' w 2 F32 32 watt Lamp, NBF Ballast Lamp And Ballast Retrofit w 2 F32 28 watt Lamp, LBF Ballast102Existing Troffer 4' w 3 F32 T8 32 watt Lamps, NBF Ballast135 CRET4332N135 CRLB328NPLamp And Ballast Retrofit w 2 F32 28 watt Lamp, LBF Ballast105Existing Wrap T8 4' w 2 F32 32 watt Lamp, NBF BallastLamp And Ballast Retrofit w 2 F32 28 watt Lamp, LBF Ballast104Existing Strip T8 4' w 2 F32 32 watt Lamp, NBF Ballast E-4 ElectricalES4232NE-4 ElectricalLB228L134 Work RoomES4232N134 Work RoomLB228LJ4 CustodialEW4232NJ4 CustodialLB228LACindirect, 841indirect, 841ACThis information is proprietary, not to be disclosed to third parties without prior written permission from Northwest Edison.Energy Audit Calculation 14 of 38 2/2/2012 Energy AuditFacility ContactAuditor(s)Phone Ext. Audit DateBuilding ContactLast RevisedPhone Ext. Utility kWh Rate Demand RateTax RateFacility TypeHeatLamp ReplaceBallast ReplaceSecond Tier Start LevelGroupSpotECM #Fixture QtyLamp WattsFixture WattsFixture HeightHours/DayDays/WeekFCSensor QtySensor / Power PackEnergy SavedSensor HeightACAddressCity99709Sandra Edwards(206) 303-0121 10/30/11PCB / PercentGolden Valley Electric15.600¢West Valley High SchoolAlaskaFairbanks3800 Geist RoadProject NameZip Code4.00%Fairbanks North Star(425) 806-9200(425) 806-74550.0000Maint. RateExisting / Proposed Fixture DescriptionLocationStateCountyOffice Phone #Office Fax #2/2/12Sq. FeetSurvey NotesFixture ID$10.7919804 141st Place NE Woodinville, WA 98072Mike CampbellNWE Contact Phone(509) 775-8021*E332 61 2 5P328 42 2 5*E132 61 24 7P128 42 24 7*E532 61 12.75 5P528 42 12.75 5Lamp And Ballast Retrofit w 2 F32 28 watt Lamp, LBF Ballast111Existing Wrap T8 4' w 2 F32 32 watt Lamp, NBF BallastLamp and Ballast Retro with 2L F32 T8 28 watt, PRS LBF Ballast110Existing Strip T8 4' w 2 F32 32 watt Lamp, NBF Ballast FL 2A ElevatorES4232NFL 2A ElevatorLB228LM1-2 Mens RestroomEW4232NM1-2 Mens RestroomLB228LP109Existing Wrap T8 4' w 2 F32 32 watt Lamp, NBF BallastLamp And Ballast Retrofit w 2 F32 28 watt Lamp, LBF Ballast133A StorageEW4232N133A StorageLB228LAlready controlled, retro w/PRS*E232 61 12.75 5P228 42 12.75 5*E132 61 2 5P128 42 2 5*E532 61 12.75 5P528 42 12.75 5*E332 61 12.75 5P328 42 12.75 5*E3032 160 7.5 5P3028 65 7.5 5*E832 90 7.5 5P828 48 7.5 5*E432 122 2 5P428 48 2 5Troffer Kit with Reflector 4' 2L F32 T8 28 watt, PRS NBF Ballast118Existing Troffer 4' w 4 F32 T8 32 watt Lamps, NBF Ballast 138B StorageET4432N138B StorageTK4228NPLamp and Ballast Retro with 2L F32 T8 28 watt, PRS LBF Ballast115Existing Strip T8 4' w 2 F32 32 watt Lamp, NBF Ballast Lamp and Ballast Retro with 2L F32 T8 28 watt, PRS LBF Ballast114Existing Wrap T8 4' w 2 F32 32 watt Lamp, NBF BallastW1-2 Womens RestroomEW4232NW1-2 Womens RestroomLB228LPTroffer Kit with Reflector 4' 2L F32 T8 28 watt, PRS HBF Ballast117Existing Troffer 4' w 3 F32 T8 32 watt Lamps, NBF BallastTroffer Kit with Reflector 4' 2L F32 T8 28 watt, PRS NBF Ballast116Existing Troffer T8 4' w 4 F32 32 watt Lamp, HBF Ballast138 CRET4432H138 CRTK4228HPW1-2 Womens RestroomES4232NW1-2 Womens RestroomLB228LP138A ET4332N138A TK4228NPLamp and Ballast Retro with 2L F32 T8 28 watt, PRS LBF Ballast113Existing Strip T8 4' w 2 F32 32 watt Lamp, NBF Ballast Lamp And Ballast Retrofit w 2 F32 28 watt Lamp, LBF Ballast112Existing Strip T8 4' w 2 F32 32 watt Lamp, NBF Ballast M1-2 Mens RestroomES4232NM1-2 Mens RestroomLB228LPM4 EquipmentES4232NM4 EquipmentLB228LACACExisting PRS, AC, 841ACACACThis information is proprietary, not to be disclosed to third parties without prior written permission from Northwest Edison.Energy Audit Calculation 15 of 38 2/2/2012 Energy AuditFacility ContactAuditor(s)Phone Ext. Audit DateBuilding ContactLast RevisedPhone Ext. Utility kWh Rate Demand RateTax RateFacility TypeHeatLamp ReplaceBallast ReplaceSecond Tier Start LevelGroupSpotECM #Fixture QtyLamp WattsFixture WattsFixture HeightHours/DayDays/WeekFCSensor QtySensor / Power PackEnergy SavedSensor HeightACAddressCity99709Sandra Edwards(206) 303-0121 10/30/11PCB / PercentGolden Valley Electric15.600¢West Valley High SchoolAlaskaFairbanks3800 Geist RoadProject NameZip Code4.00%Fairbanks North Star(425) 806-9200(425) 806-74550.0000Maint. RateExisting / Proposed Fixture DescriptionLocationStateCountyOffice Phone #Office Fax #2/2/12Sq. FeetSurvey NotesFixture ID$10.7919804 141st Place NE Woodinville, WA 98072Mike CampbellNWE Contact Phone(509) 775-8021*E832 90 7.5 5P828 48 7.5 5*E1232 122 7.5 5P1228 94 7.5 5*E632 61 2 5P628 42 2 5119Existing Troffer 4' w 3 F32 T8 32 watt Lamps, NBF BallastTroffer Kit with Reflector 4' 2L F32 T8 28 watt, PRS NBF BallastLamp and Ballast Retro with 4L F32 T8 28 watt, PRS NBF Ballast121Existing Strip T8 4' w 2 F32 32 watt Lamp, NBF Ballast Lamp And Ballast Retrofit w 2 F32 28 watt Lamp, LBF Ballast120Existing Troffer 4' w 4 F32 T8 32 watt Lamps, NBF Ballast 139 CRET4432N139 CRLB428NP138CET4332N138CTK4228NP141 Supply - Up Ramp & to LeftES4232N141 Supply - Up Ramp & to LeftLB228LACAC*E2232 90 2 5P2228 64 2 5*E232 61 2 5P228 48 2 5*E432 90 2 5P428 42 2 5*E132 61 12.75 5P128 42 12.75 5*E132 61 12.75 5P128 42 12.75 5*E432 61 2 5P428 42 2 5*E1232 183 7.5 5P2428 73 7.5 5Lamp and Ballast Retro with 2L F32 T8 28 watt, PRS LBF Ballast127Existing Troffer T8 4' w 2 F32 32 watt Lamp, NBF BallastLamp and Ballast Retro with 2L F32 T8 28 watt, PRS LBF Ballast126Existing Troffer T8 4' w 2 F32 32 watt Lamp, NBF BallastFT-3 Staff RestroomET4232NFT-3 Staff RestroomLB228LPLamp and Ballast Retro with 3L F32 T8 28 watt, PRS NBF Ballast128Existing Strip T8 8' w 6 F32 32 watt Lamp, NBF Ballast 144 CRES8632N144 CRLB328NP145 StorageET4232N145 StorageLB228LPLamp And Ballast Retrofit w 3 F32 28 watt Lamp, LBF Ballast123Existing Troffer T8 4' w 2 F32 32 watt Lamp, NBF BallastLamp and Ballast Retro with 2L F32 T8 28 watt, PRS NBF Ballast122Existing Strip T8 4' w 3 F32 32 watt Lamp, NBF Ballast M1 Boiler Area thru Double DoorsES4332NM1 Boiler Area thru Double DoorsLB328LLamp and Ballast Retro with 2L F32 T8 28 watt, PRS LBF Ballast125Existing Wrap T8 4' w 2 F32 32 watt Lamp, NBF BallastLamp and Ballast Retro with 2L F32 T8 28 watt, PRS LBF Ballast124Existing Troffer 4' w 3 F32 T8 32 watt Lamps, NBF Ballast146 CustodialET4332N146 CustodialLB228LPBack thru - 147A - J6ET4232NBack thru - 147A - J6LB228NPFT-4 Staff RestroomEW4232NFT-4 Staff RestroomLB228LPACACACACACACThis information is proprietary, not to be disclosed to third parties without prior written permission from Northwest Edison.Energy Audit Calculation 16 of 38 2/2/2012 Energy AuditFacility ContactAuditor(s)Phone Ext. Audit DateBuilding ContactLast RevisedPhone Ext. Utility kWh Rate Demand RateTax RateFacility TypeHeatLamp ReplaceBallast ReplaceSecond Tier Start LevelGroupSpotECM #Fixture QtyLamp WattsFixture WattsFixture HeightHours/DayDays/WeekFCSensor QtySensor / Power PackEnergy SavedSensor HeightACAddressCity99709Sandra Edwards(206) 303-0121 10/30/11PCB / PercentGolden Valley Electric15.600¢West Valley High SchoolAlaskaFairbanks3800 Geist RoadProject NameZip Code4.00%Fairbanks North Star(425) 806-9200(425) 806-74550.0000Maint. RateExisting / Proposed Fixture DescriptionLocationStateCountyOffice Phone #Office Fax #2/2/12Sq. FeetSurvey NotesFixture ID$10.7919804 141st Place NE Woodinville, WA 98072Mike CampbellNWE Contact Phone(509) 775-8021*E332 90 7.5 5P328 73 7.5 5*E432 61 2 5P428 42 2 5*E1532 90 7.5 5P1528 73 7.5 5Lamp and Ballast Retro with 2L F32 T8 28 watt, PRS LBF Ballast131Existing Troffer 4' w 3 F32 T8 32 watt Lamps, NBF BallastLamp and Ballast Retro with 3L F32 T8 28 watt, PRS NBF Ballast130Existing Troffer T8 4' w 2 F32 32 watt Lamp, NBF Ballast143 StorageET4232N143 StorageLB228LP142 CRET4332N142 CRLB328NP129Existing Strip T8 4' w 3 F32 32 watt Lamp, NBF Ballast Lamp and Ballast Retro with 3L F32 T8 28 watt, PRS NBF Ballast144 CRES4332N144 CRLB328NPACACAC*E632 61 7.5 5P628 42 7.5 5*E632 90 24 7P628 72 24 7*E2032 90 7.5 5 75P2028 73 7.5 5*E332 90 2 5P328 48 2 5*E232 122 2 5P228 48 2 5*E732 122 10 5P728 84 10 5*E132 61 10 5P128 42 10 5Lamp And Ballast Retrofit w 2 F32 28 watt Lamp, LBF Ballast138Existing Strip T8 4' w 2 F32 32 watt Lamp, NBF Ballast Double Doors to RightES4232NDouble Doors to RightLB228LLamp and Ballast Retro with 3L F32 T8 28 watt, PRS NBF Ballast135Existing Troffer 4' w 3 F32 T8 32 watt Lamps, NBF BallastTroffer Kit with Reflector 4' 2L F32 T8 28 watt, PRS NBF Ballast134Existing Troffer 4' w 3 F32 T8 32 watt Lamps, NBF Ballast140 CRET4332N140 CRLB328NPWrap Kit with Reflector 4' 2L F32 T8 28 watt, PRS NBF Ballast137Existing Strip T8 8' w 4 F32 32 watt Lamp, NBF Ballast Lamp And Ballast Retrofit w 4 F32 28 watt Lamp, LBF Ballast136Existing Wrap T8 4' w 4 F32 32 watt Lamp, NBF BallastDown Hall 150-159 - J5 CustodialEW4432NDown Hall 150-159 - J5 CustodialWK4228NP140A PantryET4332N140A PantryTK4228NPDouble Doors to RightES8432NDouble Doors to RightLB428LLamp and Ballast Retro with 2L F32 T8 28 watt, PRS LBF Ballast133Existing Strip T8 4' w 3 F32 32 watt Lamp, NBF Ballast Lamp And Ballast Retrofit w 3 F32 28 watt Lamp, NBF Ballast132Existing Strip T8 4' w 2 F32 32 watt Lamp, NBF Ballast 147 ReceivingES4232N147 ReceivingLB228LPInto HallES4332NInto HallLB328NACACACACThis information is proprietary, not to be disclosed to third parties without prior written permission from Northwest Edison.Energy Audit Calculation 17 of 38 2/2/2012 Energy AuditFacility ContactAuditor(s)Phone Ext. Audit DateBuilding ContactLast RevisedPhone Ext. Utility kWh Rate Demand RateTax RateFacility TypeHeatLamp ReplaceBallast ReplaceSecond Tier Start LevelGroupSpotECM #Fixture QtyLamp WattsFixture WattsFixture HeightHours/DayDays/WeekFCSensor QtySensor / Power PackEnergy SavedSensor HeightACAddressCity99709Sandra Edwards(206) 303-0121 10/30/11PCB / PercentGolden Valley Electric15.600¢West Valley High SchoolAlaskaFairbanks3800 Geist RoadProject NameZip Code4.00%Fairbanks North Star(425) 806-9200(425) 806-74550.0000Maint. RateExisting / Proposed Fixture DescriptionLocationStateCountyOffice Phone #Office Fax #2/2/12Sq. FeetSurvey NotesFixture ID$10.7919804 141st Place NE Woodinville, WA 98072Mike CampbellNWE Contact Phone(509) 775-8021*E132 122 2 5P128 84 2 5*E432 61 2 5P428 42 2 5*E1832 61 9.4 5 45-50P1828 48 9.4 5139Existing Strip T8 8' w 4 F32 32 watt Lamp, NBF Ballast Lamp And Ballast Retrofit w 4 F32 28 watt Lamp, LBF BallastLamp and Ballast Retro with 2L F32 T8 28 watt, PRS LBF Ballast141Existing Wrap T8 4' w 2 F32 32 watt Lamp, NBF BallastLamp and Ballast Retro with 2L F32 T8 28 watt, PRS NBF Ballast140Existing Wrap T8 4' w 2 F32 32 watt Lamp, NBF Ballast141 Dry StorageEW4232N141 Dry StorageLB228LPM5 MechES8432NM5 MechLB428LKitchenEW4232NKitchenLB228NPACAC*E132 61 24 7P128 42 24 7*E332 61 10 5P328 42 10 5*E226 52 10 5P226 52 10 5*E132 61 12.75 5P128 42 12.75 5*E132 61 2 5P128 42 2 5*E132 122 10.6 5P128 48 10.6 5*E4100 100 2 5P416 16 2 5Lamp And Ballast Retrofit w 2 F32 28 watt Lamp, LBF Ballast147Existing Wrap T8 4' w 4 F32 32 watt Lamp, NBF BallastWrap Kit with Reflector 4' 2L F32 T8 28 watt, NBF Ballast146Existing Strip T8 4' w 2 F32 32 watt Lamp, NBF Ballast Cleaning Equipment Door in KitchenES4232NCleaning Equipment Door in KitchenLB228LReplace with 16 Watt A-19 Style LED Lamp148Existing Incandescent 100 watt LampCooler/Freezer Walk-inEINC100Cooler/Freezer Walk-in16WLEDA19151D OfficeEW4432N151D OfficeWK4228NLamp And Ballast Retrofit w 2 F32 28 watt Lamp, LBF Ballast143Existing Wrap T8 4' w 2 F32 32 watt Lamp, NBF BallastLamp And Ballast Retrofit w 2 F32 28 watt Lamp, LBF Ballast142Existing Wrap T8 4' w 2 F32 32 watt Lamp, NBF BallastShort HallEW4232NShort HallLB228LExisting Fixture with 2 - 26 watt CFL Lamps145Existing Wrap T8 4' w 2 F32 32 watt Lamp, NBF BallastLamp and Ballast Retro with 2L F32 T8 28 watt, PRS LBF Ballast144Existing Fixture with 2 - 26 watt CFL Lamps151A ConcessionsECFL226151A ConcessionsECFL226151A ConcessionsEW4232N151A ConcessionsLB228L151B RestroomEW4232N151B RestroomLB228LPAlready controlled, retro w/PRS841This information is proprietary, not to be disclosed to third parties without prior written permission from Northwest Edison.Energy Audit Calculation 18 of 38 2/2/2012 Energy AuditFacility ContactAuditor(s)Phone Ext. Audit DateBuilding ContactLast RevisedPhone Ext. Utility kWh Rate Demand RateTax RateFacility TypeHeatLamp ReplaceBallast ReplaceSecond Tier Start LevelGroupSpotECM #Fixture QtyLamp WattsFixture WattsFixture HeightHours/DayDays/WeekFCSensor QtySensor / Power PackEnergy SavedSensor HeightACAddressCity99709Sandra Edwards(206) 303-0121 10/30/11PCB / PercentGolden Valley Electric15.600¢West Valley High SchoolAlaskaFairbanks3800 Geist RoadProject NameZip Code4.00%Fairbanks North Star(425) 806-9200(425) 806-74550.0000Maint. RateExisting / Proposed Fixture DescriptionLocationStateCountyOffice Phone #Office Fax #2/2/12Sq. FeetSurvey NotesFixture ID$10.7919804 141st Place NE Woodinville, WA 98072Mike CampbellNWE Contact Phone(509) 775-8021*E332 122 2 5P328 82 2 5*EP*E3732 61 12.75 5P3728 48 12.75 5151Existing Wrap T8 4' w 2 F32 32 watt Lamp, NBF BallastLamp and Ballast Retro with 2L F32 T8 28 watt, PRS NBF Ballast150Hall 154-158 - Starting on Commons GridHall 154-158 - Starting on Commons Grid152 Womens LockerEW4232N152 Womens LockerLB228NP149Existing Troffer 4' w 4 F32 T8 32 watt Lamps, NBF Ballast Lamp and Ballast Retro with 4L F32 T8 28 watt, PRS LBF BallastBack in Main Hall to 150-159 - 148 StorageET4432NBack in Main Hall to 150-159 - 148 StorageLB428LPACAC*E832 61 12.75 5P828 48 12.75 5*E232 122 8 5P228 48 8 5*E132 122 2 5P128 48 2 5*E232 122 12.75 5P228 48 12.75 5*E432 61 8 5P428 42 8 5*E3632 61 12.75 5P3628 48 12.75 5*E832 61 12.75 5P828 48 12.75 5Lamp and Ballast Retro with 2L F32 T8 28 watt, PRS NBF Ballast158Existing Vapor Tight T8 4' w 2 F32 32 watt Lamp, NBF BallastMens Locker RoomEV4232NMens Locker RoomLB228NPWrap Kit with Reflector 4' 2L F32 T8 28 watt, PRS NBF Ballast155Existing Wrap T8 4' w 4 F32 32 watt Lamp, NBF BallastWrap Kit with Reflector 4' 2L F32 T8 28 watt, PRS NBF Ballast154Existing Wrap T8 4' w 4 F32 32 watt Lamp, NBF BallastStorage in 149C CoachesEW4432NStorage in 149C CoachesWK4228NPLamp and Ballast Retro with 2L F32 T8 28 watt, PRS LBF Ballast157Existing Wrap T8 4' w 2 F32 32 watt Lamp, NBF BallastLamp and Ballast Retro with 2L F32 T8 28 watt, PRS NBF Ballast156Existing Wrap T8 4' w 2 F32 32 watt Lamp, NBF Ballast152B OfficeEW4232N152B OfficeLB228LP149C RestroomEW4432N149C RestroomWK4228NPMens Locker RoomEW4232NMens Locker RoomLB228NPLamp and Ballast Retro with 2L F32 T8 28 watt, PRS NBF Ballast153Existing Wrap T8 4' w 4 F32 32 watt Lamp, NBF BallastWrap Kit with Reflector 4' 2L F32 T8 28 watt, PRS NBF Ballast152Existing Vapor Tight T8 4' w 2 F32 32 watt Lamp, NBF Ballast152 Womens LockerEV4232N152 Womens LockerLB228NP149C CoachesEW4432N149C CoachesWK4228NPACACACACACACACThis information is proprietary, not to be disclosed to third parties without prior written permission from Northwest Edison.Energy Audit Calculation 19 of 38 2/2/2012 Energy AuditFacility ContactAuditor(s)Phone Ext. Audit DateBuilding ContactLast RevisedPhone Ext. Utility kWh Rate Demand RateTax RateFacility TypeHeatLamp ReplaceBallast ReplaceSecond Tier Start LevelGroupSpotECM #Fixture QtyLamp WattsFixture WattsFixture HeightHours/DayDays/WeekFCSensor QtySensor / Power PackEnergy SavedSensor HeightACAddressCity99709Sandra Edwards(206) 303-0121 10/30/11PCB / PercentGolden Valley Electric15.600¢West Valley High SchoolAlaskaFairbanks3800 Geist RoadProject NameZip Code4.00%Fairbanks North Star(425) 806-9200(425) 806-74550.0000Maint. RateExisting / Proposed Fixture DescriptionLocationStateCountyOffice Phone #Office Fax #2/2/12Sq. FeetSurvey NotesFixture ID$10.7919804 141st Place NE Woodinville, WA 98072Mike CampbellNWE Contact Phone(509) 775-8021*E232 122 8 5P228 48 8 5*E332 122 18 7P328 42 18 7*E432 61 10.6 5P428 48 10.6 5159Existing Wrap T8 4' w 4 F32 32 watt Lamp, NBF BallastWrap Kit with Reflector 4' 2L F32 T8 28 watt, PRS NBF BallastWrap Kit with Reflector 4' 2L F32 T8 28 watt, PRS LBF Ballast161Existing Wrap T8 4' w 2 F32 32 watt Lamp, NBF BallastLamp And Ballast Retrofit w 2 F32 28 watt Lamp, NBF Ballast160Existing Wrap T8 4' w 4 F32 32 watt Lamp, NBF BallastShort Hall + 149 G RestroomEW4432NShort Hall + 149 G RestroomWK4228LP149G CoachesEW4432N149G CoachesWK4228NP153B OfficeEW4232N153B OfficeLB228N841ACAC*E1232 122 7.5 5P1228 94 7.5 5*E132 122 24 7P128 96 24 7*E1032 61 2 5P1028 42 2 5*E132 61 2 5P128 42 2 5*E1232 122 7.5 5P1228 94 7.5 5*E132 122 24 7P128 96 24 7*EPM1 MechanicalLamp and Ballast Retro with 4L F32 T8 28 watt, PRS NBF Ballast163Existing Wrap T8 4' w 2 F32 32 watt Lamp, NBF BallastLamp and Ballast Retro with 2L F32 T8 28 watt, PRS LBF Ballast162Existing Troffer 4' w 4 F32 T8 32 watt Lamps, NBF Ballast 154 CRET4432N154 CRLB428NPLamp and Ballast Retro with 2L F32 T8 28 watt, PRS LBF Ballast165Existing Troffer 4' w 4 F32 T8 32 watt Lamps, NBF Ballast Lamp and Ballast Retro with 4L F32 T8 28 watt, PRS NBF Ballast164Existing Wrap T8 4' w 2 F32 32 watt Lamp, NBF Ballast155A JCEW4232N155A JCLB228LP155 StorageEW4232N155 StorageLB228LP156 PE/Health CRET4432N156 PE/Health CRLB428NPACACAC166M1 Mechanical162A154 CRET4432NExisting Troffer 4' w 4 F32 T8 32 watt Lamps, NBF Ballast (1) on 24/7154 CRLB428NLamp And Ballast Retrofit w 4 F32 28 watt Lamp, NBF BallastACGot it from other side165A156 PE/Health CRET4432NExisting Troffer 4' w 4 F32 T8 32 watt Lamps, NBF Ballast (1) on 24/7156 PE/Health CRLB428NLamp And Ballast Retrofit w 4 F32 28 watt Lamp, NBF BallastThis information is proprietary, not to be disclosed to third parties without prior written permission from Northwest Edison.Energy Audit Calculation 20 of 38 2/2/2012 Energy AuditFacility ContactAuditor(s)Phone Ext. Audit DateBuilding ContactLast RevisedPhone Ext. Utility kWh Rate Demand RateTax RateFacility TypeHeatLamp ReplaceBallast ReplaceSecond Tier Start LevelGroupSpotECM #Fixture QtyLamp WattsFixture WattsFixture HeightHours/DayDays/WeekFCSensor QtySensor / Power PackEnergy SavedSensor HeightACAddressCity99709Sandra Edwards(206) 303-0121 10/30/11PCB / PercentGolden Valley Electric15.600¢West Valley High SchoolAlaskaFairbanks3800 Geist RoadProject NameZip Code4.00%Fairbanks North Star(425) 806-9200(425) 806-74550.0000Maint. RateExisting / Proposed Fixture DescriptionLocationStateCountyOffice Phone #Office Fax #2/2/12Sq. FeetSurvey NotesFixture ID$10.7919804 141st Place NE Woodinville, WA 98072Mike CampbellNWE Contact Phone(509) 775-8021*E332 90 7.5 5P328 73 7.5 5*E132 90 24 7P128 72 24 7*E450 50 10 5P488 105Replace with 8 Watt Par 20 LED Lamp168Existing Incandescent 50 watt Lamp157 SkiingEINC50157 Skiing8WLEDP20157 SkiingET4332N157 SkiingLB328NPACWarm white167A157 SkiingET4332NExisting Troffer 4' w 3 F32 T8 32 watt Lamps, NBF Ballast(1) on 24/7157 SkiingLB328NLamp And Ballast Retrofit w 3 F32 28 watt Lamp, NBF Ballast167Existing Troffer 4' w 3 F32 T8 32 watt Lamps, NBF BallastLamp and Ballast Retro with 3L F32 T8 28 watt, PRS NBF Ballast*E232 90 2 5P228 62 2 5*E632 90 18 7P628 73 18 7*E432 90 2 5P428 73 2 5*E2032 122 9.5 5P2028 82 9.5 5*E12 400 458 29.0 ft 12.7 5 30-35 3.00 CM9 25%P1254 234 29.0 ft 12.7 5 8.00 PP20 25%*E632 122 9.5 5P628 65 9.5 5*E832 61 12.75 5P828 42 12.75 5Wrap Kit with Reflector 4' 2L F32 T8 28 watt, PRS HBF Ballast175Existing Wrap T8 4' w 2 F32 32 watt Lamp, NBF BallastLamp and Ballast Retro with 2L F32 T8 28 watt, PRS LBF Ballast174Existing Wrap T8 4' w 4 F32 32 watt Lamp, NBF Ballast160 Auxiliary GymEW4432N160 Auxiliary GymWK4228HPM1-3 Mens Restroom - Entry back into CommonsEW4232NM1-3 Mens Restroom - Entry back into CommonsLB228LPLamp and Ballast Retro with 3L F32 T8 28 watt, PRS NBF Ballast171Existing Troffer 4' w 3 F32 T8 32 watt Lamps, NBF BallastLamp and Ballast Retro with 3L F32 T8 28 watt, PRS NBF Ballast170Existing Troffer 4' w 3 F32 T8 32 watt Lamps, NBF BallastHall w/158ET4332NHall w/158LB328NPLamp and Ballast Retro with 4L F32 T8 28 watt, PRS LBF Ballast173Existing Fixture Metal Halide 400 watt LampNew Paragon 1748E Fixture 4' w 4 F54 54 watt T5 Lamp, HBF Ballast172Existing Troffer 4' w 4 F32 T8 32 watt Lamps, NBF Ballast 159 Weight RoomET4432N159 Weight RoomLB428LP158 StorageET4332N158 StorageLB328NP160 Auxiliary GymEFMH400160 Auxiliary GymN1748E454H169Existing Troffer 4' w 3 F32 T8 32 watt Lamps, NBF BallastLamp and Ballast Retro with 3L F32 T8 28 watt, PRS LBF Ballast157A StorageET4332N157A StorageLB328LPExisting @ 28', lid is @ 34', Aluminum w/glassACACACACACACThis information is proprietary, not to be disclosed to third parties without prior written permission from Northwest Edison.Energy Audit Calculation 21 of 38 2/2/2012 Energy AuditFacility ContactAuditor(s)Phone Ext. Audit DateBuilding ContactLast RevisedPhone Ext. Utility kWh Rate Demand RateTax RateFacility TypeHeatLamp ReplaceBallast ReplaceSecond Tier Start LevelGroupSpotECM #Fixture QtyLamp WattsFixture WattsFixture HeightHours/DayDays/WeekFCSensor QtySensor / Power PackEnergy SavedSensor HeightACAddressCity99709Sandra Edwards(206) 303-0121 10/30/11PCB / PercentGolden Valley Electric15.600¢West Valley High SchoolAlaskaFairbanks3800 Geist RoadProject NameZip Code4.00%Fairbanks North Star(425) 806-9200(425) 806-74550.0000Maint. RateExisting / Proposed Fixture DescriptionLocationStateCountyOffice Phone #Office Fax #2/2/12Sq. FeetSurvey NotesFixture ID$10.7919804 141st Place NE Woodinville, WA 98072Mike CampbellNWE Contact Phone(509) 775-8021*E632 61 12.75 5P628 42 12.75 5*E532 61 12.75 5P528 42 12.75 5*E232 61 12.75 5P228 42 12.75 5Lamp and Ballast Retro with 2L F32 T8 28 watt, PRS LBF Ballast178Existing Strip T8 4' w 2 F32 32 watt Lamp, NBF Ballast W1-3ES4232NW1-3LB228LPLamp and Ballast Retro with 2L F32 T8 28 watt, PRS LBF Ballast177Existing Wrap T8 4' w 2 F32 32 watt Lamp, NBF BallastLamp and Ballast Retro with 2L F32 T8 28 watt, PRS LBF Ballast176Existing Strip T8 4' w 2 F32 32 watt Lamp, NBF Ballast M1-3 Mens Restroom - Entry back into CommonsES4232NM1-3 Mens Restroom - Entry back into CommonsLB228LPW1-3EW4232NW1-3LB228LPACACAC*E326 52 12.75 5P326 52 12.75 5*E432 90 9.5 5P428 62 9.5 5*E132 61 2 5P128 42 2 5*E632 90 9.5 5 35-40P628 48 9.5 5*E12 400 458 12.7 5 6.00 CM9 25%P1254 234 12.7 5 6.00 PP20 25%*E24 400 458 12.7 5 10.00 CM9 25%P2454 364 12.7 5 10.00 PP20 25%*E1232 122 9.5 5P1228 65 9.5 5Troffer Kit with Reflector 4' 2L F32 T8 28 watt, PRS NBF Ballast183Existing Fixture Metal Halide 400 watt LampNew Paragon 1748E Fixture 4' w 4 F54 54 watt T5 Lamp, HBF Ballast182Existing Troffer 4' w 3 F32 T8 32 watt Lamps, NBF Ballast149 Gym - MainET4332N149 Gym - MainTK4228NPTroffer Kit with Reflector 4' 2L F32 T8 28 watt, PRS HBF Ballast184Existing Wrap T8 4' w 4 F32 32 watt Lamp, NBF Ballast149 Gym - MainEW4432N149 Gym - MainTK4228HP149 Gym - MainEFMH400149 Gym - MainN1748E454H183A149 Gym - MainEFMH400Existing Fixture Metal Halide 400 watt Lamp179Existing Fixture with 2 - 26 watt CFL LampsExisting Fixture with 2 - 26 watt CFL LampsLamp and Ballast Retro with 3L F32 T8 28 watt, PRS LBF Ballast181Existing Strip T8 4' w 2 F32 32 watt Lamp, NBF Ballast Lamp and Ballast Retro with 2L F32 T8 28 watt, PRS LBF Ballast180Existing Troffer 4' w 3 F32 T8 32 watt Lamps, NBF BallastV-149 Gym EntryET4332NV-149 Gym EntryLB328LP150ECFL226150ECFL226E3 ElectricalES4232NE3 ElectricalLB228LPACACExisting @ 28', lid is @ 34', Aluminum w/glassACEnergy saver lampACExisting @ 28', lid is @ 34', Aluminum w/glass149 Gym - MainN1748E654HNew Paragon 1748E Fixture 4' w 6 F54 54 watt T5 Lamp, HBF BallastThis information is proprietary, not to be disclosed to third parties without prior written permission from Northwest Edison.Energy Audit Calculation 22 of 38 2/2/2012 Energy AuditFacility ContactAuditor(s)Phone Ext. Audit DateBuilding ContactLast RevisedPhone Ext. Utility kWh Rate Demand RateTax RateFacility TypeHeatLamp ReplaceBallast ReplaceSecond Tier Start LevelGroupSpotECM #Fixture QtyLamp WattsFixture WattsFixture HeightHours/DayDays/WeekFCSensor QtySensor / Power PackEnergy SavedSensor HeightACAddressCity99709Sandra Edwards(206) 303-0121 10/30/11PCB / PercentGolden Valley Electric15.600¢West Valley High SchoolAlaskaFairbanks3800 Geist RoadProject NameZip Code4.00%Fairbanks North Star(425) 806-9200(425) 806-74550.0000Maint. RateExisting / Proposed Fixture DescriptionLocationStateCountyOffice Phone #Office Fax #2/2/12Sq. FeetSurvey NotesFixture ID$10.7919804 141st Place NE Woodinville, WA 98072Mike CampbellNWE Contact Phone(509) 775-8021*E12 400 458 12.7 5 35 3.00 CM9 25%P1254 234 12.7 5 6.00 PP20 25%*E332 122 9.5 5P328 65 9.5 5*E432 122 9.5 5P428 65 9.5 5Wrap Kit with Reflector 4' 2L F32 T8 28 watt, PRS HBF Ballast187Existing Wrap T8 4' w 4 F32 32 watt Lamp, NBF BallastWrap Kit with Reflector 4' 2L F32 T8 28 watt, PRS HBF Ballast186Existing Wrap T8 4' w 4 F32 32 watt Lamp, NBF BallastSmaller Half of GymEW4432NSmaller Half of GymWK4228HP149E Trainers RoomEW4432N149E Trainers RoomWK4228HP185Existing Fixture Metal Halide 400 watt LampNew Paragon 1748E Fixture 4' w 4 F54 54 watt T5 Lamp, HBF BallastSmaller Half of GymEFMH400Smaller Half of GymN1748E454HACAC*E4532 61 2 5P4528 48 2 5*E2232 90 18 7 35P2228 73 18 7*E132 61 2 5P128 42 2 5*E2232 183 7.5 5 30-35P4628 73 7.5 5*E432 90 7.5 5P428 73 7.5 5*E226 52 7.5 5P226 52 7.5 5*E432 90 2 5P428 62 2 5Lamp and Ballast Retro with 3L F32 T8 28 watt, PRS LBF Ballast194Existing Troffer 4' w 3 F32 T8 32 watt Lamps, NBF Ballast166A StorageET4332N166A StorageLB328LPLamp and Ballast Retro with 2L F32 T8 28 watt, PRS LBF Ballast191Existing Strip T8 8' w 6 F32 32 watt Lamp, NBF Ballast Lamp and Ballast Retro with 3L F32 T8 28 watt, PRS NBF Ballast190Existing Wrap T8 4' w 2 F32 32 watt Lamp, NBF BallastJ7EW4232NJ7LB228LPLamp and Ballast Retro with 3L F32 T8 28 watt, PRS NBF Ballast193Existing Fixture with 2 - 26 watt CFL LampsExisting Fixture with 2 - 26 watt CFL Lamps192Existing Strip T8 4' w 3 F32 32 watt Lamp, NBF Ballast 166 MusicES4332N166 MusicLB328NP166 MusicES8632N166 MusicLB328NP166 MusicECFL226166 MusicECFL226Lamp And Ballast Retrofit w 2 F32 28 watt Lamp, NBF Ballast189Existing Troffer 4' w 3 F32 T8 32 watt Lamps, NBF BallastLamp and Ballast Retro with 3L F32 T8 28 watt, PRS NBF Ballast188Existing Vapor Tight T8 4' w 2 F32 32 watt Lamp, NBF BallastM7 MechanicalEV4232NM7 MechanicalLB228NHall 162-167ET4332NHall 162-167LB328NPACACACACACACThis information is proprietary, not to be disclosed to third parties without prior written permission from Northwest Edison.Energy Audit Calculation 23 of 38 2/2/2012 Energy AuditFacility ContactAuditor(s)Phone Ext. Audit DateBuilding ContactLast RevisedPhone Ext. Utility kWh Rate Demand RateTax RateFacility TypeHeatLamp ReplaceBallast ReplaceSecond Tier Start LevelGroupSpotECM #Fixture QtyLamp WattsFixture WattsFixture HeightHours/DayDays/WeekFCSensor QtySensor / Power PackEnergy SavedSensor HeightACAddressCity99709Sandra Edwards(206) 303-0121 10/30/11PCB / PercentGolden Valley Electric15.600¢West Valley High SchoolAlaskaFairbanks3800 Geist RoadProject NameZip Code4.00%Fairbanks North Star(425) 806-9200(425) 806-74550.0000Maint. RateExisting / Proposed Fixture DescriptionLocationStateCountyOffice Phone #Office Fax #2/2/12Sq. FeetSurvey NotesFixture ID$10.7919804 141st Place NE Woodinville, WA 98072Mike CampbellNWE Contact Phone(509) 775-8021*E432 122 7.5 5 80P428 94 7.5 5*E232 122 7.5 5P228 94 7.5 5*E432 122 8 5P428 94 8 5195Existing Troffer 4' w 4 F32 T8 32 watt Lamps, NBF Ballast Lamp and Ballast Retro with 4L F32 T8 28 watt, PRS NBF BallastLamp and Ballast Retro with 4L F32 T8 28 watt, PRS NBF Ballast197Existing Troffer 4' w 4 F32 T8 32 watt Lamps, NBF Ballast Lamp and Ballast Retro with 4L F32 T8 28 watt, PRS NBF Ballast196Existing Troffer 4' w 4 F32 T8 32 watt Lamps, NBF Ballast 166C LibraryET4432N166C LibraryLB428NP166B PracticeET4432N166B PracticeLB428NP166D OfficeET4432N166D OfficeLB428NPACACAC*E632 90 2 5P628 48 2 5*E632 90 2 5P628 73 2 5*E132 61 2 5P128 42 2 5*E2926 52 12 7P2926 52 12 7*E4432 32 9 7P4428 22 9 7*E432 61 12 7P428 48 12 7*E1432 90 9 7P1428 73 9 7Lamp and Ballast Retro with 1L F32 T8 28 watt, PRS LBF Ballast203Existing Troffer T8 4' w 2 F32 32 watt Lamp, NBF BallastLamp And Ballast Retrofit w 2 F32 28 watt Lamp, NBF Ballast202Existing Strip T8 4' w 1 F32 32 watt Lamp, NBF Ballast Performing Arts Center LobbyES4132NPerforming Arts Center LobbyLB128LPLamp and Ballast Retro with 3L F32 T8 28 watt, PRS NBF Ballast204Existing Troffer 4' w 3 F32 T8 32 watt Lamps, NBF BallastPerforming Arts Center LobbyET4332NPerforming Arts Center LobbyLB328NPPerforming Arts Center LobbyET4232NPerforming Arts Center LobbyLB228NTroffer Kit with Reflector 4' 2L F32 T8 28 watt, PRS NBF Ballast199Existing Troffer 4' w 3 F32 T8 32 watt Lamps, NBF BallastLamp and Ballast Retro with 3L F32 T8 28 watt, PRS NBF Ballast198Existing Troffer 4' w 3 F32 T8 32 watt Lamps, NBF Ballast166E StorageET4332N166E StorageTK4228NPLamp And Ballast Retrofit w 2 F32 28 watt Lamp, LBF Ballast201Existing Fixture with 2 - 26 watt CFL LampsExisting Fixture with 2 - 26 watt CFL Lamps200Existing Strip T8 4' w 2 F32 32 watt Lamp, NBF Ballast E7 ElectricalES4232NE7 ElectricalLB228LOther StorageET4332NOther StorageLB328NPPerforming Arts Center LobbyECFL226Performing Arts Center LobbyECFL226Energy saver lampAC841ACACACThis information is proprietary, not to be disclosed to third parties without prior written permission from Northwest Edison.Energy Audit Calculation 24 of 38 2/2/2012 Energy AuditFacility ContactAuditor(s)Phone Ext. Audit DateBuilding ContactLast RevisedPhone Ext. Utility kWh Rate Demand RateTax RateFacility TypeHeatLamp ReplaceBallast ReplaceSecond Tier Start LevelGroupSpotECM #Fixture QtyLamp WattsFixture WattsFixture HeightHours/DayDays/WeekFCSensor QtySensor / Power PackEnergy SavedSensor HeightACAddressCity99709Sandra Edwards(206) 303-0121 10/30/11PCB / PercentGolden Valley Electric15.600¢West Valley High SchoolAlaskaFairbanks3800 Geist RoadProject NameZip Code4.00%Fairbanks North Star(425) 806-9200(425) 806-74550.0000Maint. RateExisting / Proposed Fixture DescriptionLocationStateCountyOffice Phone #Office Fax #2/2/12Sq. FeetSurvey NotesFixture ID$10.7919804 141st Place NE Woodinville, WA 98072Mike CampbellNWE Contact Phone(509) 775-8021*E232 90 24 7P228 72 24 7*E2332 122 7.5 5P2328 94 7.5 5*E432 90 7.5 5P428 73 7.5 5Performing Arts Center LobbyLB328NLamp And Ballast Retrofit w 3 F32 28 watt Lamp, NBF BallastLamp and Ballast Retro with 3L F32 T8 28 watt, PRS NBF Ballast206Existing Troffer 4' w 3 F32 T8 32 watt Lamps, NBF BallastFront Door on RightET4332NFront Door on RightLB328NP205Existing Troffer 4' w 4 F32 T8 32 watt Lamps, NBF Ballast Lamp and Ballast Retro with 4L F32 T8 28 watt, PRS NBF Ballast167ET4432N167LB428NP204APerforming Arts Center LobbyET4332NExisting Troffer 4' w 3 F32 T8 32 watt Lamps, NBF BallastACAC(2) on 24/7*E432 122 7.5 5P428 94 7.5 5*E332 90 10 5P328 72 10 5*E232 122 7.5 5P228 94 7.5 5*E232 122 8 5P228 94 8 5*E132 122 24 7P128 96 24 7*E332 61 12.75 5P328 42 12.75 5*E732 61 12.75 5P728 42 12.75 5210A167D OfficeET4432NExisting Troffer 4' w 4 F32 T8 32 watt Lamps, NBF Ballast (1) on 24/7167D OfficeLB428NLamp And Ballast Retrofit w 4 F32 28 watt Lamp, NBF BallastLamp and Ballast Retro with 4L F32 T8 28 watt, PRS NBF Ballast211Existing Strip T8 4' w 2 F32 32 watt Lamp, NBF Ballast Lamp and Ballast Retro with 2L F32 T8 28 watt, PRS LBF Ballast210Existing Troffer 4' w 4 F32 T8 32 watt Lamps, NBF Ballast 167D OfficeET4432N167D OfficeLB428NPLamp and Ballast Retro with 2L F32 T8 28 watt, PRS LBF Ballast212Existing Wrap T8 4' w 2 F32 32 watt Lamp, NBF BallastM1-4 RestroomEW4232NM1-4 RestroomLB228LPM1-4 RestroomES4232NM1-4 RestroomLB228LP207Existing Troffer 4' w 4 F32 T8 32 watt Lamps, NBF Ballast Lamp and Ballast Retro with 4L F32 T8 28 watt, PRS NBF BallastLamp And Ballast Retrofit w 3 F32 28 watt Lamp, NBF Ballast209Existing Troffer 4' w 4 F32 T8 32 watt Lamps, NBF Ballast Lamp and Ballast Retro with 4L F32 T8 28 watt, PRS NBF Ballast208Existing Troffer 4' w 3 F32 T8 32 watt Lamps, NBF Ballast167B ET4332N167B LB328N167AET4432N167ALB428NP167C RepairET4432N167C RepairLB428NPACNot controlled, 841ACACACACThis information is proprietary, not to be disclosed to third parties without prior written permission from Northwest Edison.Energy Audit Calculation 25 of 38 2/2/2012 Energy AuditFacility ContactAuditor(s)Phone Ext. Audit DateBuilding ContactLast RevisedPhone Ext. Utility kWh Rate Demand RateTax RateFacility TypeHeatLamp ReplaceBallast ReplaceSecond Tier Start LevelGroupSpotECM #Fixture QtyLamp WattsFixture WattsFixture HeightHours/DayDays/WeekFCSensor QtySensor / Power PackEnergy SavedSensor HeightACAddressCity99709Sandra Edwards(206) 303-0121 10/30/11PCB / PercentGolden Valley Electric15.600¢West Valley High SchoolAlaskaFairbanks3800 Geist RoadProject NameZip Code4.00%Fairbanks North Star(425) 806-9200(425) 806-74550.0000Maint. RateExisting / Proposed Fixture DescriptionLocationStateCountyOffice Phone #Office Fax #2/2/12Sq. FeetSurvey NotesFixture ID$10.7919804 141st Place NE Woodinville, WA 98072Mike CampbellNWE Contact Phone(509) 775-8021*E732 61 12.75 5P728 42 12.75 5*E432 61 12.75 5P428 42 12.75 5*E8200 200 10 5P816 16 10 5Lamp and Ballast Retro with 2L F32 T8 28 watt, PRS LBF Ballast215Existing Incandescent 200 watt LampReplace with 16 Watt Par 38 LED Lamp214Existing Strip T8 4' w 2 F32 32 watt Lamp, NBF Ballast W1-4 RestroomES4232NW1-4 RestroomLB228LP171EINC20017116WLEDP38213Existing Wrap T8 4' w 2 F32 32 watt Lamp, NBF BallastLamp and Ballast Retro with 2L F32 T8 28 watt, PRS LBF BallastW1-4 RestroomEW4232NW1-4 RestroomLB228LPACAC*E232 61 7.5 5P228 42 7.5 5*E132 61 2 5P128 42 2 5*E1232 90 18 7P1228 73 18 7*E432 90 18 7P428 48 18 7*E332 61 7.5 5P328 48 7.5 5*E6625 25 10 5P6688 105*E132 61 12.75 5P128 42 12.75 5Lamp and Ballast Retro with 2L F32 T8 28 watt, PRS LBF Ballast222Existing Wrap T8 4' w 2 F32 32 watt Lamp, NBF BallastFT 9EW4232NFT 9LB228LPLamp and Ballast Retro with 3L F32 T8 28 watt, PRS NBF Ballast219Existing Troffer 4' w 3 F32 T8 32 watt Lamps, NBF BallastTroffer Kit with Reflector 4' 2L F32 T8 28 watt, PRS NBF Ballast218Existing Troffer 4' w 3 F32 T8 32 watt Lamps, NBF BallastHall w/V-12ET4332NHall w/V-12LB328NPLamp and Ballast Retro with 2L F32 T8 28 watt, PRS NBF Ballast221Existing Incandescent 25 watt LampReplace with 8 Watt A-19 Style LED Lamp220Existing Troffer T8 4' w 2 F32 32 watt Lamp, NBF Ballast177 Dressing RoomET4232N177 Dressing RoomLB228NP175 Back Stage - HallET4332N175 Back Stage - HallTK4228NP177 Dressing RoomEINC25177 Dressing Room8WLEDA19Lamp And Ballast Retrofit w 2 F32 28 watt Lamp, LBF Ballast217Existing Strip T8 4' w 2 F32 32 watt Lamp, NBF Ballast Lamp And Ballast Retrofit w 2 F32 28 watt Lamp, LBF Ballast216Existing Wrap T8 4' w 2 F32 32 watt Lamp, NBF Ballast171EW4232N171LB228LJ12ES4232NJ12LB228LExisting globe INC, retro with warm whiteACACACACACThis information is proprietary, not to be disclosed to third parties without prior written permission from Northwest Edison.Energy Audit Calculation 26 of 38 2/2/2012 Energy AuditFacility ContactAuditor(s)Phone Ext. Audit DateBuilding ContactLast RevisedPhone Ext. Utility kWh Rate Demand RateTax RateFacility TypeHeatLamp ReplaceBallast ReplaceSecond Tier Start LevelGroupSpotECM #Fixture QtyLamp WattsFixture WattsFixture HeightHours/DayDays/WeekFCSensor QtySensor / Power PackEnergy SavedSensor HeightACAddressCity99709Sandra Edwards(206) 303-0121 10/30/11PCB / PercentGolden Valley Electric15.600¢West Valley High SchoolAlaskaFairbanks3800 Geist RoadProject NameZip Code4.00%Fairbanks North Star(425) 806-9200(425) 806-74550.0000Maint. RateExisting / Proposed Fixture DescriptionLocationStateCountyOffice Phone #Office Fax #2/2/12Sq. FeetSurvey NotesFixture ID$10.7919804 141st Place NE Woodinville, WA 98072Mike CampbellNWE Contact Phone(509) 775-8021*E332 61 7.5 5P328 48 7.5 5*E6625 25 10 5P6688 105*E132 61 12.75 5P128 42 12.75 5223Existing Troffer T8 4' w 2 F32 32 watt Lamp, NBF BallastLamp and Ballast Retro with 2L F32 T8 28 watt, PRS NBF BallastReplace with 8 Watt A-19 Style LED Lamp225Existing Wrap T8 4' w 2 F32 32 watt Lamp, NBF BallastLamp and Ballast Retro with 2L F32 T8 28 watt, PRS LBF Ballast224Existing Incandescent 25 watt Lamp178 Dressing Room 2EINC25178 Dressing Room 28WLEDA19178 Dressing Room 2ET4232N178 Dressing Room 2LB228NPFT 10EW4232NFT 10LB228LPACACExisting globe INC, retro with warm white*E332 61 2 5P328 42 2 5*E232 61 2 5P228 42 2 5*E1132 61 2 5P1128 42 2 5*E732 122 10 5 20-25P728 65 10 5*E132 122 24 7P128 65 24 7*E626 52 10 5P626 52 10 5*E632 61 22.0 ft 10 5P628 48 22.0 ft 10 5229A176 PropsET4432NExisting Troffer 4' w 4 F32 T8 32 watt Lamps, NBF Ballast (1) on 24/7176 PropsTK4228HTroffer Kit with Reflector 4' w 2 F32 28 watt Lamp, HBF BallastExisting Fixture with 2 - 26 watt CFL Lamps231Existing Strip T8 4' w 2 F32 32 watt Lamp, NBF Ballast Lamp And Ballast Retrofit w 2 F32 28 watt Lamp, NBF Ballast230Existing Fixture with 2 - 26 watt CFL LampsTheaterECFL226TheaterECFL226TheaterES4232NTheaterLB228NLamp And Ballast Retrofit w 2 F32 28 watt Lamp, LBF Ballast227Existing Strip T8 4' w 2 F32 32 watt Lamp, NBF Ballast Lamp And Ballast Retrofit w 2 F32 28 watt Lamp, LBF Ballast226Existing Strip T8 4' w 2 F32 32 watt Lamp, NBF Ballast S-7 StorageES4232NS-7 StorageLB228LLamp And Ballast Retrofit w 2 F32 28 watt Lamp, LBF Ballast229Existing Troffer 4' w 4 F32 T8 32 watt Lamps, NBF Ballast Troffer Kit with Reflector 4' w 2 F32 28 watt Lamp, HBF Ballast228Existing Strip T8 4' w 2 F32 32 watt Lamp, NBF Ballast M9 MechanicalES4232NM9 MechanicalLB228LG12 ElectricalES4232NG12 ElectricalLB228L176 PropsET4432N176 PropsTK4228H841Existing pris @ 24', 841Energy saver lampFixture @ 22', 841This information is proprietary, not to be disclosed to third parties without prior written permission from Northwest Edison.Energy Audit Calculation 27 of 38 2/2/2012 Energy AuditFacility ContactAuditor(s)Phone Ext. Audit DateBuilding ContactLast RevisedPhone Ext. Utility kWh Rate Demand RateTax RateFacility TypeHeatLamp ReplaceBallast ReplaceSecond Tier Start LevelGroupSpotECM #Fixture QtyLamp WattsFixture WattsFixture HeightHours/DayDays/WeekFCSensor QtySensor / Power PackEnergy SavedSensor HeightACAddressCity99709Sandra Edwards(206) 303-0121 10/30/11PCB / PercentGolden Valley Electric15.600¢West Valley High SchoolAlaskaFairbanks3800 Geist RoadProject NameZip Code4.00%Fairbanks North Star(425) 806-9200(425) 806-74550.0000Maint. RateExisting / Proposed Fixture DescriptionLocationStateCountyOffice Phone #Office Fax #2/2/12Sq. FeetSurvey NotesFixture ID$10.7919804 141st Place NE Woodinville, WA 98072Mike CampbellNWE Contact Phone(509) 775-8021*E332 90 7.5 5P328 73 7.5 5*E126 52 10 5P126 52 10 5*E632 90 7.5 5P628 62 7.5 5Lamp and Ballast Retro with 3L F32 T8 28 watt, PRS LBF Ballast234Existing Troffer 4' w 3 F32 T8 32 watt Lamps, NBF Ballast247 ControlET4332N247 ControlLB328LPLamp and Ballast Retro with 3L F32 T8 28 watt, PRS NBF Ballast233Existing Fixture with 2 - 26 watt CFL LampsExisting Fixture with 2 - 26 watt CFL Lamps232Existing Troffer 4' w 3 F32 T8 32 watt Lamps, NBF Ballast168ET4332N168LB328NP168ECFL226168ECFL226Energy saver lampACAC*E8150 150 10 5P816 16 10 5*E126 52 10 5P126 52 10 5*E1200 200 10 5P116 16 10 5*E332 61 10 5P328 42 10 5*E632 61 10 5P628 65 10 5*E4200 200 10 5P416 16 10 5*E126 52 10 5P126 52 10 5Lamp And Ballast Retrofit w 2 F32 28 watt Lamp, LBF Ballast239Existing Wrap T8 4' w 2 F32 32 watt Lamp, NBF BallastLamp And Ballast Retrofit w 2 F32 28 watt Lamp, HBF Ballast238Existing Strip T8 4' w 2 F32 32 watt Lamp, NBF Ballast 173ES4232N173LB228LReplace with 16 Watt Par 38 LED Lamp241Existing Fixture with 2 - 26 watt CFL LampsExisting Fixture with 2 - 26 watt CFL Lamps240Existing Incandescent 200 watt LampStageEINC200Stage16WLEDP38StageEW4232NStageLB228HExit Stage RightECFL226Exit Stage RightECFL226235Existing Incandescent 150 watt LampReplace with 16 Watt Par 38 LED LampExisting Fixture with 2 - 26 watt CFL Lamps237Existing Incandescent 200 watt LampReplace with 16 Watt Par 38 LED Lamp236Existing Fixture with 2 - 26 watt CFL LampsExit Stage LeftECFL226Exit Stage LeftECFL226247 ControlEINC150247 Control16WLEDP38173EINC20017316WLEDP38Energy saver lampFixture @ 28', 841Warm whiteEnergy saver lampThis information is proprietary, not to be disclosed to third parties without prior written permission from Northwest Edison.Energy Audit Calculation 28 of 38 2/2/2012 Energy AuditFacility ContactAuditor(s)Phone Ext. Audit DateBuilding ContactLast RevisedPhone Ext. Utility kWh Rate Demand RateTax RateFacility TypeHeatLamp ReplaceBallast ReplaceSecond Tier Start LevelGroupSpotECM #Fixture QtyLamp WattsFixture WattsFixture HeightHours/DayDays/WeekFCSensor QtySensor / Power PackEnergy SavedSensor HeightACAddressCity99709Sandra Edwards(206) 303-0121 10/30/11PCB / PercentGolden Valley Electric15.600¢West Valley High SchoolAlaskaFairbanks3800 Geist RoadProject NameZip Code4.00%Fairbanks North Star(425) 806-9200(425) 806-74550.0000Maint. RateExisting / Proposed Fixture DescriptionLocationStateCountyOffice Phone #Office Fax #2/2/12Sq. FeetSurvey NotesFixture ID$10.7919804 141st Place NE Woodinville, WA 98072Mike CampbellNWE Contact Phone(509) 775-8021*E126 52 10 5P126 52 10 5*E2200 200 10 5P216 16 10 5*E565 65 10 5P514 14 10 5Existing Fixture with 2 - 26 watt CFL Lamps243Existing Incandescent 200 watt LampReplace with 16 Watt Par 38 LED Lamp242Existing Fixture with 2 - 26 watt CFL LampsV161B - Dewild TheaterECFL226V161B - Dewild TheaterECFL226Replace with 14 Watt Par 30 LED Lamp244Existing Incandescent 65 watt Lamp161C ControlEINC65161C Control14WLEDP30161C ControlEINC200161C Control16WLEDP38Energy saver lampWarm whiteWarm white*E232 122 10 5P228 48 10 5*E632 90 18 7P628 42 18 7*E432 90 7.5 5P428 42 7.5 5*E232 122 7.5 5P228 82 7.5 5*E232 122 7.5 5P228 82 7.5 5*E432 122 8 5P428 94 8 5*E126 52 10.6 5P126 52 10.6 5Lamp and Ballast Retro with 4L F32 T8 28 watt, PRS NBF Ballast251Existing Fixture with 2 - 26 watt CFL LampsExisting Fixture with 2 - 26 watt CFL Lamps250Existing Troffer 4' w 4 F32 T8 32 watt Lamps, NBF Ballast 164D OfficeET4432N164D OfficeLB428NPV161A TeachersECFL226V161A TeachersECFL226Lamp and Ballast Retro with 2L F32 T8 28 watt, PRS LBF Ballast247Existing Wrap T8 4' w 3 F32 32 watt Lamp, NBF BallastLamp and Ballast Retro with 2L F32 T8 28 watt, PRS LBF Ballast246Existing Wrap T8 4' w 3 F32 32 watt Lamp, NBF BallastBack Hall off StageEW4332NBack Hall off StageLB228LPLamp and Ballast Retro with 4L F32 T8 28 watt, PRS LBF Ballast249Existing Troffer 4' w 4 F32 T8 32 watt Lamps, NBF Ballast Lamp and Ballast Retro with 4L F32 T8 28 watt, PRS LBF Ballast248Existing Troffer 4' w 4 F32 T8 32 watt Lamps, NBF Ballast Dressing 164BET4432NDressing 164BLB428LPStageEW4332NStageLB228LP164C DressingET4432N164C DressingLB428LP245Existing Wrap T8 4' w 4 F32 32 watt Lamp, NBF BallastWrap Kit with Reflector 4' 2L F32 T8 28 watt, NBF BallastTheaterEW4432NTheaterWK4228NACACACACACEnergy saver lampThis information is proprietary, not to be disclosed to third parties without prior written permission from Northwest Edison.Energy Audit Calculation 29 of 38 2/2/2012 Energy AuditFacility ContactAuditor(s)Phone Ext. Audit DateBuilding ContactLast RevisedPhone Ext. Utility kWh Rate Demand RateTax RateFacility TypeHeatLamp ReplaceBallast ReplaceSecond Tier Start LevelGroupSpotECM #Fixture QtyLamp WattsFixture WattsFixture HeightHours/DayDays/WeekFCSensor QtySensor / Power PackEnergy SavedSensor HeightACAddressCity99709Sandra Edwards(206) 303-0121 10/30/11PCB / PercentGolden Valley Electric15.600¢West Valley High SchoolAlaskaFairbanks3800 Geist RoadProject NameZip Code4.00%Fairbanks North Star(425) 806-9200(425) 806-74550.0000Maint. RateExisting / Proposed Fixture DescriptionLocationStateCountyOffice Phone #Office Fax #2/2/12Sq. FeetSurvey NotesFixture ID$10.7919804 141st Place NE Woodinville, WA 98072Mike CampbellNWE Contact Phone(509) 775-8021*E9632 90 18 7P9628 73 18 7*E2132 90 24 7P2128 72 24 7*E1432 90 7.5 5P1428 73 7.5 52nd Deck Hall to 201-223LB328NLamp And Ballast Retrofit w 3 F32 28 watt Lamp, NBF BallastLamp and Ballast Retro with 3L F32 T8 28 watt, PRS NBF Ballast253Existing Troffer 4' w 3 F32 T8 32 watt Lamps, NBF BallastLamp and Ballast Retro with 3L F32 T8 28 watt, PRS NBF Ballast252Existing Troffer 4' w 3 F32 T8 32 watt Lamps, NBF Ballast2nd Deck Hall to 201-223ET4332N2nd Deck Hall to 201-223LB328NP217 CRET4332N217 CRLB328NP252A2nd Deck Hall to 201-223ET4332NExisting Troffer 4' w 3 F32 T8 32 watt Lamps, NBF BallastACAC(21) on 24/7*E1932 90 7.5 5P1928 73 7.5 5*E1332 90 7.5 5P1328 73 7.5 5*E332 122 8 5P328 94 8 5*E132 122 24 7P128 96 24 7*E1932 122 7.5 5P1928 94 7.5 5*E132 122 24 7P128 96 24 7*E332 90 2 5P328 73 2 5256A222 OfficeET4432NExisting Troffer 4' w 4 F32 T8 32 watt Lamps, NBF Ballast (1) on 24/7222 OfficeLB428NLamp And Ballast Retrofit w 4 F32 28 watt Lamp, NBF Ballast257A216 CRET4432NExisting Troffer 4' w 4 F32 T8 32 watt Lamps, NBF Ballast (1) on 24/7216 CRLB428NLamp And Ballast Retrofit w 4 F32 28 watt Lamp, NBF BallastLamp and Ballast Retro with 3L F32 T8 28 watt, PRS NBF Ballast258Existing Troffer 4' w 3 F32 T8 32 watt Lamps, NBF BallastShared Storage 214 AET4332NShared Storage 214 ALB328NPLamp and Ballast Retro with 3L F32 T8 28 watt, PRS NBF Ballast255Existing Troffer 4' w 3 F32 T8 32 watt Lamps, NBF BallastLamp and Ballast Retro with 3L F32 T8 28 watt, PRS NBF Ballast254Existing Troffer 4' w 3 F32 T8 32 watt Lamps, NBF Ballast221 CRET4332N221 CRLB328NPLamp and Ballast Retro with 4L F32 T8 28 watt, PRS NBF Ballast257Existing Troffer 4' w 4 F32 T8 32 watt Lamps, NBF Ballast Lamp and Ballast Retro with 4L F32 T8 28 watt, PRS NBF Ballast256Existing Troffer 4' w 4 F32 T8 32 watt Lamps, NBF Ballast 222 OfficeET4432N222 OfficeLB428NP223 CRET4332N223 CRLB328NP216 CRET4432N216 CRLB428NPACACACACACThis information is proprietary, not to be disclosed to third parties without prior written permission from Northwest Edison.Energy Audit Calculation 30 of 38 2/2/2012 Energy AuditFacility ContactAuditor(s)Phone Ext. Audit DateBuilding ContactLast RevisedPhone Ext. Utility kWh Rate Demand RateTax RateFacility TypeHeatLamp ReplaceBallast ReplaceSecond Tier Start LevelGroupSpotECM #Fixture QtyLamp WattsFixture WattsFixture HeightHours/DayDays/WeekFCSensor QtySensor / Power PackEnergy SavedSensor HeightACAddressCity99709Sandra Edwards(206) 303-0121 10/30/11PCB / PercentGolden Valley Electric15.600¢West Valley High SchoolAlaskaFairbanks3800 Geist RoadProject NameZip Code4.00%Fairbanks North Star(425) 806-9200(425) 806-74550.0000Maint. RateExisting / Proposed Fixture DescriptionLocationStateCountyOffice Phone #Office Fax #2/2/12Sq. FeetSurvey NotesFixture ID$10.7919804 141st Place NE Woodinville, WA 98072Mike CampbellNWE Contact Phone(509) 775-8021*E132 90 7.5 5P128 73 7.5 5*E1832 90 7.5 5P1828 73 7.5 5*E132 90 24 7P128 72 24 7215 CRLB328NLamp And Ballast Retrofit w 3 F32 28 watt Lamp, NBF Ballast259Existing Troffer 4' w 3 F32 T8 32 watt Lamps, NBF BallastLamp and Ballast Retro with 3L F32 T8 28 watt, PRS NBF BallastLamp and Ballast Retro with 3L F32 T8 28 watt, PRS NBF Ballast260Existing Troffer 4' w 3 F32 T8 32 watt Lamps, NBF Ballast215 CRET4332N215 CRLB328NP214BET4332N214BLB328NP260A215 CRET4332NExisting Troffer 4' w 3 F32 T8 32 watt Lamps, NBF BallastACAC(1) on 24/7*E2032 90 7.5 5P2028 73 7.5 5*E2232 90 7.5 5P2228 73 7.5 5*E432 90 7.5 5P428 73 7.5 5*E1432 122 7.5 5P1428 94 7.5 5*E2032 90 7.5 5P2028 73 7.5 5*E2032 90 7.5 5P2028 73 7.5 5*E632 90 8 5P628 73 8 5Lamp and Ballast Retro with 3L F32 T8 28 watt, PRS NBF Ballast267Existing Troffer 4' w 3 F32 T8 32 watt Lamps, NBF BallastLamp and Ballast Retro with 3L F32 T8 28 watt, PRS NBF Ballast266Existing Troffer 4' w 3 F32 T8 32 watt Lamps, NBF Ballast210 CRET4332N210 CRLB328NP209 OfficeET4332N209 OfficeLB328NPLamp and Ballast Retro with 3L F32 T8 28 watt, PRS NBF Ballast263Existing Troffer 4' w 3 F32 T8 32 watt Lamps, NBF BallastLamp and Ballast Retro with 3L F32 T8 28 watt, PRS NBF Ballast262Existing Troffer 4' w 3 F32 T8 32 watt Lamps, NBF Ballast213 CRET4332N213 CRLB328NPLamp and Ballast Retro with 4L F32 T8 28 watt, PRS NBF Ballast265Existing Troffer 4' w 3 F32 T8 32 watt Lamps, NBF BallastLamp and Ballast Retro with 3L F32 T8 28 watt, PRS NBF Ballast264Existing Troffer 4' w 4 F32 T8 32 watt Lamps, NBF Ballast 212 CRET4432N212 CRLB428NP211A Work Room + 211BET4332N211A Work Room + 211BLB328NP211 CRET4332N211 CRLB328NP261Existing Troffer 4' w 3 F32 T8 32 watt Lamps, NBF BallastLamp and Ballast Retro with 3L F32 T8 28 watt, PRS NBF Ballast214 CRET4332N214 CRLB328NPACACACACACACACThis information is proprietary, not to be disclosed to third parties without prior written permission from Northwest Edison.Energy Audit Calculation 31 of 38 2/2/2012 Energy AuditFacility ContactAuditor(s)Phone Ext. Audit DateBuilding ContactLast RevisedPhone Ext. Utility kWh Rate Demand RateTax RateFacility TypeHeatLamp ReplaceBallast ReplaceSecond Tier Start LevelGroupSpotECM #Fixture QtyLamp WattsFixture WattsFixture HeightHours/DayDays/WeekFCSensor QtySensor / Power PackEnergy SavedSensor HeightACAddressCity99709Sandra Edwards(206) 303-0121 10/30/11PCB / PercentGolden Valley Electric15.600¢West Valley High SchoolAlaskaFairbanks3800 Geist RoadProject NameZip Code4.00%Fairbanks North Star(425) 806-9200(425) 806-74550.0000Maint. RateExisting / Proposed Fixture DescriptionLocationStateCountyOffice Phone #Office Fax #2/2/12Sq. FeetSurvey NotesFixture ID$10.7919804 141st Place NE Woodinville, WA 98072Mike CampbellNWE Contact Phone(509) 775-8021*E432 90 8 5P428 73 8 5*E432 122 2 5P428 82 2 5*E432 122 7.5 5P428 94 7.5 5Lamp and Ballast Retro with 4L F32 T8 28 watt, PRS NBF Ballast270Existing Troffer 4' w 4 F32 T8 32 watt Lamps, NBF Ballast 206 PrepET4432N206 PrepLB428NPLamp and Ballast Retro with 3L F32 T8 28 watt, PRS NBF Ballast269Existing Troffer 4' w 4 F32 T8 32 watt Lamps, NBF Ballast Lamp and Ballast Retro with 4L F32 T8 28 watt, PRS LBF Ballast268Existing Troffer 4' w 3 F32 T8 32 watt Lamps, NBF Ballast208 OfficeET4332N208 OfficeLB328NP207 StorageET4432N207 StorageLB428LPACACAlready controlled, retro w/PRS*E2332 90 7.5 5P2328 73 7.5 5*E2032 90 7.5 5P2028 73 7.5 5*E2032 122 7.5 5P2028 94 7.5 5*E1832 90 7.5 5P1828 73 7.5 5*E932 90 7.5 5P928 73 7.5 5*E132 61 12.75 5P128 42 12.75 5*E432 90 12.75 5P428 62 12.75 5Lamp and Ballast Retro with 3L F32 T8 28 watt, PRS NBF Ballast275Existing Troffer 4' w 3 F32 T8 32 watt Lamps, NBF BallastLamp and Ballast Retro with 3L F32 T8 28 watt, PRS NBF Ballast274Existing Troffer 4' w 3 F32 T8 32 watt Lamps, NBF Ballast202 CRET4332N202 CRLB328NPLamp and Ballast Retro with 2L F32 T8 28 watt, PRS LBF Ballast277Existing Wrap T8 4' w 3 F32 32 watt Lamp, NBF BallastLamp and Ballast Retro with 3L F32 T8 28 watt, PRS LBF Ballast276Existing Wrap T8 4' w 2 F32 32 watt Lamp, NBF BallastM2-1 RestroomEW4232NM2-1 RestroomLB228LP201 Seminar RoomET4332N201 Seminar RoomLB328NPM2-1 RestroomEW4332NM2-1 RestroomLB328LP271Existing Troffer 4' w 3 F32 T8 32 watt Lamps, NBF BallastLamp and Ballast Retro with 3L F32 T8 28 watt, PRS NBF BallastLamp and Ballast Retro with 3L F32 T8 28 watt, PRS NBF Ballast273Existing Troffer 4' w 4 F32 T8 32 watt Lamps, NBF Ballast Lamp and Ballast Retro with 4L F32 T8 28 watt, PRS NBF Ballast272Existing Troffer 4' w 3 F32 T8 32 watt Lamps, NBF Ballast204 CRET4332N204 CRLB328NP205 CRET4332N205 CRLB328NP203 CRET4432N203 CRLB428NPACACACACACACACThis information is proprietary, not to be disclosed to third parties without prior written permission from Northwest Edison.Energy Audit Calculation 32 of 38 2/2/2012 Energy AuditFacility ContactAuditor(s)Phone Ext. Audit DateBuilding ContactLast RevisedPhone Ext. Utility kWh Rate Demand RateTax RateFacility TypeHeatLamp ReplaceBallast ReplaceSecond Tier Start LevelGroupSpotECM #Fixture QtyLamp WattsFixture WattsFixture HeightHours/DayDays/WeekFCSensor QtySensor / Power PackEnergy SavedSensor HeightACAddressCity99709Sandra Edwards(206) 303-0121 10/30/11PCB / PercentGolden Valley Electric15.600¢West Valley High SchoolAlaskaFairbanks3800 Geist RoadProject NameZip Code4.00%Fairbanks North Star(425) 806-9200(425) 806-74550.0000Maint. RateExisting / Proposed Fixture DescriptionLocationStateCountyOffice Phone #Office Fax #2/2/12Sq. FeetSurvey NotesFixture ID$10.7919804 141st Place NE Woodinville, WA 98072Mike CampbellNWE Contact Phone(509) 775-8021*E232 61 12.75 5P228 42 12.75 5*E132 61 2 5P128 42 2 5*E3932 61 10 5P3928 42 10 5Lamp and Ballast Retro with 2L F32 T8 28 watt, PRS LBF Ballast279Existing Wrap T8 4' w 2 F32 32 watt Lamp, NBF BallastLamp And Ballast Retrofit w 2 F32 28 watt Lamp, LBF Ballast278Existing Strip T8 4' w 2 F32 32 watt Lamp, NBF Ballast M2-1 RestroomES4232NM2-1 RestroomLB228LPLamp And Ballast Retrofit w 2 F32 28 watt Lamp, LBF Ballast280Existing Vapor Tight T8 4' w 2 F32 32 watt Lamp, NBF BallastUp LadderEV4232NUp LadderLB228LJ8 CustodialEW4232NJ8 CustodialLB228LAC*E132 61 2 5P128 42 2 5*E132 90 2 5P128 42 2 5*E132 61 12.75 5P128 42 12.75 5*E132 61 12.75 5P128 42 12.75 5*E532 61 12.75 5P528 42 12.75 5*E232 61 12.75 5P228 42 12.75 5*E132 61 2 5P128 42 2 5Lamp and Ballast Retro with 2L F32 T8 28 watt, PRS LBF Ballast287Existing Wrap T8 4' w 2 F32 32 watt Lamp, NBF BallastLamp and Ballast Retro with 2L F32 T8 28 watt, PRS LBF Ballast286Existing Strip T8 4' w 2 F32 32 watt Lamp, NBF Ballast W2-1 RestroomES4232NW2-1 RestroomLB228LPJ9EW4232NJ9LB228LPTroffer Kit with Reflector 4' w 2 F32 28 watt Lamp, LBF Ballast283Existing Wrap T8 4' w 2 F32 32 watt Lamp, NBF BallastLamp and Ballast Retro with 2L F32 T8 28 watt, PRS LBF Ballast282Existing Troffer 4' w 3 F32 T8 32 watt Lamps, NBF Ballast200 Work Room StorageET4332N200 Work Room StorageTK4228LLamp and Ballast Retro with 2L F32 T8 28 watt, PRS LBF Ballast285Existing Wrap T8 4' w 2 F32 32 watt Lamp, NBF BallastLamp and Ballast Retro with 2L F32 T8 28 watt, PRS LBF Ballast284Existing Wrap T8 4' w 2 F32 32 watt Lamp, NBF BallastFT5 RestroomEW4232NFT5 RestroomLB228LPFT6 - RestroomEW4232NFT6 - RestroomLB228LPW2-1 RestroomEW4232NW2-1 RestroomLB228LP281Existing Troffer T8 4' w 2 F32 32 watt Lamp, NBF BallastLamp And Ballast Retrofit w 2 F32 28 watt Lamp, LBF BallastCloset in Short Hall to RestroomET4232NCloset in Short Hall to RestroomLB228LACACACACACThis information is proprietary, not to be disclosed to third parties without prior written permission from Northwest Edison.Energy Audit Calculation 33 of 38 2/2/2012 Energy AuditFacility ContactAuditor(s)Phone Ext. Audit DateBuilding ContactLast RevisedPhone Ext. Utility kWh Rate Demand RateTax RateFacility TypeHeatLamp ReplaceBallast ReplaceSecond Tier Start LevelGroupSpotECM #Fixture QtyLamp WattsFixture WattsFixture HeightHours/DayDays/WeekFCSensor QtySensor / Power PackEnergy SavedSensor HeightACAddressCity99709Sandra Edwards(206) 303-0121 10/30/11PCB / PercentGolden Valley Electric15.600¢West Valley High SchoolAlaskaFairbanks3800 Geist RoadProject NameZip Code4.00%Fairbanks North Star(425) 806-9200(425) 806-74550.0000Maint. RateExisting / Proposed Fixture DescriptionLocationStateCountyOffice Phone #Office Fax #2/2/12Sq. FeetSurvey NotesFixture ID$10.7919804 141st Place NE Woodinville, WA 98072Mike CampbellNWE Contact Phone(509) 775-8021*E132 61 2 5P128 42 2 5*E1232 90 7.5 5P1228 73 7.5 5*E732 90 7.5 5P728 73 7.5 5Lamp and Ballast Retro with 3L F32 T8 28 watt, PRS NBF Ballast290Existing Troffer 4' w 3 F32 T8 32 watt Lamps, NBF Ballast218 CRET4332N218 CRLB328NPLamp And Ballast Retrofit w 2 F32 28 watt Lamp, LBF Ballast289Existing Troffer 4' w 3 F32 T8 32 watt Lamps, NBF BallastLamp and Ballast Retro with 3L F32 T8 28 watt, PRS NBF Ballast288Existing Strip T8 4' w 2 F32 32 watt Lamp, NBF Ballast E10 ElectricalES4232NE10 ElectricalLB228L219 CRET4332N219 CRLB328NPACAC*E2032 90 7.5 5P2028 73 7.5 5*E2032 90 7.5 5P2028 73 7.5 5*E1632 90 18 7P1628 73 18 7*E6532 90 18 7P6528 62 18 7*E1332 90 24 7P1328 64 24 7*E632 32 18 7P628 22 18 7*E1632 90 7.5 5P1628 73 7.5 5Lamp and Ballast Retro with 3L F32 T8 28 watt, PRS LBF Ballast295Existing Strip T8 4' w 1 F32 32 watt Lamp, NBF Ballast Lamp And Ballast Retrofit w 1 F32 28 watt Lamp, LBF Ballast294Existing Troffer 4' w 3 F32 T8 32 watt Lamps, NBF BallastHall to 224-246ET4332NHall to 224-246LB328LPLamp and Ballast Retro with 3L F32 T8 28 watt, PRS NBF Ballast296Existing Troffer 4' w 3 F32 T8 32 watt Lamps, NBF Ballast225 CRET4332N225 CRLB328NPHall to 224-246ES4132NHall to 224-246LB128L294AHall to 224-246ET4332NExisting Troffer 4' w 3 F32 T8 32 watt Lamps, NBF Ballast291Existing Troffer 4' w 3 F32 T8 32 watt Lamps, NBF BallastLamp and Ballast Retro with 3L F32 T8 28 watt, PRS NBF BallastLamp and Ballast Retro with 3L F32 T8 28 watt, PRS NBF Ballast293Existing Troffer 4' w 3 F32 T8 32 watt Lamps, NBF BallastLamp and Ballast Retro with 3L F32 T8 28 watt, PRS NBF Ballast292Existing Troffer 4' w 3 F32 T8 32 watt Lamps, NBF Ballast221 CRET4332N221 CRLB328NP220 CRET4332N220 CRLB328NP224 CR in the Upstairs Common - Elevator LandingET4332N224 CR in the Upstairs Common - Elevator LandingLB328NPACACACACAC(13) on 24/7Hall to 224-246LB328LLamp And Ballast Retrofit w 3 F32 28 watt Lamp, LBF BallastThis information is proprietary, not to be disclosed to third parties without prior written permission from Northwest Edison.Energy Audit Calculation 34 of 38 2/2/2012 Energy AuditFacility ContactAuditor(s)Phone Ext. Audit DateBuilding ContactLast RevisedPhone Ext. Utility kWh Rate Demand RateTax RateFacility TypeHeatLamp ReplaceBallast ReplaceSecond Tier Start LevelGroupSpotECM #Fixture QtyLamp WattsFixture WattsFixture HeightHours/DayDays/WeekFCSensor QtySensor / Power PackEnergy SavedSensor HeightACAddressCity99709Sandra Edwards(206) 303-0121 10/30/11PCB / PercentGolden Valley Electric15.600¢West Valley High SchoolAlaskaFairbanks3800 Geist RoadProject NameZip Code4.00%Fairbanks North Star(425) 806-9200(425) 806-74550.0000Maint. RateExisting / Proposed Fixture DescriptionLocationStateCountyOffice Phone #Office Fax #2/2/12Sq. FeetSurvey NotesFixture ID$10.7919804 141st Place NE Woodinville, WA 98072Mike CampbellNWE Contact Phone(509) 775-8021*E132 90 7.5 5P128 48 7.5 5*E332 90 2 5P328 48 2 5*E1632 90 7.5 5P1628 73 7.5 5Troffer Kit with Reflector 4' w 2 F32 28 watt Lamp, NBF Ballast299Existing Troffer 4' w 3 F32 T8 32 watt Lamps, NBF BallastLamp and Ballast Retro with 3L F32 T8 28 watt, PRS NBF Ballast298Existing Troffer 4' w 3 F32 T8 32 watt Lamps, NBF BallastJ10 CustodialET4332NJ10 CustodialTK4228N227 CRET4332N227 CRLB328NP297Existing Troffer 4' w 3 F32 T8 32 watt Lamps, NBF BallastTroffer Kit with Reflector 4' 2L F32 T8 28 watt, PRS NBF Ballast226 Work RoomET4332N226 Work RoomTK4228NPACAC*E332 90 2 5P328 62 2 5*E1632 90 7.5 5P1628 73 7.5 5*E1632 90 7.5 5P1628 73 7.5 5*E1632 90 7.5 5P1628 73 7.5 5*E1432 183 7.5 5P2828 73 7.5 5*E132 61 12.75 5P128 42 12.75 5*E1232 90 7.5 5P1228 73 7.5 5Lamp and Ballast Retro with 3L F32 T8 28 watt, PRS NBF Ballast306Existing Troffer 4' w 3 F32 T8 32 watt Lamps, NBF Ballast233 CRET4332N233 CRLB328NPLamp and Ballast Retro with 3L F32 T8 28 watt, PRS NBF Ballast303Existing Troffer 4' w 3 F32 T8 32 watt Lamps, NBF BallastLamp and Ballast Retro with 3L F32 T8 28 watt, PRS NBF Ballast302Existing Troffer 4' w 3 F32 T8 32 watt Lamps, NBF Ballast230 CRET4332N230 CRLB328NPLamp and Ballast Retro with 3L F32 T8 28 watt, PRS NBF Ballast305Existing Wrap T8 4' w 2 F32 32 watt Lamp, NBF BallastLamp and Ballast Retro with 2L F32 T8 28 watt, PRS LBF Ballast304Existing Troffer T8 8' w 6 F32 32 watt Lamp, NBF Ballast232 CRET8632N232 CRLB328NP231 CRET4332N231 CRLB328NPFT7 RestroomEW4232NFT7 RestroomLB228LPLamp and Ballast Retro with 3L F32 T8 28 watt, PRS LBF Ballast301Existing Troffer 4' w 3 F32 T8 32 watt Lamps, NBF BallastLamp and Ballast Retro with 3L F32 T8 28 watt, PRS NBF Ballast300Existing Troffer 4' w 3 F32 T8 32 watt Lamps, NBF Ballast228 StorageET4332N228 StorageLB328LP229 CRET4332N229 CRLB328NPACACACACACACACThis information is proprietary, not to be disclosed to third parties without prior written permission from Northwest Edison.Energy Audit Calculation 35 of 38 2/2/2012 Energy AuditFacility ContactAuditor(s)Phone Ext. Audit DateBuilding ContactLast RevisedPhone Ext. Utility kWh Rate Demand RateTax RateFacility TypeHeatLamp ReplaceBallast ReplaceSecond Tier Start LevelGroupSpotECM #Fixture QtyLamp WattsFixture WattsFixture HeightHours/DayDays/WeekFCSensor QtySensor / Power PackEnergy SavedSensor HeightACAddressCity99709Sandra Edwards(206) 303-0121 10/30/11PCB / PercentGolden Valley Electric15.600¢West Valley High SchoolAlaskaFairbanks3800 Geist RoadProject NameZip Code4.00%Fairbanks North Star(425) 806-9200(425) 806-74550.0000Maint. RateExisting / Proposed Fixture DescriptionLocationStateCountyOffice Phone #Office Fax #2/2/12Sq. FeetSurvey NotesFixture ID$10.7919804 141st Place NE Woodinville, WA 98072Mike CampbellNWE Contact Phone(509) 775-8021*E1632 90 7.5 5P1628 73 7.5 5*E332 90 2 5P328 62 2 5*E1632 90 7.5 5P1628 73 7.5 5307Existing Troffer 4' w 3 F32 T8 32 watt Lamps, NBF BallastLamp and Ballast Retro with 3L F32 T8 28 watt, PRS NBF BallastLamp and Ballast Retro with 3L F32 T8 28 watt, PRS LBF Ballast309Existing Troffer 4' w 3 F32 T8 32 watt Lamps, NBF BallastLamp and Ballast Retro with 3L F32 T8 28 watt, PRS NBF Ballast308Existing Troffer 4' w 3 F32 T8 32 watt Lamps, NBF Ballast235 StorageET4332N235 StorageLB328LP234 CRET4332N234 CRLB328NP236 CRET4332N236 CRLB328NPACACAC*E1632 90 7.5 5P1628 73 7.5 5*E1632 90 7.5 5P1628 73 7.5 5*E1632 90 7.5 5P1628 73 7.5 5*E1632 90 7.5 5P1628 73 7.5 5*E332 90 2 5P328 62 2 5*E1632 90 7.5 5P1628 73 7.5 5*E132 61 12.75 5P128 42 12.75 5Lamp and Ballast Retro with 3L F32 T8 28 watt, PRS LBF Ballast315Existing Troffer 4' w 3 F32 T8 32 watt Lamps, NBF BallastLamp and Ballast Retro with 3L F32 T8 28 watt, PRS NBF Ballast314Existing Troffer 4' w 3 F32 T8 32 watt Lamps, NBF Ballast241 StorageET4332N241 StorageLB328LPLamp and Ballast Retro with 2L F32 T8 28 watt, PRS LBF Ballast316Existing Wrap T8 4' w 2 F32 32 watt Lamp, NBF BallastFT8 RestroomEW4232NFT8 RestroomLB228LP242 CRET4332N242 CRLB328NPLamp and Ballast Retro with 3L F32 T8 28 watt, PRS NBF Ballast311Existing Troffer 4' w 3 F32 T8 32 watt Lamps, NBF BallastLamp and Ballast Retro with 3L F32 T8 28 watt, PRS NBF Ballast310Existing Troffer 4' w 3 F32 T8 32 watt Lamps, NBF Ballast237 CRET4332N237 CRLB328NPLamp and Ballast Retro with 3L F32 T8 28 watt, PRS NBF Ballast313Existing Troffer 4' w 3 F32 T8 32 watt Lamps, NBF BallastLamp and Ballast Retro with 3L F32 T8 28 watt, PRS NBF Ballast312Existing Troffer 4' w 3 F32 T8 32 watt Lamps, NBF Ballast239 CRET4332N239 CRLB328NP238 CRET4332N238 CRLB328NP240 CRET4332N240 CRLB328NPACACACACACACACThis information is proprietary, not to be disclosed to third parties without prior written permission from Northwest Edison.Energy Audit Calculation 36 of 38 2/2/2012 Energy AuditFacility ContactAuditor(s)Phone Ext. Audit DateBuilding ContactLast RevisedPhone Ext. Utility kWh Rate Demand RateTax RateFacility TypeHeatLamp ReplaceBallast ReplaceSecond Tier Start LevelGroupSpotECM #Fixture QtyLamp WattsFixture WattsFixture HeightHours/DayDays/WeekFCSensor QtySensor / Power PackEnergy SavedSensor HeightACAddressCity99709Sandra Edwards(206) 303-0121 10/30/11PCB / PercentGolden Valley Electric15.600¢West Valley High SchoolAlaskaFairbanks3800 Geist RoadProject NameZip Code4.00%Fairbanks North Star(425) 806-9200(425) 806-74550.0000Maint. RateExisting / Proposed Fixture DescriptionLocationStateCountyOffice Phone #Office Fax #2/2/12Sq. FeetSurvey NotesFixture ID$10.7919804 141st Place NE Woodinville, WA 98072Mike CampbellNWE Contact Phone(509) 775-8021*E1632 90 7.5 5P1628 73 7.5 5*E2032 90 7.5 5P2028 73 7.5 5*E1432 183 7.5 5P2828 73 7.5 5Lamp and Ballast Retro with 3L F32 T8 28 watt, PRS NBF Ballast319Existing Troffer T8 8' w 6 F32 32 watt Lamp, NBF BallastLamp and Ballast Retro with 3L F32 T8 28 watt, PRS NBF Ballast318Existing Troffer 4' w 3 F32 T8 32 watt Lamps, NBF Ballast244 CRET4332N244 CRLB328NP245 CRET8632N245 CRLB328NP317Existing Troffer 4' w 3 F32 T8 32 watt Lamps, NBF BallastLamp and Ballast Retro with 3L F32 T8 28 watt, PRS NBF Ballast243 CRET4332N243 CRLB328NPACACAC*E1632 90 7.5 5P1628 73 7.5 5*E332 90 10 5P328 42 10 5*E3032 90 2 5P3028 64 2 5*E632 61 12.75 5P628 42 12.75 5*E232 61 12.75 5P228 42 12.75 5*E632 61 12.75 5P628 42 12.75 5*E332 61 12.75 5P328 42 12.75 5Lamp and Ballast Retro with 2L F32 T8 28 watt, PRS LBF Ballast326Existing Strip T8 4' w 2 F32 32 watt Lamp, NBF Ballast W2-2 RestroomES4232NW2-2 RestroomLB228LPLamp And Ballast Retrofit w 3 F32 28 watt Lamp, LBF Ballast323Existing Wrap T8 4' w 2 F32 32 watt Lamp, NBF BallastLamp and Ballast Retro with 2L F32 T8 28 watt, PRS LBF Ballast322Existing Strip T8 4' w 3 F32 32 watt Lamp, NBF Ballast M6 Mechanical - A11 - E8+E9ES4332NM6 Mechanical - A11 - E8+E9LB328LLamp and Ballast Retro with 2L F32 T8 28 watt, PRS LBF Ballast325Existing Wrap T8 4' w 2 F32 32 watt Lamp, NBF BallastLamp and Ballast Retro with 2L F32 T8 28 watt, PRS LBF Ballast324Existing Strip T8 4' w 2 F32 32 watt Lamp, NBF Ballast M2-2 RestroomES4232NM2-2 RestroomLB228LPM2-2 RestroomEW4232NM2-2 RestroomLB228LPW2-2 RestroomEW4232NW2-2 RestroomLB228LPLamp and Ballast Retro with 3L F32 T8 28 watt, PRS NBF Ballast321Existing Strip T8 4' w 3 F32 32 watt Lamp, NBF Ballast Lamp And Ballast Retrofit w 2 F32 28 watt Lamp, LBF Ballast320Existing Troffer 4' w 3 F32 T8 32 watt Lamps, NBF Ballast246 CRET4332N246 CRLB328NPM 6AES4332NM 6ALB228LACAC841ACACACThis information is proprietary, not to be disclosed to third parties without prior written permission from Northwest Edison.Energy Audit Calculation 37 of 38 2/2/2012 Energy AuditFacility ContactAuditor(s)Phone Ext. Audit DateBuilding ContactLast RevisedPhone Ext. Utility kWh Rate Demand RateTax RateFacility TypeHeatLamp ReplaceBallast ReplaceSecond Tier Start LevelGroupSpotECM #Fixture QtyLamp WattsFixture WattsFixture HeightHours/DayDays/WeekFCSensor QtySensor / Power PackEnergy SavedSensor HeightACAddressCity99709Sandra Edwards(206) 303-0121 10/30/11PCB / PercentGolden Valley Electric15.600¢West Valley High SchoolAlaskaFairbanks3800 Geist RoadProject NameZip Code4.00%Fairbanks North Star(425) 806-9200(425) 806-74550.0000Maint. RateExisting / Proposed Fixture DescriptionLocationStateCountyOffice Phone #Office Fax #2/2/12Sq. FeetSurvey NotesFixture ID$10.7919804 141st Place NE Woodinville, WA 98072Mike CampbellNWE Contact Phone(509) 775-8021*E12 250 295 12 7P12 175 208 12 7*E1870 91 12 7P1850 67 12 7*E38 400 464 12 7P38 320 368 12 7327Existing Fixture High Pressure Sodium 250 watt LampPulse Start Metal Halide Retrofit 175 watt Pulse Start Metal Halide Retrofit 50 watt329Existing Fixture High Pressure Sodium 400 watt LampPulse Start Metal Halide Retrofit 320 watt 328Existing Fixture High Pressure Sodium 70 watt LampExteriorEFHPS70ExteriorPSMHR50ExteriorEFHPS250ExteriorPSMHR175ExteriorEFHPS400ExteriorPSMHR320Existing triangular uplight or downExisting triangular pole light, 2 bolt, 33'*E7150 188 12 7P7100 129 12 7*E25 400 464 12 7P25 320 368 12 7*E3,512P3,58757Existing Fixture TotalProposed Fixture TotalSensor TotalPulse Start Metal Halide Retrofit 100 watt331Existing Fixture High Pressure Sodium 400 watt LampPulse Start Metal Halide Retrofit 320 watt 330Existing Wall Pack High Pressure Sodium 150 watt LampExteriorEWHPS150ExteriorPSMHR100ExteriorEFHPS400ExteriorPSMHR320Flood on wood pole @ 32' over bull horn, Retro horizontalThis information is proprietary, not to be disclosed to third parties without prior written permission from Northwest Edison.Energy Audit Calculation 38 of 38 2/2/2012 Lighting - Calculations and Common Conversions Sample Calculation: Fixture Quantity = 52 Existing Fixture (Troffer T8 4’ w 3 F32 32 watt lamp NBF) Proposed Fixture (Light & Ballast retrofitted with 3 lamp F32 T8 28 watt lamp PRS NBF Ballast) Existing Wattage Lamp Wattage = 32 Watts Proposed Wattage Lamp Wattage = 28 Watts Existing Watts/Fixture = 85 Watts Proposed Watts/Fixture = 73 Watts Existing Lighting Power: [ kWEX ] ((# Fixtures) EX x (Watts / Fixture) EX) / (1,000 W/kW) = kWEX 52 x 85/1000 = 4.42 kW (existing) Proposed Lighting Power: [kWPR] ((# Fixtures) PR x (Watts / Fixture) PR) / (1,000 W/kW) = kWPR 52 x73/1000 = 3.796 kW (proposed) Existing Lighting Power Consumption: [kWhEX] (kWEX) x (Annual Burn Hours) = kWhEX 4.42 kW (existing) x (12 hrs/day)x (7days/wk) x 48 wks./year = 17, 821.44 kWh (Existing) Proposed Lighting Power Consumption: [kWhPR] (kWPR) x (Annual Burn Hours) = kWhPR 3.796 kW (proposed) x (12 hrs/day)x (7days/wk) x 48 wks./year = 15, 305.47 kWh (Proposed) The following calculations were performed on a building-by-building basis: Annual Lighting Power Savings: [KwLGHT] (kWEX) – (kWPR) = KwLGHT 4.42 kW – 3.796 kW = .0624 kW Annual Lighting Power Consumption Savings: [kWhLGHT] (kWhEX) – (kWhPR) = kWhLGHT 17,821.44 kWh – 15,305.47 kWh= 2,515.96 kWh Illuminating Engineering Society of North America (IESNA) RECOMMENDED LIGHT LEVELS Table 1.00a – IESNA Lighting Levels Type of Space Category Foot-candles Assembly Areas C2 10 to 15 Office Areas C & E 20 to 50 Dining Areas B3 5 Retail Areas E 50 Classroom Areas C & E 20 to 50 Corridors A 5 Restrooms B 5 Misc. C 10 to 15 Exit/Emergency B 5 Mechanical Rooms C 10 to15 Stairwells A 3 Gymnasium Various 30 to 50 Shop Areas E 50 Target illuminances are based on the recommendations of the IESNA. Space Type Lighting Power Allowance (LPA) W/Sq. Ft. Light Level Target (Foot- candles) CLP Allowance Other Lighting Auditorium 1.4 10 Banking Activity Area 1.8 A 50 Break Room (Dining) 1.3 30 Classroom / Lecture Hall / Training room 1.4 30 Closet 0.9 N/A Conference / Meeting Room 1.4 A 30 Convention Hall Multipurpose Area 1.4 A 30 Corridor 0.7 5 Dining 1.3 A 10 Electrical / Mechanical Area 0.9 N/A Examination Room (Medical) 1.4 D 50 Exercise Area 1.0 A 50 Exhibition Hall 3.0 10 Financial Institution 1.8 A 30 Food Preparation (Kitchen area) 2.0 50 Grocery Store General Merchandise Area 1.9 C 50 Gymnasium Playing Area 1.7 60 Hotel Function Area 2.2> A 30 Hotel Lobby 1.7 A 10 Industrial Area < 20ft. ceiling height 1.9 30 Industrial Area > 20ft. ceiling height 2.7 30 Kitchen / Food Preparation 2.0 50 Laboratory Medical 1.4 D 50 Laboratory - Industrial 1.9 50 Library 1.6 A 30 Lobby - Hotel 1.7 A 10 Lobby - Waiting Area (Other Buildings) 0.9 A 10 Mall General Sales Area (see Retail Sales) Mall Arcade / Atrium / Concourse 1.3 30 Manufacturing (Industrial) Area < 20ft. ceiling height 1.9 50 Manufacturing (Industrial) Area > 20ft. ceiling height 2.7 50 Medical and Clinical Care 1.4 D 50 Multipurpose Room (Meeting Room) 1.4 A 30 Museum 1.4 10 Nurses Stations (Medical) 1.4 D 30 Office, Private (< 300 sq. ft.) 1.4 50 Office, Open Plan (> 300 sq. ft.) 1.4 30 Reception Area (Lobby) 0.9 A 30 Religious Worship 2.9 A 10 Restaurant 1.5 A 30 Restroom 0.7 10 Retail Sales Fine Merchandise Area 1.9 C1 30 Retail Sales General Merchandise Area and Wholesale Showroom 1.9 C 30 Shipping (Industrial) Area < 20ft. ceiling height 1.9 30 Shipping (Industrial) Area > 20ft. ceiling height 2.7 30 Stairs (Support Area) 0.7 5 Storage - Industrial, Commercial 0.9 10 Theater - Motion Picture 0.9 10 Theater - Motion Picture, Lobby 0.9 A 30 Theater - Performance 1.4 10 Warehouse Area < 20ft. ceiling height 1.9 10 Warehouse Area > 20ft. ceiling height 2.7 10 "Other Lighting" Codes: A: plus 0.9 W/Sq. Ft. for Accent Lighting C: plus 1.4 W/Sq. Ft. for Accent Lighting C1: plus 3.5 W/Sq. Ft. for Accent Lighting D: plus 0.9 W/Sq. Ft. for Medical Lighting Lighting on the walls and ceiling improves lighting quality. Numbers refer to quality issues in chart below. Good lighting promotes better learning. Today’s schools must provide a stimulating environment where children will learn best. High quality lighting improves students’ moods, behavior, concentration, and therefore their learning.1 1 - Adapted from “Designing the Future,” AIA Center for Building Performance. Lighting quality means visual comfort, good color, uniformity and balanced brightness. This can be achieved with light- colored materials, glare control, distribution of light to ceiling and walls, and flexible lighting controls. These factors contribute to long-term system performance and aid in student concentration. Shadows, glare, lamp flicker or chaotic patterns can be distracting and should be avoided. (See the chart below for the importance of quality factors.) This guide gives you the knowhow to provide “energy effective” lighting for classrooms – lighting systems that optimize energy use while creating a productive, comfortable, and adaptable learning environment. Energy effective lighting is the best use of financial and natural resources. CLASSROOM LIGHTING “ENERGY EFFECTIVE”LIGHTING FOR CLASSROOMS:COMBINING QUALITY DESIGN AND ENERGY EFFICIENCY TOPICS: The Value of Lighting Quality Lighting Controls Daylighting General Classroom Layouts Computer Classroom Layouts Corridor Layouts Lighting Fixture Specifications QUALITY ISSUES FOR SCHOOL LIGHTING Classrooms with windows help keep children alert. See back page for more information on daylighting. CLASSROOM LIGHTING George Leisey/Photographer, Bellows Falls, VTACHIEVING BETTER & BETTER YET RESULTS Classrooms often are lighted by recessed parabolic fluorescent 2’ x 4’ or 2’ x 2’ fixtures, systems that may not provide the best quality of light for learning. This knowhow guide shows you energy effective solutions that will deliver Better quality with improved energy efficiency. The Better Yet solutions identify further improvements, providing even greater long-term value for schools. know how better yet better yet 1 2 Copyright 2002, Northeast Energy Efficiency Partnerships, Inc. All Rights Reserved. Any use, reproduction or distribution of knowhow or its contents without the express written consent of NEEP is prohibited. Contact www.neep.org or (781) 860-9177 ext. 10. General Computer School Classroom Classroom Corridor Light on walls and ceilings on photo above Control of direct and reflected glare Uniformity Daylight Color rendering and color temperature Lighting controls Quantity of light (horizontal footcandles) 40-50 fc 20-40 fc 10 vert. fc Ve ry Important Important Somewhat Important * Adapted from the Lighting Design Guide. IESNA Lighting Handbook, 9th Edition 1 2 3 4 4 3 CONTROL GLARE Glare occurs when bright light sources and reflections interfere with the viewing of less bright objects. This high contrast may be uncomfortable or even disabling. Direct Glare is caused by fixtures located in front of students. Overhead Glare is caused by fixtures directly overhead. Reflected Glare is caused by bright reflections in surfaces such as glossy papers, shiny surfaces or computer screens. Glare control is especially important in flexible classrooms where desks and tables may face any direction, or in rooms with full time computer use.knowhow classroom lighting2 how to achieve lighting quality COLORS & FINISH TIPS • Acoustic ceiling tiles are often only 70% reflective. Specify 80% or higher. Ceiling tile and paint companies list these values in their product specifications. • Choose wall colors that are light in color (pastels) and at least 65% reflective. • Choose furniture that is light in color (60% or higher). • Always use matte (not shiny or high gloss) surface finishes for walls, ceilings, and furniture. •Limit the use of primary or saturated colors to accents or wainscots, since they absorb a lot of light. ACCENT FOCAL WALLS The brightest surfaces should be the most important surfaces. Lighting the focal walls helps teachers catch and hold students’ attention as well as to improve the visibility of information. • For rooms where desks face one direction, provide focal lighting on the front wall or board. • For multi-purpose spaces, provide focal lighting on two or three walls. • Dedicate light fixtures (such as Type H, J, K) to accent these surfaces. • Light levels on boards or focal walls should be at least equal to light levels on the desktop, or up to twice that level if the board is green or black. For uniformity, the edges of the board should not be less than 1/3 the brightness of the center. • Locate fixtures 1 to 3 feet from the board or vertical surface so that light reflections do not obscure information on the board. CREATE BALANCED BRIGHTNESS Light levels throughout the classroom should not differ greatly from the light level on the desks. Large variations in brightness will cause distraction and fatigue. • Use pendant light fixtures that direct at least 50% of the light upward. • Avoid high contrast. The brightest and darkest room surfaces should be no greater than 3 times or 1/3 as bright as the task (preferred) or 10 times or 1/10 as bright as the task (maximum). • For best student concentration, the brightest surfaces should be desk tops and focal walls. • Use only semi-specular or white louvers to prevent harsh wall patterns. GLARE PREVENTION TIPS • Distribute light to walls and ceilings. Bi-directional fixtures such as A, D, and E (see p. 7) work well. • Use daylight to light walls and ceilings. • Use adjustable blinds or shades that control window glare while retaining view. • Choose higher reflectance room surfaces. • Select only semi-specular or white painted louvers and reflectors. Avoid mirrored or specular (shiny) reflectors or louvers that can be seen from any angle. • Shield the lamp from view with baffles, louvers, lenses or diffusing overlays. • Use lamps of lower brightness. Use more fixtures if necessary. • Only use T5, T5HO and T5 biaxial lamps in coves or indirect applications where the lamp is not visible by classroom users. • Use no more than three (3) T8 lamps in 2’ x 4’ fixtures. 10:1 2:1 1:3 USE HIGHER REFLECTANCES A small increase in room reflectances (lighter-colored surfaces) greatly improves efficiency. The lighter-colored room (below) provides 55% more light on the work surface for the same energy or uses 70% less energy for equivalent brightness. The lighter-colored room also provides better daylight distribution, improves brightness ratios, and is more visually comfortable. These significant improvements are possible at little or no additional cost. Light is both reflected and absorbed by surfaces. Lighter colors reflect more than darker colors. When more light is reflected, room surfaces become more uniform and visually comfortable. Reflectances are deceiving – surfaces absorb more light than you think! Don’t guess: verify finish reflectances with manufacturers. 40% 20% 70% 40% 90% 70% 70% 40% DAYLIGHTING CONTROLS AND PHOTOSENSORS • Orient fixtures parallel to window wall. (See layouts 1 to 5.) • Control each row of lamps separately. • Continuous dimming is much better than switching – there are no distractions and greater energy savings. Electronic dimming ballasts typically dim to 10% of full output. • Start dimming when combined light levels exceed 125% of designed light level. • Specify photosensors of the “continuous response” type. • Use “open loop” controls, i.e. photosensor is located to respond to daylight only, rather than located to sense daylight and the electric light source being controlled. (See windows.lbl.gov/daylighting/designguide/ designguide.htm for reference.) • Specify a 60 second time delay to allow for temporary cloud cover.knowhow classroom lighting3 lighting controls Conserve Energy by: • Reducing power.Use energy efficient sources, ballasts and luminaires. The power limit* for schools is 1.5 w/sf total connected load. • Reducing energy use.Provide lighting controls to reduce the time of use (by switching) or level of power (by dimming). •Wise design.Integrate daylight, room surfaces and layouts. • Proper maintenance.Clean surfaces, group relamp, calibrate controls. * ANSI/ASHRAE/IESNA Std. 90.1 - 2001 OCCUPANCY SENSOR (OS) & PHOTOSENSOR (PS) TIPS Optimum product locations, coverage areas and wiring requirements vary between products – work closely with manufacturers to verify appropriate coverage, installation and location. Redesign may be required if products are substituted during construction. Lighting controls give teachers the flexibility to set the lighting level to match the tasks being performed. Controls also turn off lights automatically in an empty room or dim the electric lights when there is enough daylight. For lighting controls to operate properly, they must be checked and set at the beginning of each school year. Calibration and maintenance of lighting controls are essential for energy conservation. MULTI-LEVEL SWITCHING • Avoid less-efficient one-lamp ballasts. Use master-slave wiring between adjacent fixtures and use multi-lamp ballasts. (See layouts 1, 6 & 7.) • Use switchable two-level ballasts for three-lamp fixtures. Occupants can choose between two levels of light while maintaining uniform distribution. SEPARATE ROW SWITCHING • Provide multiple levels in a uniform pattern by factory-wiring each row of lamps separately (shown below) or dimming. Avoid distracting switching patterns. * As compared to standard manual switching for a 5,000 sq. ft. building with a 1.2 watts per sq. ft. connected load. MATCH CONTROLS TO ROOM TYPES PS General Computer School Potential Classroom Classroom Corridor Energy Savings * Ceiling Occupancy Sensor, Manual-On, Auto-Off 30% Multi-Level Switching with Ceiling Occupancy Sensor 35% Daylight Controls with Occupancy Sensor 45% Multi-Level Switching 15% Building Time Controls 10% Appropriate Sometimes Appropriate Not Appropriate George Leisey/Photographer, Bellows Falls, VTThe row of lights closest to the window dims in response to daylight. OCCUPANCY SENSORS • Require that lights turn off automatically when spaces are not occupied. • Use manual-on automatic switches (AS) with ceiling or wall mounted sensors (OS) for all spaces with daylight or receiving spill light from other rooms. Manual-on prevents unnecessary activation when daylight is adequate or when doors are opened. The switches also allow the lights to be turned off for AV purposes. • Manual-off is recommended only as a temporary override. Sensor must stay in automatic-off mode at all times. • Use ultrasonic sensors – they are more sensitive than infrared to subtle motion and less likely to turn lights off in an occupied room. Dual technology is not required when sensor is to be used with manual-on capability. • Set sensors for medium to high sensitivity and 10-minute delay. • Locate sensors inside classrooms so they do not “see” corridor motion. AS OS classroomlighting knowhow classroom lightingLAYOUT 2 - BETTER LAYOUT 3 – BETTER YET What Makes Layout 3 ‘Better Yet’? • Combination direct/indirect more comfortable than totally direct or surface systems. Works well for part-day computer use. • Direct/indirect more energy efficient than totally indirect systems. • Pendants faster to install than recessed fixtures, and easier to maintain. • Most cost effective. Greatest long-term value for investment. • Overhead glare not a problem, due to T8 lamp and lighted ceiling. • Wide distribution and white louvers reduce contrast and increase uniformity. • Separate light fixtures accentuate front board. Controls Upgrade:3 Provide dimming ballasts and photosensor for better control of light levels. Alternative 3A:Use Type D T-8 fixtures with parabolic louvers, to provide more shielding for intensive computer use. What Makes Layout 2 ‘Better’? • More visually comfortable than recessed or totally direct fixtures. • Wider distribution puts more light on walls. • White louvers and spill light on ceiling reduce fixture glare. • Two-level switching of continuous rows more uniform. • Best choice for ceiling lower than 8’-9’. Controls Upgrade:Switch fixture adjacent to window separately, and connect to photosensor for automatic response to daylight. This is more reliable than leaving daylight control to the teachers. Alternative 2A:Add 3” stems and diffuser on top, to increase light on ceiling. LAYOUT TIPS FOR WIDER ROOMS • For rooms 28 to 34 feet wide with continuous windows along the long wall, consider shifting both rows of fixtures 2 to 4 feet farther away from the windows. • For rooms 34 to 38 feet wide, use three rows of fixtures. • Perform lighting level calculations to verify expected light levels. master-slave wiring general and multi-purpose classrooms K A J B H D COMPARISON CHART FOR GENERAL CLASSROOMS For classrooms from 750 to 850 sf. Base Case1 Layout 1 Layout 2 Layout 3 Interest Uniformity Comfort & Quality Power Density (w/sf)1.32 1.01 1.16 1.16 Energy Savings (Potential %)2 Base 46% 40% 40% First Cost (% Increase)Base 40% 170% 115% Maintained Footcandles (fc) 50-60 45-50 45-50 45-50 OVERALL VALUE ACCEPTABLE BETTER BETTER YET Layouts shown will meet light level requirements and current energy codes if they are within the given size ranges, between 8’0” and 9’6” ceiling heights. 1 - Base case assumptions used for comparison are 12 fixtures, recessed 3-lamp 2’x4’ parabolic 12- cell with T8 electronic ballasts and two-level switching. 2 - Includes savings due to controls shown. Control upgrades will yield greater energy savings. 3 - Go to www.designlights.org/classroomwiring/ for schematic daylighting control diagrams. C What Makes Layout 1 ‘Acceptable’? • Fixtures are oriented parallel to window; best for front focus, multipurpose uses, and daylighting. • Fixtures use minimum 3” deep louver for greater comfort. • Separate light on front board increases visibility and student attentiveness. • Master-slave wiring saves energy by using multi-lamp ballasts. • Occupancy sensors with manual-on switches save more energy in daylit spaces. See page 7 for complete fixture specifications.ACCEPTABLEBETTER BETTER YET 4 LAYOUT 1 – ACCEPTABLE 34’ 10’ 16’ 12’ 12’ 24’ 16’ OS AS OS AS OS AS 5 LAYOUT 4 – BETTER LAYOUT 5 – BETTER YET computer classrooms What Makes Layout 5 ‘Better Yet’? • Combination direct/indirect more comfortable than totally direct. • Direct/indirect more energy efficient than totally indirect. • More cost effective. Greatest value for investment. • T8 lamp and lighted ceiling prevent overhead glare. • Higher light levels and 2-level switching more flexible for computer rooms with paper tasks. • Separate fixtures used for front board when video screen not in use. Controls Upgrade:Provide dimming ballasts and wall box dimmer for better light level control. Alternative 5A:Same layout. Use Type E three-lamp T-8 fixtures. • Direct and indirect components can be controlled separately. • Greatest flexibility for rooms used for both computers and paper tasks. What Makes Layout 4 ‘Better’? • Indirect lighting more comfortable than totally direct systems. • No overhead glare. • Greater uniformity of light on ceilings and walls. • Two levels of control provide flexibility and energy savings. • Glowing sides reduce contrast, increase comfort. • Pendant fixtures faster to install and easier to maintain. Controls Upgrade:Provide a third switch to control lamps nearest the front of the room for better contrast on video screen. Alternative 4A:Same layout. Use fixture Type F1 with T5HO lamps. (See T5 box on page 6.) • High lumen output of the T5HO lamp requires half the amount of lamps. • Illuminance decreased. Appropriate for computer use only. J D E F1 “Pendant fixtures can save installation time and cost, since they only require one power feed at the end of each row.” Electrical Contractor, Braza Electric Use A Different Approach for Computer Rooms • Avoid totally direct lighting systems. • Recessed fixtures leave ceilings dark. Contrast between bright lamps or lens and dark ceiling is too great for computer rooms. • Specular (shiny) louvers or reflectors create overhead glare (see diagram)and harsh patterns. • Small-cell louvers are very inefficient and create cave-like rooms. • Always provide some light on ceiling and walls. Distribute light as uniformly as possible. COMPARISON CHART FOR COMPUTER CLASSROOMS For computer classrooms from 750 to 850 sf. Base Case1 Layout 4 Alt. 4A Layout 5 Interest Uniformity Comfort & Quality Power Density (w/sf)1.32 1.01 1.01 1.01 Energy Savings (Potential %)2 Base 46%46% 46% First Cost (% Increase) Base 12%30% 30% Maintained Footcandles (fc) 40-50 35-40 30-35 35-40 OVERALL VALUE BETTER BETTER BETTER YET Layouts shown will meet light level requirements and current energy codes if they are within the given size ranges, between 8’6" and 9’6" ceiling heights. 1 - Base case used for comparison is 12 fixtures, recessed 3-lamp 2’ x 4’ deep-cell VDT parabolic, 27-cells, with T8 electronic ballasts and two-level switching. 2 - Includes savings due to controls shown. Control upgrades will yield greater energy savings. OVERHEAD GLARE ZONE LUMINAIRE SHIELDING ANGLE "NORMAL ANGLES" OF VIEW (45°) F 16’ 34’ 12’ 12’ 10’ AS OS AS OS knowhow classroom lightingPhoto by Whitney Cox. Courtesy of Norman Rosenfeld Architect. 6knowhow classroom lightingschool corridors LAYOUT 7 – BETTER YET What Makes Layout 6 ‘Better’? • One-lamp fixtures, oriented parallel to corridor, provide uniform distribution on lockers and walls. • Master-slave ballast wiring saves energy by using multi-lamp ballasts. What Makes Layout 7 ‘Better Yet’? • Surface mounted fixture allows for greater ceiling height. • Works well with any tile system and access panels. • Wide distribution and white louvers provide most uniformity. SCHOOL CODE TIP If your state code requires minimum light levels, consider: • Computer calculations for greater accuracy. • Precise definition of task area. • High output ballasts. • Higher room reflectances. 1-Base case assumptions used for comparison are 2’x4’ lensed fixtures, with two T8 lamps and electronic ballasts, spaced 12’ on center, oriented perpendicular to the corridor, and on time clock control. 2-Includes savings due to controls shown. Layout tips for wider corridors: Layout 7 works for 10’ corridor. Layout 6 limited to 9’ corridor. master-slave ballast wiring LAYOUT 6 – BETTER M L COMPARISON CHART FOR SCHOOL CORRIDORS For corridors up to 9 feet wide. Base Case1 Layout 6 Layout 7 Interest Uniformity Comfort & Quality Power Density (w/sf) 0.61 0.49 0.49 Energy Savings (Potential %)2 Base 20% 20% First Cost (% Increase) Base 60% 23% Maintained Footcandles (fc)3 on walls 5-15 8-12 8-12 OVERALL VALUE ACCEPTABLE BETTER BETTER YET T5 LAMPS T5 lamps are not a replacement for T8 lamps. They are different lengths, use different sockets and ballasts, and have different pros and cons. Advantages: • Smaller size allows for greater reflector control. • Smaller lamps and ballasts allow for smaller fixtures. • Higher lumen output (T5HO) reduces the number of lamps and ballasts to maintain. • Costs for T5 fixtures are competitive with T8 fixtures. • Efficiency of T5 and T8 systems are comparable. Disadvantages: • Excessive brightness of T5 and T5HO limits their use to primarily indirect fixtures. • Current replacement cost of components (lamps and ballasts) higher than T8, but will reduce over time. • Using one T5HO lamp instead of two T8 lamps eliminates two-level switching options. • Adds an additional lamp type to a project, complicating ordering, maintenance and repair. USE ENERGY EFFICIENT SOURCES Fluorescent lighting today is not only more energy efficient, but rivals incandescent in quality, comfort and aesthetics. Lamps are available in a variety of superior colors providing a natural appearance for people and room colors. Electronic high frequency ballasts eliminate the flicker and noise of older model ballasts. The graph compares efficacies (mean lumens per watt) of common fluorescent lamp/ ballast combinations with the efficacy of a tungsten halogen (incandescent) lamp. Lamp/Ballast Efficacies 0 20 40 60 80 100 T8 & T5 T5 HO Mean Lumens Per WattLamp Types T5 Twin CFL Tu ngsten Halogen lamp and ballast specifications The following specifications apply to all of the fixture types shown on page 7 for both T8 and T5 linear fluorescent systems. Lamp Criteria: • Minimum Color Rendering Index (CRI) of 80. • Color temperature of 3500 Kelvin or 4100 Kelvin. Provide mockup for other colors. Note: Generic color code "835" means CRI of 80 and color temperature of 3500. • Mean lamp lumens (at 40% of rated life) at least 94% of initial lumens. Ballasts and Lamp-Ballast System Criteria: • High-frequency electronic using instant start or program rapid start circuitry. • Harmonic distortion shall not exceed 20%. • Ballast factor minimum 0.88 for T8 and 1.0 for T5. • Consider "low" or "high" ballast factor ballasts to optimize lamp count, input watts, and power density. Limit any ballast type to only one type of fixture. • Mean system efficacy (mean lamp lumens times # of lamps divided by ballast input power): Minimum 83 lumens/watt for 4’ long T8 at 25°C and minimum 80 lumens/watt for 4’ long T5HO at 35°C. L1 M1 8’ 34’ 8’ A+ knowhow classroom lightingA. Pendant Direct/Indirect Baffled LAMPS: (2) 32W T8 fluorescent, 835 color DESCRIPTION: Pendant mounted. White cross- baffles. Minimum 35° lengthwise shielding. Wire for separate row switching. Multi-lamp ballasts. 80% min. fixture efficiency. Nominal 59 watts per (2) lamps. F and F1. Pendant Indirect – Perforated Sides LAMPS: (2) 32W T8 fluorescent, 835 color DESCRIPTION: Pendant mounted. 85% indirect component with perforated sides. Wire for separate row switching. Multi-lamp ballasts. 78% min. fixture efficiency. Nominal 59 watts per (2) lamps. Alternative F1: (1) 54W T5HO lamp, 95% indirect component. 88% min. fixture efficiency. Nominal 117 watts per (2) T5HO lamps. D. Pendant Direct/Indirect Parabolic LAMPS: (2) 32W T8 fluorescent, 835 color DESCRIPTION: Pendant mounted. Semi-specular low-iridescent parabolic cross-baffles minimum 1-3/4" deep, 3" on center. Wire for separate row switching. Multi-lamp ballasts. 80% min. fixture efficiency. Nominal 59 watts per (2) lamps. C. Two-Lamp Recessed Parabolic 2’ x 4’ LAMP: (2) 32W T8 fluorescent, 835 color DESCRIPTION: Recessed. White baked enamel reflector (minimum 90% reflectance) and minimum 3" deep parabolic louvers. 12 cells. Wire for separate row switching. Multi-lamp ballasts. 76% min. fixture efficiency. Nominal 59 watts per (2) lamps. B. Surface Mounted Baffled, Wide Distribution LAMPS: (2) 32W T8 fluorescent, 835 color DESCRIPTION: Same as Type ‘A’ except surface mounted. Luminous sides for wide distribution. 60% min. fixture efficiency. lighting fixture schedule A These specifications are for cost-effective fixtures that ensure a balance of performance, energy savings, comfort, lighting quality and ease of maintenance. Many standard products meet these generic specifications. Even small variations from these specifications may result in undesirable effects. For example, specular louvers or reflectors may increase light levels and reduce reflected glare, but will also increase overhead glare and decrease desirable room surface brightness. D E. Pendant Direct/Indirect Three-Lamp LAMPS: (3) 32W T8 fluorescent, 835 color DESCRIPTION: Pendant mounted. 2 lamps up and 1 lamp down. Semi-specular low-iridescent parabolic cross-baffles, minimum 1-3/4" deep and 3" on center. Optional lamp shield for center lamp. Wire for separate row switching. Multi-lamp ballasts. 71% min. fixture efficiency. Nominal 89 watts per (3) lamps. E K. Bracket Mounted Asymmetric Board Light LAMP: (1) 32W T8 fluorescent, 835 color DESCRIPTION: Wall mounted. Asymmetric reflector. Cantilever 6" to 12" from board. Multi- lamp ballasts. 71% min. fixture efficiency. Nominal 59 watts per (2) lamps. J. Recessed 1’ x 4’ Linear Wall Wash LAMPS: (2) 32W T8 fluorescent, 835 color DESCRIPTION: Recessed wallwasher with semi- specular aluminum reflector. Locate 2’ to 3’ away from wall. Nominal 59 input watts per (2) lamps, 67% minimum fixture efficiency. H. Fluorescent Channel with Valance LAMP: (1) 32W T8 fluorescent, 835 color DESCRIPTION: Surface mounted standard channel concealed by architectural valance. Multi-lamp ballasts. Nominal 30 watts per fixture.H L and L1. Surface Mounted Corridor Wall Lighter LAMP: (1) 32W T8 fluorescent, 835 color DESCRIPTION: Surface mounted. White baked enamel housing and prismatic lens. Multi-lamp ballasts. 78% min. fixture efficiency. Nominal 59 watts per (2) lamps. (Available as pendant version if ceiling height is greater than 9’0".) Alternative: White cross baffles. 68% min. fixture efficiency. F 7 B J M and M1. Recessed Fluorescent 1’ x 4’ LAMPS: (1) 32W T8 fluorescent, 835 color DESCRIPTION: Recessed. White upper reflector and white parabolic louvers 6" on center. Multi-lamp ballasts. Nominal 59 input watts per (2) lamps. 73% min. fixture efficiency. Alternative: Prismatic lens. 65% min. fixture efficiency. K Valances (Type H) are an inexpensive way to light focal walls, but don’t provide the best uniformity. C AMBIENT LIGHTING WALL ACCENT OPTIONS CORRIDOR OPTIONS L1 L F1 M M1 George Leisey/Photographer, Bellows Falls, VT 8 Disclaimer: These guides are provided for information purposes only. Neither the Sponsoring Agents nor any of their employees or sub-contractors makes any warranty, expressed or implied, or assumes any legal liability or responsibility for the accuracy, completeness or usefulness of any data, information, method, product or process disclosed in this document, or represents that its use will not infringe any privately owned rights, including, but not limited to, patents, trademarks or copyrights. better lighting = better learning knowhow classroom lightingResearch has shown that information presented visually is absorbed faster and retained more reliably than information presented orally.1 To promote learning, provide an environment where teachers and students can perform their visual tasks comfortably, quickly and accurately. Lighting impacts the psychological and emotional needs of students: it makes a room attractive and pleasant, stimulates learning and improves behavior. High quality, energy effective lighting is a wise investment for our schools! 1 - Adapted from Good Lighting for Schools by Fodergemeinshaft GutesLicht. www.designlights.org Efficiency Vermont Conectiv Power Delivery Jersey Central Power & Light, A FirstEnergy Company Long Island Power Authority National Grid: · Massachusetts Electric · Narragansett Electric · Granite State Electric · Nantucket Electric Northeast Utilities: · The Connecticut Light & Power Company · Western Massachusetts Electric Company NSTAR Electric NYSERDA New York State Energy Research and Development Authority United Illuminating Unitil: · Fitchburg Gas & Electric Light Company Northeast Energy Efficiency Partnerships, Inc. Content/graphics by Hayden McKay Lighting Design Inc. Support from Lindsley Consultants Inc. Additional consultation by Donna Leban, Mark Loeffler, Charles Michal and Naomi Miller. Market Research Review by Light/Space/Design. Graphic design by Outsource. For commercial lighting services in your area contact: Students and teachers benefit from a connection to the outdoors – windows not only provide daylight but also a sense of time, weather, and distant focal points – all of which prevent fatigue and contribute to greater alertness in class. high quality checklist Use fixtures that provide comfort by distributing some light on ceilings and walls, such as direct/indirect or semi-indirect fixtures. Use light-colored finishes on room surfaces to maximize reflected light. Include windows or skylights in every classroom. Design electric lighting to maximize benefits from natural lighting. Use interior blinds to control window glare. Use lighting controls to increase flexibility and decrease energy use for each room. Provide additional light for front wall or board, and other important room features. ACKNOWLEDGEMENTS The LIGHTING KNOWHOW series was developed, funded and sponsored by the following members of the DesignLights Consortium: “Visual richness in classrooms stimulates creative thinking. Quality lighting and flexible lighting controls are major contributors to a positive learning environment.” Professor, Texas Christian University ✓ daylighting Daylighting is a key to lighting quality. Students with daylight in their classrooms (from windows and skylights) perform 20 to 25% better on reading and math tests than students without access to daylight.2 The same study shows that students in classrooms with larger window areas progress up to 20% faster than their counterparts in rooms with smaller window areas. Go to http://www.h-m-g.com to read the study that presents these data. DAYLIGHTING HINTS Daylight only saves energy if the electric lights are dimmed or switched off. Dimming lights in response to daylight is less distracting than switching, but requires dimming ballasts and a commitment to maintenance. Avoid direct solar penetration – it creates glare and overheating. Use neutral- colored window glass and exterior overhangs to control window glare and solar heat gain.Balance the light by providing daylight from more than one direction. See page 3 and classroom layouts for daylight controls. 2 - The Heschong-Mahone Group (published 1999) ✓ ✓ ✓ ✓ ✓ ✓George Leisey/Photographer, Bellows Falls, VT DESCRIPTION OF COLUMN HEADINGS FOR CEE HIGH-PERFORMANCE 4’ T8 LAMP AND BALLAST QUALIFYING LISTS Column Heading Description Manufacturer By clicking on this field, the user will be directed to the manufacturer Web site and on-line catalogue. Product Name, Order Code, Model Number Information provided from manufacturers on product including ordering codes. Color Temperature The perceived “whiteness” of the light source in Kelvin. Rated Life Operating hours that a lamp lasts at 3 hours duty cycle depending upon the type of Ballast. IS Instant Start Ballast RS/PRS Rapid Start or Programmed-Rapid Start Initial Lumens Amount of luminous flux emitted by a lamp after 100 hours of operation at 25C. Mean Lumens Amount of luminous flux emitted by a lamp at 40% of the rated lamp life. CRI Color Rendering Index. The effect that the spectral characteristic of the light emitted by the lamp has on the color appearance of the objects illuminated by the lamp. Lumen Maintenance Ratio of mean lumens to initial lumens. Voltage Operating voltage for ballasts. Multiple voltage ballasts (also referred to as Universal Voltage) designated with two voltage values. Input Watts Reported ANSI rated watts for ballast. BEF Ballast Efficacy Factor. This is a calculated value with the exception of Howard Industries, who provides this value in their catalogue. Ballast Start Type Ballast starting circuitry identified as Instant (I), Rapid (R) or Programmed-Rapid (P). Ballast Factor Ratio of lamp lumens produced when lamp(s) operated by a given ballast to the lamp lumens produced when the lamp(s) operated on a reference ballast. Ballast Factor Range Ballast factor range of low, normal or high based upon CEE specification.LAMPBALLAST HP T8 Lamps QUALIFYING PRODUCTS High-Performance 4’ T8 Lamps CEE High-Performance Commercial Lighting Systems Initiative IS RS/PRS F32T8/841 F32T8/841 Linear 4100 20,000 24,000 3100 2950 82 0.95 F32T8/850 F32T8/851 Linear 5000 20,000 24,000 3100 2950 82 0.95 455338 ULTIMATE US 32W/835 Linear 3500 53,000 60,000 3100 2900 80 0.94 455334 ULTIMATE US 32W/841 Linear 4100 53,000 60,000 3100 2900 80 0.94 529632 F32T8/835/HL Linear 3500 24,000 30,000 3300 3135 85 0.95 529732 F32T8/841/HL Linear 4100 24,000 30,000 3300 3135 85 0.95 529832 F32T8/850/HL Linear 5000 24,000 30,000 3200 3040 85 0.95 Contractor Lighting BEST LAMP 12-32T8-850 12-32T8-850 Linear 5000 20,000 24,000 3100 3000 85 0.97 F32T8/830 XP Linear 3000 24,000 30,000 3100 2950 83 0.94 F32T8/835 XP Linear 3500 24,000 30,000 3100 2950 83 0.94 F32T8/841 XP Linear 4100 24,000 30,000 3100 2950 83 0.94 F32T8/850 XP Linear 5000 24,000 30,000 3100 2950 83 0.94 F32T8/865 XP Linear 6500 24,000 30,000 3100 2950 83 0.94 FLTHNVX5V F32T8/841TL Linear 4100 24,000 24,000 3150 2950 85 0.94 FLTHNVX6V F32T8/850TL Linear 5000 24,000 24,000 3150 2950 85 0.94 Tri-Lux/Medistar FLTHNVXDV F32T8/859TL Linear 5900 24,000 24,000 3150 2975 85 0.94 n/a F32T8/830K/HL Linear 3000 24,000 24,000 3100 2915 83 0.94 n/a F32T8/835K/HL Linear 3500 24,000 24,000 3100 2915 83 0.94 n/a F32T8/841K/HL Linear 4100 24,000 24,000 3100 2915 83 0.94 n/a F32T8/850K/HL Linear 5000 24,000 24,000 3000 2820 83 0.94 n/a F32T8/865K/HL Linear 6500 24,000 24,000 3000 2820 83 0.94 13986 F32T8/827/HE Linear 2700 24,000 30,000 3100 2915 85 0.94 13987 F32T8/830/HE Linear 3000 24,000 30,000 3100 2915 85 0.94 13988 F32T8/835/HE Linear 3500 24,000 30,000 3100 2915 85 0.94 13989 F32T8/841/HE Linear 4100 24,000 30,000 3100 2915 85 0.94 13990 F32T8/850/HE Linear 5000 24,000 30,000 3100 2915 85 0.94 32865 F32T8/865/HE Linear 6500 24,000 30,000 2976 2798 85 0.94 B32841 FB32T8/841/HE U-Bend 4100 20,000 24,000 3100 2900 85 0.94 B32850 FB32T8/850/HE U-Bend 5000 20,000 24,000 2980 2830 85 0.95 Full Spectrum Solutions, Inc Maxum 5000 F32T8 Shatterproof 204453SC F32-T8 48" Shatter Proof 5000K Linear 5000 34,000 28,000 3300 2950 91 0.95 FN6C32A2F/HLO FN6C32A2F/HLO Linear 4100 20,000 24,000 3200 3000 85 0.94 FF32/T8/830/HLO FF32/T8/830/HLO Linear 3000 20,000 24,000 3200 3000 85 0.94 FF32/T8/835/HLO FF32/T8/835/HLO Linear 3500 20,000 24,000 3200 3000 85 0.94 FF32/T8/841/HLO FF32/T8/841/HLO Linear 4100 20,000 24,000 3200 3000 85 0.94 FF32/T8/850/HLO FF32/T8/850/HLO Linear 5000 20,000 24,000 3100 2915 85 0.94 10327 F32T8/XL/SPX30/HL/ECO Linear 3000 25,000 36,000 3100 2915 85 0.94 10326 F32T8/XL/SPX35/HL/ECO Linear 3500 25,000 36,000 3100 2915 85 0.94 10322 F32T8/XL/SPX41/HL/ECO Linear 4100 25,000 36,000 3100 2915 82 0.94 42556 F32T8/XL/SPX50/HL/ECO Linear 5000 25,000 36,000 3000 2820 80 0.94 109404 F32T8/850/ECO Linear 5000 24,000 24,000 3050 2900 86 0.95 109428 F32T8/865/ECO Linear 6500 24,000 24,000 3050 2900 86 0.95 35153 F32T8/850/ECO/IC Linear 5000 24,000 24,000 3050 2900 85 0.95 35154 F32T8/865/ECO/IC Linear 6500 24,000 24,000 3050 2900 85 0.95 35155 F32T8/830/ECO/HL Linear 3000 24,000 24,000 3100 2950 85 0.95 35156 F32T8/835/ECO/HL Linear 3500 24,000 24,000 3100 2950 85 0.95 35157 F32T8/841/ECO/HL Linear 4100 24,000 24,000 3100 2950 85 0.95 35158 F32T8/850/ECO/HL Linear 5000 24,000 24,000 3100 2950 85 0.95 35161 F32T8/850/ECO/XL Linear 5000 40,000 40,000 2950 2800 85 0.95 CoverShield 90093 F32T8/850/ECO/IC/CS Linear 5000 24,000 24,000 3050 2900 86 0.95 POWR-TEK PLUS HH301 F32T8POWR-TEK PLUS Linear 5000 36,000 36,000 3150 2992 89 0.95 VITEK93+HH9312 F32T8VITEK93+Linear 6700 36,000 36,000 3010 2860 93 0.95 01947 F32T8/830/HL/ECO Linear 3000 24,000 24,000 3100 2950 85 0.95 01948 F32T8/835/HL/ECO Linear 3500 24,000 24,000 3100 2950 85 0.95 01949 F32T8/841/HL/ECO Linear 4100 24,000 24,000 3100 2950 85 0.95 02858 F32T8/850/HL/ECO Linear 5000 24,000 24,000 3100 2950 85 0.95 03753 F32T8/830/HL/ECO/IC Linear 3000 24,000 24,000 3100 2950 83 0.95 03754 F32T8/835/HL/ECO/IC Linear 3500 24,000 24,000 3100 2950 83 0.95 03755 F32T8/841/HL/ECO/IC Linear 4100 24,000 24,000 3100 2950 83 0.95 03756 F32T8/850/HL/ECO/IC Linear 5000 24,000 24,000 3100 2950 83 0.95 04933 F32T8/865/HL/ECO/IC Linear 6500 24,000 24,000 2950 2800 83 0.95 681 F32T8/HL/830 Linear 3000 24,000 24,000 3100 2950 85 0.95 682 F32T8/HL/835 Linear 6500 24,000 24,000 3100 2950 85 0.95 683 F32T8/HL/841 Linear 4100 24,000 24,000 3100 2950 85 0.95 684 F32T8/HL/850 Linear 5000 24,000 24,000 3100 2950 85 0.95 IWI Lighting IntegraLight 91613PIL F32T8IntegraLight Linear 5000 36,000 36,000 3100 2950 86 0.95 Espen Technology, Inc. (Last Updated 12/30/11) Color Temp (K)Mfr Product Name Order Code Model Number or Description Legend: Red Font is a product no longer manufactured, but existing stock still meets the criteria as qualifying products CRI Lumen Maintena nceShape Mean Lumens Initial Lumens Fusion HLO Series Tri-Lux n/a Energy Wiser High Lumen High Lumen Eiko High Lumen Ecolux High Lumen Atlas Lighting Products, Inc. Fusion Lamps CRI Lighting Rated Life (hrs)1 ProLume Hygrade (also NARVA, Hygrade/Narva, and TriPhase) DLU Lighting USA Bulbrite Howard Industries N/A Aura Light Accendo | AURA ULTIMATE US Long Life Eiko General Electric Company Halco Lighting Technologies H&H Industries, Inc. Elite HE HP T8 Lamps IS RS/PRS Color Temp (K)Mfr Product Name Order Code Model Number or Description CRI Lumen Maintena nceShape Mean Lumens Initial Lumens Rated Life (hrs)1 413830 F29T8/830/EC-HL Linear 3000 24,000 24,000 3100 2915 82 0.94 413835 F29T8/835/EC-HL Linear 3500 24,000 24,000 3100 2915 82 0.94 413841 F29T8/841/EC-HL Linear 4100 24,000 24,000 3100 2915 82 0.94 413850 F29T8/850/EC-HL Linear 5000 24,000 24,000 3070 2885 82 0.94 403830 F32T8/830 Linear 3000 24,000 36,000 3100 2915 82 0.94 403835 F32T8/835 Linear 3500 24,000 36,000 3100 2915 82 0.94 403841 F32T8/841 Linear 4100 24,000 36,000 3100 2915 82 0.94 403850 F32T8/850 Linear 5000 24,000 36,000 3100 2915 82 0.94 403865 F32T8/865 Linear 6500 24,000 30,000 3100 2950 82 0.94 453830 F32T8/830/SQ (HL)Linear 3000 60,000 70,000 3100 2976 80.5 0.96 453835 F32T8/835/SQ (HL)Linear 3500 60,000 70,000 3100 2976 80.5 0.96 453841 F32T8/841/SQ (HL)Linear 4100 60,000 70,000 3100 2976 80.5 0.96 453850 F32T8/850/SQ (HL)Linear 5000 60,000 70,000 3025 2904 80.5 0.96 Color Brite T8 L-359 F32T8 CB50 Linear 5000 30,000 30,000 3200 3025 90 0.94 L-334 F32 T8 830 Linear 3000 30,000 30,000 3100 2925 85 0.94 L-335 F32 T8 835 Linear 3500 30,000 30,000 3100 2925 85 0.94 L-336 F32 T8 841 Linear 4100 30,000 30,000 3100 2925 85 0.94 L-337 F32 T8 850 Linear 5000 30,000 30,000 3100 2925 85 0.94 L-385 F32 T8 835 U U-Bend 3500 30,000 30,000 3100 2925 85 0.94 L-386 F32 T8 841 U U-Bend 4100 30,000 30,000 3100 2925 85 0.94 L-387 F32 T8 850 U U-Bend 5000 30,000 30,000 3100 2925 85 0.94 PMX135 F32T8/AWX8550/TC Linear 5000 24,000 30,000 3050 2898 85 0.95 PMX139 F32T8/VLX9155/TC Linear 5500 24,000 30,000 3100 2950 91 0.95 51048 F32T8/830 Linear 3000 24,000 24,000 3100 2900 85 0.94 51045 F32T8/835 Linear 3500 24,000 24,000 3100 2900 85 0.94 51046 F32T8/841 Linear 4100 24,000 24,000 3100 2900 85 0.94 51047 F32T8/850 Linear 5000 24,000 24,000 3100 2900 85 0.94 51053 F32T8/865 Linear 6500 24,000 24,000 3100 2900 85 0.94 51058 F32T8/835XL Linear 3500 24,000 24,000 3200 3020 85 0.94 51050 F32T8/841XL Linear 4100 24,000 24,000 3200 3020 85 0.94 51049 F32T8/850XL Linear 5000 24,000 24,000 3200 3020 85 0.94 51060 F32T8/865XL Linear 6500 24,000 24,000 3200 3020 85 0.94 Midwest Industrial Lighting F32T8-850HL 45728 FE32-850HL Linear 5000 24,000 30,000 3150 2995 86 0.95 4187 FL32T8/835/HO/ECO Linear 3500 20,000 24,000 3200 3050 82 0.95 4188 FL32T8/835/HO/ECO Linear 3500 20,000 24,000 3200 3050 82 0.95 4189 FL32T8/850/HO/ECO Linear 5000 20,000 24,000 3200 3050 82 0.95 4182 FL32T8/850/ECO Linear 5000 20,000 24,000 3000 2850 82 0.95 10322AL T8 ARMORLITE 841 HL LAMP Linear 4100 25,000 36,000 3100 2915 82 0.94 42556AL T8 ARMORLITE 850 HL LAMP Linear 5000 25,000 36,000 3100 2915 82 0.94 18041 ORION F32 T8 / 841 Linear 4100 36,000 36,000 3100 2915 82 0.94 18050 ORION F32 T8 / 850 Linear 5000 36,000 36,000 3100 2915 85 0.94 21660 FO32/850XPS/ECO3 Linear 5000 24,000 40,000 3100 2914 81 0.94 21680 FO32/830/XPS/ECO3 Linear 3000 24,000 40,000 3100 2914 85 0.94 21659 FO32/865XPS/ECO3 Linear 6500 24,000 40,000 3000 2820 81 0.94 21697 FO32/835/XPS/ECO3 Linear 3500 24,000 40,000 3100 2914 85 0.94 21681 FO32/841/XPS/ECO3 Linear 4100 24,000 40,000 3100 2914 85 0.94 22168 FBO32/850XPS/6/ECO U-Bend 5000 18,000 24,000 2980 2830 85 0.94 22143 FO32/850/ECO Linear 5000 24,000 30,000 2950 2773 80 0.94 22026 FO32/850XP/ECO Linear 5000 24,000 40,000 3000 2820 85 0.94 22002 FO32/850/XP/XL/ECO Linear 5000 36,000 52,000 2950 2832 80 0.96 13987-3 F32T8/ADV830/ALTO Linear 3000 24,000 30,000 3100 2950 85 0.97 13988-1 F32T8/ADV835/ALTO Linear 3500 24,000 30,000 3100 2950 85 0.97 13989-9 F32T8/ADV841/ALTO Linear 4100 24,000 30,000 3100 2950 85 0.97 13990-7 F32T8/ADV850/ALTO Linear 5000 24,000 30,000 3100 2935 82 0.97 91610 F32T8/835 - Hi Lumen Linear 3500 30,000 36,000 3100 2950 85 0.95 91611 F32T8/841/Hi Lumen - Superior Life Linear 4100 30,000 36,000 3100 2950 85 0.95 91612 F32T8/Sky-Brite Plus Hi Lumen Linear 5000 30,000 36,000 3100 2950 85 0.95 91613 F32T8/Sky-Brite Plus® Hi Lumen Linear 5000 30,000 36,000 3100 2950 85 0.95 91613-HL F32T8/850 Hi Lumen Linear 5000 24,000 24,000 3100 2950 85 0.95 91607-HL F32T8/841 Hi Lumen Linear 4100 24,000 24,000 3100 2950 85 0.95 91601-HL F32T8/835 Hi Lumen Linear 3500 24,000 24,000 3100 2950 85 0.95 91603-HL F32T8/830 Hi Lumen Linear 3000 24,000 24,000 3100 2950 85 0.95 72614 F32T8/865 Linear 6500 24,000 24,000 3100 2950 85 0.95 91615 F32T8/VITA-BRITE Linear 5400 24,000 24,000 3100 2950 88 0.95 82614 F32T8/865 - Superior Life Linear 6500 24,000 36,000 3100 2950 85 0.95 S8426 F32T8/830/HL/ENV Linear 3000 24,000 24,000 3200 3050 85 0.95 S8427 F32T8/835/HL/ENV Linear 3500 24,000 24,000 3200 3050 85 0.95 S8428 F32T8/841/HL/ENV Linear 4100 24,000 24,000 3200 3050 85 0.95 S8429 F32T8/850/HL/ENV Linear 5000 24,000 24,000 3200 3050 85 0.95 46547S F32T8 830/XPS/ECO Linear 3000 24,000 36,000 3100 2945 85 0.95 46549S F32T8 835/XPS/ECO Linear 3500 24,000 36,000 3100 2945 85 0.95 46548S F32T8 841/XPS/ECO Linear 4100 24,000 36,000 3100 2945 85 0.95 46550S F32T8 850/XPS/ECO Linear 5000 24,000 36,000 3100 2945 81 0.95 46551S F32T8 865/XPS/ECO Linear 6500 24,000 36,000 3100 2945 81 0.95 46648 F32T8 ADV830/ALTO Linear 3000 24,000 30,000 3100 2950 85 0.97 46646 F32T8 ADV835/ALTO Linear 3500 24,000 30,000 3100 2950 85 0.97 46548 F32T8 ADV841/ALTO Linear 4100 24,000 30,000 3100 2950 85 0.97 46558 F32T8 ADV850/ALTO Linear 5000 24,000 30,000 3100 2950 82 0.97 46823S FO32/850/ECO Linear 5000 24,000 30,000 2950 2773 80 0.94 46828S FO32/850/XP/ECO Linear 5000 24,000 36,000 3000 2820 80 0.94 46822S FO32/850/XP/XL/ECO Linear 5000 36,000 40,000 2950 2832 80 0.96 Clear Safety- Coated Extended Performance Elemental Philips Lighting Premium T8 Alto Advantage T8 XL SuperiorLife - HiLum Octron XPS Satco Hygrade Octron - Sequoia OSRAM SYLVANIA P.Q.L., Inc. Satco Products, Inc Shat-r-shield, Inc LITETRONICS, INT. Kumho Electric USA ArmorLite ECO-LUMEN Orion Energy Systems Optilumens Maintenance Engineering Maxlite ENERGY-LITE Premira Flourescent Earthcare HP T8 Lamps IS RS/PRS Color Temp (K)Mfr Product Name Order Code Model Number or Description CRI Lumen Maintena nceShape Mean Lumens Initial Lumens Rated Life (hrs)1 1920 F32T8/HL/835 Linear 3500 24,000 24,000 3100 2915 85 0.94 1921 F32T8/HL/841 Linear 4100 24,000 24,000 3100 2915 85 0.94 1923 F32T8/HL/850 Linear 5000 24,000 24,000 3100 2915 85 0.94 30080 T8, 800 Series, 32 Watt Linear 3500 20,000 24,000 3100 2914 82 0.94 30090 T8, 800 Series, 32 Watt Linear 4100 20,000 24,000 3100 2914 82 0.94 30100 T8, 800 Series, 32 Watt Linear 5000 20,000 24,000 3100 2914 82 0.94 58769 F32T8/830/XL31SM Linear 3000 24,000 36,000 3100 2950 89 0.95 58771 F32T8/835/XL31SM Linear 3500 24,000 36,000 3100 2950 89 0.95 57022 F32T8/841/XL31SM Linear 4100 24,000 36,000 3100 2950 89 0.95 58772 F32T8/850/XL31SM Linear 5000 24,000 36,000 3100 2950 89 0.95 10914 F32T8/830/XL31 Linear 3000 24,000 36,000 3100 2950 85 0.97 10915 F32T8/835/XL31 Linear 3500 24,000 36,000 3100 2950 85 0.97 10916 F32T8/841/XL31 Linear 4100 24,000 36,000 3100 2950 85 0.97 10917 F32T8/850/XL31 Linear 5000 24,000 36,000 3100 2950 85 0.97 10004 F32T8/50K/8/RS/G13/STD ESV Linear 5000 24,000 30,000 2950 2800 85 0.95 51169 F32T8/65K/8/RS/G13/STD ESV Linear 6500 24,000 30,000 2950 2800 85 0.95 32830 F32T8/830/SuperEco Linear 3000 24,000 30,000 3200 3040 86 0.95 32840 F32T8/840/SuperEco Linear 4200 24,000 30,000 3200 3040 86 0.95 32850 F32T8/850/SuperEco Linear 5000 24,000 30,000 3200 3040 86 0.95 HDX145 F32T8/FWX8550/TC Linear 5000 24,000 30,000 3050 2898 85 0.95 HDX149 F32T8/VLX9155/TC Linear 5500 24,000 30,000 3100 2950 91 0.95 31032850HL F32T8/850/HL Linear 5000 24,000 24,000 3100 2915 86 0.94 31032830HL F32T8/830/HL Linear 3000 24,000 24,000 3100 2915 85 0.94 31032835HL F32T8/835/HL Linear 3500 24,000 24,000 3100 2915 85 0.94 31032841HL F32T8/841/HL Linear 4100 24,000 24,000 3100 2915 85 0.94 31032865HL F32T8/865/HL Linear 6500 24,000 24,000 3100 2915 85 0.94 31032850 F32T8/850 Linear 5000 24,000 24,000 2950 2800 85 0.95 FO32/830/XL-40 32W 48" T8 3,000K Flourescent Linear 3000 24,000 30,000 3100 2900 85 0.94 FO32/835/XL-40 32W 48" T8 3,500K Flourescent Linear 3500 24,000 30,000 3100 2900 85 0.94 FO32/841/XL-40 32W 48" T8 4,100K Flourescent Linear 4100 24,000 30,000 3100 2900 85 0.94 FO32/850/XL-40 32W 48" T8 5,000K Flourescent Linear 5000 24,000 30,000 3100 2900 85 0.94 25898 F32T8/835HL Linear 3500 24,000 24,000 3100 2915 84 0.94 25899 F32T8/841HL Linear 4100 24,000 24,000 3100 2915 84 0.94 25900 F32T8/850HL Linear 5000 24,000 24,000 3000 2820 82 0.94 3000480 F32T8/841/HL Linear 4100 24,000 30,000 3150 2990 86 0.95 3000524 F32T8/850/HL Linear 5000 24,000 30,000 3150 2990 86 0.95 07027 F32T8/830/XL/ECOMAX Linear 3000 24,000 30,000 3100 2950 86 0.95 07028 F32T8/835/XL/ECOMAX Linear 3500 24,000 30,000 3100 2950 86 0.95 07029 F32T8/841/XL/ECOMAX Linear 4100 24,000 30,000 3100 2950 86 0.95 Triten 50 Ultra 60766 F32T8/Triten50/ULTRA/ENV Linear 5000 24,000 24,000 3100 2950 86 0.95 1 Life based on 3-hr. duty cycle © 2007 Consortium for Energy Efficiency, Inc. All rights reserved. CONSORTIUM FOR ENERGY EFFICIENCY www.cee1.org 617-589-3949 XL ULTRA 8 High LumenUSHIO America, Inc. Heavy Duty FlourescentSuperior Lamp, Inc. Universal Lighting Technologies Universal 800HL TOPAZ/CXL SLI Lighting/Havells USA Standard Products, Inc. Terra-Lux High Lumen Topaz Lighting TCP High LumenTechnical Consumer Products, Inc. XL31 XL31 Safety Max Super Eco T-8 Plus Earthsaver Westinghouse Lighting Corporation F32 T8SOLTERRA Super Eco Products, LLC HP 120 and 277 V T8 Ballasts QUALIFYING PRODUCTS 1 High-Performance 120 and 277V T8 Ballasts CEE High-Performance Commercial Lighting Systems Initiative For a list of qualifying 347 V T8 ballasts, see: www.cee1.org/com/com-lt/347-ballasts.xls Manufacturer Product Name Model Number NEMA4 Premium® Voltage (V) Ballast Type ² Ballast Factor Range Ballast Factor Input Watts (W) BEF³ ACCUPRO High Efficiency A*-132-IP-UNV yes 277 I Normal 0.87 28 3.11 AB1-32-IP-UNV-HE yes 120/277 I Normal 0.91 29 3.14 AB1-32-IP-UNV-1 yes 120/277 I Normal 0.91 29 3.14 DXE1H81 no 120 I Normal 0.88 28 3.14 DXE1H81U no 120/277 I Normal 0.88 28.2 3.12 Dynamic Ballast High Efficiency DY 132 IS WV - HE no 120/277 I Normal 0.88 28 3.14 WHHE2-UNV-T8-IS no 120/277 I High 1.08 34 3.18 WHSG2-UNV-T8-HB no 120/277 I High 1.38 45 3.07 WHPS1-UNV-T8-PS no 120/277 P Normal 0.88 30 2.93 GE-132-MAX-N/Ultra yes 120/277 I Normal 0.88 28 3.11 GE-132-MAX-L/Ultra yes 120/277 I Low 0.77 25 3.08 GE132-MVPS-L yes 120/277 P Low 0.72 25 2.88 GE132-MVPS-N yes 120/277 P Normal 0.89 30 2.97 GE132-MVPS-H yes 120/277 P High 1.18 39 3.03 Proline GE-132-MV-N yes 120/277 I Normal 0.87 28 3.11 EP232IS/L/MV/HE yes 120/277 I Normal 0.95 30 3.17 EP232IS/MV/HE yes 120/277 I High 1.05 33 3.18 EP232IS/120/SL yes 120 I High 1.15 38 3.03 EP232IS/MV/SL yes 120/277 I High 1.15 38 3.03 HL232AIS/UV/HE/W no 120/277 I Normal 0.95 30 3.17 HL232BIS/UV/HE/W no 120/277 I High 1.05 33 3.18 SIS117-32 UNI 21 no 120/277 P High 1.05 34.5 3.04 SIS117-32S UNI no 120/277 P High 1.05 34.5 3.04 E1/32IS-120HEX no 120 I Normal 0.87 28 3.11 E1/32IS-277HEX no 277 I Normal 0.87 28 3.11 HE High Efficiency EP2/32IS/MV/SC/HE no 120/277 I Normal 1.00 35 2.86 HE Micro Case EPH2/32IS/MV/MC/HE no 120/277 I High 1.08 35/34 3.09/3.18 KTEB-132-UV-IS-L-P yes 120/277 I Low 0.77 25 3.08 KTEB-132-UV-IS-N-P yes 120/277 I Normal 0.87 28 3.10 KTEB-132-UV-PS-N-P yes 120/277 P Normal 0.88 31 2.84 KTEB-132-UV-PS-L-P yes 120/277 P Low 0.77 27 2.85 KTEB-132-UV-PS-H-P yes 120/277 P High 1.18 40 2.95 KTEB-132-UV-IS-H-P yes 120/277 I High 1.18 39 3.03 High Efficiency Ballast SKEU322HEL no 120/277 I Normal 0.95 30 3.17 Electronic Ballasts SKEU322H/SC no 120/277 I High 1.38 45 3.07 EB-132PRS-U-ES yes 120/277 P Normal 0.88 30 2.93 EB-132PRS-U-ES-HBF yes 120/277 P High 1.18 38 3.11 FL2T17-32M NO no 120/277 P Normal 0.87 28 3.11 FX2T17-32M NO no 120/277 P Normal 0.87 28 3.11 FX2T17-32M HO no 120/277 P High 1.21 39 3.10 FL2T17-32M HO no 120/277 P High 1.21 39 3.10 Orion Energy Systems HIGH EFFICIENCY OB2-T8-32-120/277-E-IN-0.9 no 120/277 I Normal 0.89 28 3.18 QHE1x32T8/UNV ISH-SC yes 120/277 I High 1.20 38 3.16 QHE 1X32T8/UNV ISL-SC yes 120/277 I Low 0.78 25 3.12 QHE 1X32T8/UNV ISL-SC-1 yes 120/277 I Low 0.77 25 3.08 QHE 1X32T8/UNV ISN-SC yes 120/277 I Normal 0.88 28 3.14 QHE1x32T8/UNV ISN-SC-1 yes 120/277 I Normal 0.87 28 3.11 QHE1x32T8/UNV PSN-MC yes 120/277 P Normal 0.88 30/29 2.93/3.03 QTP 1X32T8/UNV PSN-TC yes 120/277 P Normal 0.88 31/30 2.84/ 2.93 QTP 1X32T8/UNV PSX-TC yes 120/277 P Low 0.71 25 2.84 QTP 1X32T8/UNV ISN-SC yes 277 I Normal 0.89 28.6 3.11 IOP-1S32-SC yes 120/277 P Normal 0.88 28 3.14 IOP-1P32-SC yes 120/277 I Normal 0.87 28 3.11 IOP-1P32-HL-SC yes 120/277 P Normal 0.88 28 3.14 IOP-1P32-LW-SC yes 120/277 I Low 0.77 25 3.08 IOP-1S32-LW-SC yes 120/277 P Low 0.72 24 3.00 IOPA-1P32 LW-SC yes 120/277 I Low 0.77 25 3.08 IOPA-1P32-SC yes 120/277 I Normal 0.87 28 3.11 Centium ICN-1P32-N no 277 I Normal 0.91 29 3.14 Optanium 1 Lamp ProductsGE Ultramax Updated 12/30/11 HP T8 Qualified Ballasts with 1 Lamp UltraStart Click "Open." When "Connect to www.cee1.org" box opens, click on "Cancel" twice Legend: Red Font is a product no longer manufactured, but still meets the criteria as a qualifying product General Electric Company High EfficiencyAmerican Ballast DuroPower (BallastWise)Ballastwise HEX Electronic Hatch Lighting HEP Group USA, Inc. Smart Ballast Quicktronic Omnitronix Engineering LLC HEP HE Ballast Electronic Ballast Premium Series Hatch MW McWong International Keystone Technologies Howard Industries Halco Lighting Technologies Fulham Workhorse Maxlite ProLume OSRAM SYLVANIA Philips - Advance HP 120 and 277 V T8 Ballasts Manufacturer Product Name Model Number NEMA4 Premium® Voltage (V) Ballast Type ² Ballast Factor Range Ballast Factor Input Watts (W) BEF³ 70201 no 120/277 I Normal 0.87 27/26.5 3.22/3.28 70210 no 120/277 P High 1.06 34 3.12 70213 no 120 I High 1.37 45 3.04 SL-1/32IS-120 (70209)no 120 I Normal 0.88 28 3.11 SL-1/32IS-277 (70200)no 277 I Normal 0.88 28 3.11 ISL132T8HEMVL yes 120/277 I Low 0.77 25 3.08 ISU232T8HEMV yes 120 I High 1.12 36 3.11 PSA132T8HEMV yes 120/277 P Normal 0.91 30 3.03 PSA132T8HEMH yes 120/277 P High 1.18 39/38 3.03/3.11 NLO232T8PIS no 120 P High 1.03 36 2.86 SAU139Q2 no 120 P Normal 1.00 33 3.03 SLU232T8HPIS-ROHS no 120/277 P High 1.40 45 3.11 NU240T8RS-ROHS no 120 P High 1.40 41 3.41 SAU139Q2 no 120 P High 1.02 33 3.09 SLU232T8HPIS-ROHS no 120/277 I High 1.40 45 3.11 SOLA Canada Lighting & Power Inc Sola E-758-F-132SC no 120 I Normal 0.97 31 3.13 Optistart E232T8PRS120-277/L no 120/277 P Normal 0.88 29 3.03 E232T8PS120-277/N/XTRM no 120/277 P High 1.40 41 3.41 E232T8PRS120-277/N no 120/277 P Normal 0.90 29 3.10 E232T8PS120- 277/N/AS/BULK no 120/277 P Normal 0.90 29 3.10 E132T8IS120/N no 120 I Normal 0.90 28 3.21 E132T8IS120/L/BULK no 120 I Low 0.78 25 3.12 E132T8IS120/L no 120 I Low 0.78 25 3.12 Sunpark Electronics Corp.Ultralumen U-1/32PSE no 120/277 P Normal 0.88 30 2.93 TCP2P32ISUNVH yes 120/277 I High 1.37 45 3.04 E2P32ISUNVHE yes 120/277 I High 1.37 45 3.04 TCP2P32ISUNV yes 120/277 I Normal 0.99 31 3.19 E2P32ISUNVLE yes 120/277 I Normal 0.88 28 3.14 E2P32ISUNVHE yes 120/277 I High 1.37 45 3.04 E2P32ISUNVE yes 120/277 I Normal 0.99 31 3.19 Topstar International Inc. T8 Electronic Ballast BB-T8/UVH-2x32/HPF no 120 I Normal 0.96 30 3.20 SR132120 no 120 P Normal 0.86 30 2.87 SR132277 no 277 P Normal 0.86 30 2.87 PR232120M-HE no 120/277 P Normal 0.97 33 2.94 UT132120M-HE no 120/277 I Normal 0.87 28 3.11 UT132120ML-HE no 120/277 I Low 0.74 24 3.08 UT232120L-HE no 120 I Normal 0.97 30 3.23 PR132120M-P-HE no 120/277 P Normal 0.88 30 2.93 PR232120M-P-HE no 120/277 P Normal 0.88 29 3.03 PR232120ML-P-HE no 120/277 P Low 0.72 24 3.00 B232PUNVEL-A yes 120/277 P Low 0.71 25/23 2.84/3.09 B232PUNVHP-A yes 120/277 P Normal 1.00 32 3.13 B232IUNVEL-A yes 120/277 I Normal 0.95 30 3.17 B232IUNVHE-A yes 120/277 I High 1.05 33 3.18 B132PUNVHP-A yes 120/277 P Normal 0.88 31/30 2.84/ 2.93 B132IUNVHE-A yes 120/277 I Normal 0.87 28 3.11 B132IUNVEL-A yes 120/277 I Low 0.77 25 3.08 A*-232-IP-UNV yes 277 I Normal 0.88 55 1.60 A*-232IP-H-UNV no 120/277 I High 1.18 76/75 1.55/1.57 A*-232IP-L-UNV no 120/277 I Low 0.77 48 1.60 AB2-32-IP-UNV-HE yes 120/277 I Normal 0.89 56 1.59 AB2-32-IP-UNV-1 yes 120/277 I Normal 0.89 56 1.59 AB2-32-IP-UNV-HBF yes 120/277 I High 1.18 76/75 1.55/1.57 AB2-32-IP-UNV-LX yes 120/277 I Low 0.77 48 1.60 EB232UIH yes 120/277 I High 1.18 70 1.69 EB232UI yes 120/277 I Normal 0.87 55 1.58 Axis Technologies DDH AX232B no 120/277 P Normal 0.99 64/66 1.55/1.50 DXE2H8 no 120 I Normal 0.92 56 1.64 DXE2H81 no 120 I Normal 0.88 55 1.60 DXE2H8U no 120/277 I Normal 0.88 55/54 1.60/1.63 DXE2H8U-HBF no 120/277 I High 1.18 74/72 1.59/1.64 Dynamic Ballast High Efficiency DY 232 IS WV - HE no 120/277 I Normal 0.88 55 1.60 Energy Efficient Lighting Supply High Efficiency EEL-PSB-F32-2-MVOLT no 120/277 P Normal .88/.91 59 1.49/1.54 VE232MVHIPE yes 120/277 I Normal 0.89 55/54 1.62/1.65 VE232MVHIPHE yes 120/277 I High 1.19 76/75 1.57/1.59 VE232MVHRPHE yes 120/277 P High 1.18 72/71 1.64/1.66 VE232MVHRPE yes 120/277 P Normal 0.88 57/56 1.54/1.57 VE232MVHIPLE yes 120/277 I Low 0.77 48/47 1.60/1.64 Apollo VE232120HIPE yes 120 I Normal 0.85 53 1.60 Sterling Series Sage Lighting Ltd Elite BallastwiseDuroPower (BallastWise) Gold Label Standard Products, Inc. - Ultrasave Lighting Ltd. American Ballast HP T8 Qualified Ballasts with 2 Lamps F32 T8 Robertson Worldwide - Espen Technology, Inc. High Efficiency - Sage Technical Consumer Products, Inc. High Efficiency Universal Lighting Technologies - Superior Life Atlas Lighting Products, Inc. P.Q.L., Inc. ACCUPRO HP 120 and 277 V T8 Ballasts Manufacturer Product Name Model Number NEMA4 Premium® Voltage (V) Ballast Type ² Ballast Factor Range Ballast Factor Input Watts (W) BEF³ WHSG3-UNV-T8-IS no 277 I High 1.02 66 1.55 WHSG3-UNV-T8-HB no 120/277 I High 1.27 81/80 1.57/1.59 WHPS2-UNV-T8-PS no 120/277 P Normal 0.88 57/56 1.54/1.57 WHHE2-UNV-T8-IS no 120/277 I Normal 0.89 55/54 1.61/1.64 WHSG2-UNV-T8-HB no 120/277 I High 1.18 74/73 1.59/1.62 WHSG3-UNV-T8-LB no 120/277 I Normal 0.92 58/57 1.59/1.61 Fusion Ballasts Electronic ballasts FB232MVE-HE no 120/277 I Normal 0.87 55 1.58 GE-232-MV-H no 120/277 I High 1.18 76 1.55 GE-232-MV-N yes 277 I Normal 0.88 55 1.60 GE-232-277-N yes 277 I Normal 0.89 56 1.59 GE-232-MV-PS-H yes 120/277 P High 1.15 75 / 74 1.53/ 1.55 GE-232-MVPS-N yes 120/277 P Normal 0.89 58 1.53 GE-232-MVPS-L yes 120/277 P Low 0.71 47 1.51 GE-232-MAX-N+yes 120/277 I Normal 1.00 62 1.61 GE-232-MAX-L-42T yes 277 I Low 0.77 48 1.60 GE-232-MAX-H-42T yes 120/277 I High 1.15 73 1.58 GE-232-MAX-H yes 120/277 I High 1.19 74/73 1.61/1.63 GE-232-MAX-L/Ultra yes 120/277 I Low 0.77 48 1.60 GE-232-MAX-N/Ultra yes 120/277 I Normal 0.87 54 / 53 1.61/ 1.64 GE-232-MAX-H/Ultra yes 120/277 I High 1.15 74 / 73 1.55/ 1.58 GE-232-120-PS-N yes 120 P Normal 0.89 57 1.56 GE-232-277-PS-N yes 277 P Normal 0.89 57 1.56 Green Ballast Inc.DDH AX232B120 no 120/277 P Normal 0.99 64/66 1.55/1.50 EP232IS/MV/HE yes 120/277 I Normal 0.87 55 1.58 EP232IS/L/MV/HE yes 120/277 I Low 0.77 48 1.60 EP232IS/H/MV/SL yes 120/277 I High 1.18 74 1.59 EP332IS/H/MV/SL yes 120/277 I High 1.33 83 1.60 EP232PS/MV/HE no 120/277 P Normal 0.88 60/60 1.47 EP232PS/L/MV/HE no 120/277 P Low 0.77 52/52 1.48 HL232AIS/UV/HE/W no 120/277 I Low 0.77 48 1.60 HL232BIS/UV/HE/W no 120/277 I Normal 0.87 55 1.58 HL332AIS/UV/HE/W no 120/277 I Normal 0.92 57 1.61 HL332BIS/UV/HE/W no 120/277 I High 1.02/1.01 64/63 1.59/1.60 HL332CIS/UV/HE/W no 120/277 I High 1.27 82/81 1.55/1.57 HEP Group USA, Inc. HEP HE Ballast SI2117-32 UNI no 120/277 P Normal 1.00 59 1.69 E2/32IS-120HEX no 120 I Normal 0.87 55 1.58 E2/32IS-277HEX no 277 I Normal 0.87 55 1.58 EL2/32IS-277HEX no 277 I Low 0.77 48 1.60 EPL2/32IS/MV/SC/HE no 120/277 I Low 0.77 48 1.60 EP2/32IS/MV/SC/HE no 120/277 I Normal 0.87 54/53 1.61/1.64 EPH2/32IS/MV/SC/HE no 120/277 I High 1.14 73/72 1.56/1.58 EPH3/32IS/MV/SC/HE no 277 I High 1.25 80 1.56 EP2/32IS/MV/MC/HE no 120/277 I Normal 0.89 55/54 1.62/1.65 EPL2/32IS/MV/MC/HE no 277 I Low 0.78 48 1.63 EP2/32PRS/MV/MC/HE no 120/277 P Normal 0.88 57 / 56 1.54/1.57 EPH3/32IS/MV/MC/HE no 277 I Normal 1.27 80 1.59 EPL3/32IS/MV/MC/HE no 277 I Normal 0.92 57 1.61 EPH2/32IS/MV/MC/HE no 120/277 I High 1.18 74/73 1.59/1.61 Micro Case EPH2/32IS/MV/MC no 120/277 I High 1.18 74/73 1.59/1.62 KTEB-232-UV-IS-L-P yes 120/277 I Low 0.77 48 1.60 KTEB-232-UV-IS-N-P yes 120/277 I Normal 0.87 55 1.58 KTEB-232-UV-PS-N-P yes 120/277 P Normal 0.88 60 1.47 KTEB-232-UV-PS-L-P yes 120/277 P Low 0.77 52 1.48 KTEB-232-UV-PS-H-P yes 120/277 P High 1.18 78 1.51 KTEB-232-UV-IS-H-P yes 120/277 I High 1.18 74/73 1.60/1.61 DB-232H-MV-TP-HE no 120/277 I High 1.18 74/73 1.59/1.62 DB-232N-MV-TP-HE no 120/277 I Normal 0.87 55 1.58 DB-232L-MV-TP-HE no 120/277 I Low 0.77 48 1.60 Maintenance Engineering Premira Electronic Ballast BPM932 no 120/277 P Normal 0.88 55 1.60 Anti- Striation SKEU322AS no 120/277 I Normal 0.88 44 2.00 SKEU322HE/SC no 120/277 I Normal 0.89 55/54 1.62/1.65 SKEU322HEH/SC no 120/277 I High 1.19 76/75 1.57/1.59 SKEU322HEL/SC no 120/277 I Low 0.77 48/47 1.60/1.64 SKEU322HEL no 120/277 I Low 0.77 48 1.60 SKEU322L/SC no 120/277 I Low 0.78 48 1.63 SKE1323 no 120 I Normal 0.96 55 1.75 SKE1324 no 120 I High 1.05 67 1.57 SKE1324L no 120 I Normal 0.94 58 1.62 SKEU322H/SC no 120/277 I High 1.18 74/73 1.59/1.61 SKEU323HER/SC yes 120/277 P Normal 0.88 57/56 1.54/1.57 SKEU323HEHR/SC yes 120/277 P High 1.18 72/71 1.64/1.66 HE High Efficiency Hatch Lighting Lighting and Power Technologies Maxlite Keystone Technologies Proline Howard Industries General Electric Company - Ultramax ProLume High Efficiency Ballast Ultrastart HE Micro Case Ultrastart WorkhorseFulham Deltek HEX Electronic Premium Series Electronic Ballasts Halco Lighting Technologies HP 120 and 277 V T8 Ballasts Manufacturer Product Name Model Number NEMA4 Premium® Voltage (V) Ballast Type ² Ballast Factor Range Ballast Factor Input Watts (W) BEF³ EB-232PRS-U-ES yes 120/277 P Normal 0.88 57/56 1.54/1.57 EB-232PRS-U-ES-LBF yes 120/277 P Low 0.78 52/51 1.50/1.53 EB-232PRS-U-ES-HBF yes 120/277 P High 1.18 72/71 1.64/1.66 EB-232IS-U-ES yes 120/277 I Normal 0.89 55/54 1.62/1.65 EB-232IS-U-ES-LBF yes 277 I Low 0.78 48 1.62 EB-232IS-U-ES-HBF yes 120/277 I High 1.18 74/73 1.59/1.61 U-2/32IS no 120/277 I Normal 0.95 60 1.58 U-2/32IS HO no 120/277 I High 1.25 78 1.60 FX2T17-32M NO no 120/277 P Normal 0.86 56 1.54 FL2T17-32M NO no 120/277 P Normal 0.86 56 1.54 FL2T17-32M HO no 120/277 P High 1.19 76 1.57 FX2T17-32M HO no 120/277 P High 1.19 76 1.57 Orion Energy Systems HIGH EFFICIENCY OB2-T8-32-120/277-E-IN-0.9 no 120/277 I Normal 0.89 56 1.59 QHE 2X32T8/UNV ISH-SC yes 120/277 I High 1.20 74 / 73 1.62 /1.64 QHE 2X32T8/UNV ISL-SC yes 120/277 I Low 0.78 48 1.63 QHE 2X32T8/UNV ISL-SC-1 yes 120/277 I Low 0.77 48 1.60 QHE 2X32T8/UNV ISN-SC yes 120/277 I Normal 0.88 55 1.60 QHE 2X32T8/UNV ISN-SC-1 yes 120/277 I Normal 0.87 55 1.58 QHE 3X32T8/UNV ISN-SC yes 277 I Normal 0.99 62 1.60 QHE 4X32T8/UNV ISN-SC yes 120/277 I High 1.06 68 1.56 QHE 2x32T8/UNV-PSH-HT yes 120/277 P High 1.15 72/70 1.60/1.64 QHE 2x32T8/UNV-PSN-MC yes 120/277 P Normal 0.88 57/55 1.54/1.60 QTP 2X32T8/UNV PSN-TC yes 120/277 P Normal 0.88 59 / 56 1.49/ 1.57 QTP 2X32T8/UNV PSX-TC yes 120/277 P Low 0.71 47 / 46 1.51/ 1.54 QTP 2X32T8/UNV ISN-SC yes 277 I Normal 0.88 55.6 1.58 QTP 2X32T8/UNV ISH-SC yes 277 I High 1.20 77 1.56 QHE 2x32T8/UNV ISM-SC yes 120/277 I Medium 1.00 63/62 1.61 IOP-2P32-HL-SC yes 120/277 I High 1.18 74/72 1.59/ 1.64 IOP-2S32-SC yes 120/277 P Normal 0.88 56 1.57 IOP-2P32-SC @ 120V yes 120 I Normal 0.87 55 1.58 IOP-2P32-SC @ 277V yes 277 I Normal 0.87 54 1.61 IOP-2P32-LW-SC yes 120/277 I Low 0.77 48 1.60 IOP-2S32-LW-SC yes 120/277 P Low 0.71 47 1.51 IOPA-2P32-LW-SC yes 120/277 I Low 0.77 48 1.60 IOPA-2P32-SC yes 120/277 I Normal 0.87 54 1.61 IOPA-2P32-HL-SC yes 120/277 I High 1.18 74/72 1.59/1.64 IOP-2PSP32-SC yes 120/277 P Normal 0.85 58 1.47 IOPANA-2P32SC no 277 I Normal 1.00 59 1.69 IOPA-2P32-N yes 120/277 I Normal .87/.89 55/56 1.58/1.59 IOP-2PSP32-LW-SC yes 120/277 P Low 0.71 46/45 1.54/1.58 IOPA-2P32-LW-N yes 277 I Low .77/.80 48/50 1.60 REL-2P32-HL-SC no 120 I High 1.20 77 1.56 VEL-2P32-HL-SC no 277 I High 1.20 77 1.56 ICN-2P32-LW-SC yes 277 I Low 0.78 48 1.63 ICN-2P32N yes 120/277 I Normal 0.89 56 1.59 70201 no 120/277 I Normal 0.87 54/53 1.61/1.64 70210 no 120/277 P Normal 0.88 54.6/54.7 1.61 70213 no 120/277 I High 1.18 73/74 1.62/1.59 SL-2/32IS-120 (70209)no 120 I Normal 0.88 56 1.60 SL-2/32IS-277 (70200)no 277 I Normal 0.88 56 1.60 ISL232T8HEMVL yes 120/277 I Low 0.77 48/47 1.60/1.64 ISA232T8HEMV yes 120/277 I Normal 0.89 55 1.62 ISA232T8HEMVH yes 120/277 I High 1.18 74/73 1.59/1.62 ISA232T8HEMVL yes 277 I Low 0.78 48 1.63 ISL232T8HEMV yes 277 I Normal 0.88 55 1.60 ISS232T8HEMVH yes 120/277 I High 1.18/1.19 75/76 1.57 ISU232T8HEMV yes 120/277 I Normal .92/.93 58 1.58/1.60 ISU232T8HEMVL yes 120/277 I Low 0.82 51 1.61 ISS332T8HEMVH yes 120/277 I High 1.33/1.34 85 1.56/1.58 ISS332T8HEMV yes 120/277 I High 1.01/1.03 64/65 1.58 PSS232T8HEMV yes 120/277 P Normal 0.93 61 1.52 PSA232T8HEMV yes 120/277 P Normal 0.88 58/56 1.52/1.57 PSA232T8HEMH yes 120/277 P High 1.18 76/74 1.55/1.60 PSL232T8HEMV yes 120/277 P Normal 0.88 60/59 1.47/1.49 NLO232T8PIS no 120 P Normal 0.90 58 1.55 NLU232T8PIS no 120/277 P Normal 0.90 58/59 1.55/1.53 SLU232T8HPIS-ROHS no 120/277 P High 1.18/1.20 73 1.62/1.64 NU232T8RS-ROHS no 120/277 P Normal 0.90 61 1.48 NU240T8RS-ROHS no 120 P High 1.20 75 1.60 SLU232T8HPIS-ROHS no 120/277 I High 1.18/1.20 73 1.62/1.64 SU232T8LMCIS-ROHS no 120/277 I Low 0.78 48.9 1.60 E2-32-I-UV-H no 120/277 I High 1.18/1.20 73/74 1.62 E2-32-I-UV-N no 120/277 I Normal 0.88 55 1.60 E2-32-I-UV-L no 120/277 I Low 0.77 48 1.60 E-758-F-232-HL no 120 I High 1.16 74 1.57 E-758-F-232SC no 120 I Normal 0.91 57 1.60 E-758-U-232SC no 120/277 I Normal 0.94 58.5 1.61 Quicktronic Electronic Ballast Philips - Advance SLI Lighting/Havells USA OSRAM SYLVANIA P.Q.L., Inc. Sage Lighting Ltd 2 Lamp ProductsSLI High Efficiency Ballast MW McWong International Sage Standard Robertson Worldwide Mylar Electronics Co, Ltd. SOLA Canada Lighting & Power Inc Sterling Series Optanium - Omnitronix Engineering LLC Sola Superior Life Smart Ballast Centium HP 120 and 277 V T8 Ballasts Manufacturer Product Name Model Number NEMA4 Premium® Voltage (V) Ballast Type ² Ballast Factor Range Ballast Factor Input Watts (W) BEF³ E232T8IS120/N no 120 I Normal 0.88 55 1.60 E232T8IS120/N/BULK no 120 I Normal 0.88 55 1.60 E232T8IS120/L no 120 I Low 0.78 48 1.63 E232T8PS120-277/N/XTRM no 120/277 P High 1.20 75 1.60 E232T8PS120- 277/N/AS/BULK no 120/277 P Normal 0.88 57/56 1.54/1.57 E232T8S120-277/L/AS/BULK no 120/277 P Low 0.78 52/51 1.50/1.53 E232T8PRS120-277/L no 120/277 P Low 0.71 47 1.51 E232T8PRS120-277/N no 120/277 P Normal 0.88 56/55 1.57/1.60 OptiStart E232SPR120-277L no 120/277 P Low .67/.70 42/44 1.60/1.59 U-2/32IS yes 120/277 I Normal 0.89 55.7 1.60 U-2/32IS HBF yes 120/277 I High 1.17 74.9 1.56 U-2/32ISE yes 120/277 I Normal 0.89 54 1.65 U-2/32ISE-HBF yes 120/277 I High 1.18 73 1.62 U-2/32ISE-LBF yes 120/277 I Low 0.78 48 1.63 U-2/32PSE yes 120/277 P Normal 0.88 56 1.57 U-2/32PSE-HBF yes 120/277 P High 1.15 71.6 1.61 Superior Lamps, Inc. Heavy Duty Electronic Ballast BPS932 no 120/277 P Normal 0.88 55 1.60 SwitchGenie, LLC.SwitchGenie SG232 no 120/277 I Normal 0.88 54 1.63 E32IS32120H no 120 I High 1.22 77 1.58 E32IS32277H no 277 I High 1.22 78 1.57 E432IS32120N no 120 I Normal 0.89 55.9 1.59 E432IS32277N no 277 I Normal 0.99 63 1.58 E432IS32120L no 120 I Low 0.79 49 1.60 E432IS32120U no 120 I Low 0.72 44 1.62 TCP2P32ISUNVLE yes 277 I Low 0.78 48 1.63 TCP2P32ISUNVE yes 120/277 I Normal 0.89 55/54 1.62/1.65 TCP2P32ISUNVHE yes 120/277 I High 1.18 74/73 1.60/1.62 TCP2P321SUNVH yes 120/277 I High 1.18 73/72 1.61/1.64 E2P32ISUNVHE yes 120/277 I High 1.18 73/72 1.61/1.64 TCP2P32ISUNV yes 120/277 I Normal 0.88 54/53 1.63/1.66 E2P32ISUNVE yes 120/277 I Normal 0.88 54/53 1.63/1.66 TCP2P32ISUNVL yes 120/277 I Low 0.78 48 1.63 E2P32ISUNVLE yes 120/277 I Low 0.78 48 1.63 E3P32ISUNVE yes 120/277 I Normal 0.99 62 1.60 E3P32ISUNVHE yes 120/277 I High 1.27 82/81 1.55/1.57 APC 402 U no 120/277 P Normal 0.95 61 1.56 APC 402 U no 120/277 P High 1.10 68 1.62 SR232120 no 120 P Normal 0.88 55 1.60 SR232277 no 277 P Low 0.85 53 1.60 UT232120MH no 120/277 I High 1.18 75 1.57 UT232120M-HE no 120/277 I Normal 0.87 55 1.58 UT332120M-HE no 120/277 I Normal 1.00 63 1.59 PR232120M-HE no 120/277 P Normal 0.93 62 1.50 UT232120ML-HE no 120/277 I Low 0.77 48 1.60 UT332120MH-HE no 120/277 I High 1.26 81 1.56 PR232120M-P-HE no 120/277 P Normal 0.87 56 1.55 PR232120ML-P-HE no 120/277 P Low 0.70 46 1.52 PR232120M-PP-HE no 120/277 P Normal 0.91 61 1.49 B332I277HE yes 277 I High 1.01 61 1.66 B232IUNV104-A yes 120/277 I High 1.04 65/64 1.60/1.63 B232PUNVHE-A yes 120/277 P Normal 0.88 56/55 1.57/1.60 B232PUNVEL-A yes 120/277 P Low 0.71 47/46 1.51/1.54 B332PUNVHP-A yes 120/277 P Normal 0.99 64 / 63 1.55/1.57 B232IUNVHP-B yes 277 I Normal 0.88 55 1.60 B332I120HE yes 120 I Normal 0.96 60 1.60 B332I120L-A yes 120 I Normal 0.92 58 1.59 B332IUNVEL-A yes 277 I Normal 0.89 56 1.59 B232PUNVHP-A yes 277 P Normal 0.88 60 1.47 B232I120HE yes 120 I Normal 0.87 54 1.61 B232I277HE yes 277 I Normal 0.87 53 1.64 B232IUNVHE-A yes 120/277 I Normal 0.87 55 / 54 1.58/1.61 B332I277EL yes 277 I Normal 0.87 55 1.58 B332I120EL yes 120 I Normal 0.86 53 1.62 B232I120EL yes 120 I Low 0.77 47 1.64 B232I2770EL yes 277 I Low 0.77 47 1.64 B232IUNVEL-A yes 120/277 I Low 0.77 48 1.60 B232IUNVHEH-A yes 120/277 I High 1.18 74/73 1.59/1.61 B232PUNVEL-A yes 120/277 P Low 0.71 47/46 1.51/1.54 B232PUNVEL-B no 120/277 P Low 0.71 46/44 1.54/1.61 B232PUNVHE-A yes 120/277 P Normal 0.88 56/55 1.57/1.60 B232PUNVHE-B no 120/277 P Normal 0.88 55/54 1.60/1.63 Triad B232IUNV104-A yes 120/277 I High 1.04 65/64 1.60/1.63 HP T8 Qualified Ballasts with 3 Lamps A*-332-IP-UNV yes 277 I Normal 0.88 83 1.06 A*-332IP-H-UNV no 120/277 I High 1.18 112/109 1.05/1.08 A*-332IP-L-UNV no 120/277 I Low 0.77 73 1.05 Technical Consumer Products, Inc. Sunpark Electronics Corp. ACCUPRO Universal Lighting Technologies TransPower Company Ultra Lumen E432 Energy Saving Ballast F32 T8 Ultim8 HiLumen High Efficiency Standard Products, Inc. - Ultrasave Lighting Ltd. - Gold Label E32 HP 120 and 277 V T8 Ballasts Manufacturer Product Name Model Number NEMA4 Premium® Voltage (V) Ballast Type ² Ballast Factor Range Ballast Factor Input Watts (W) BEF³ AB3-32-IP-UNV-HE yes 120/277 I Normal 0.88 83 1.06 AB3-32-IP-UNV-1 yes 120/277 I Normal 0.88 83 1.06 AB3-32-IP-UNV-HBF yes 120/277 I High 1.18 112/109 1.05/1.08 AB3-32-IP-UNV-LX yes 120/277 I Low 0.77 73 1.05 EB332UIH yes 120/277 I High 1.18 108/106 1.09/1.11 EB332UI yes 120/277 I Normal 0.87 83 1.05 DXE3H8 no 120 I Normal 0.92 83 1.11 DXE3H81 no 120 I Normal 0.88 82 1.07 DXE3H8U no 120/277 I Normal 0.88 83/82 1.06/1.07 DXE3H8U-HBF no 120/277 I High 1.18 109/107 1.08/1.10 Dynamic Ballast High Efficiency DY 332 IS WV - HE no 120/277 I Normal 0.88 83 1.06 Energy Efficient Lighting Supply High Efficiency EEL-ISB-F32-3-MVOLT no 120/277 I Normal .94/.96 89/91 1.06/1.05 VE332120HIP yes 120 I Normal 0.88 84 1.05 VE332120HIPH yes 120 I High 1.18 109 1.08 VE432120HIPE yes 120 I Normal 1.00 94 1.06 VE332MVHIPLE yes 277 I Low 0.78 74 1.05 VE332MVHIPE yes 120/277 I Normal 0.88 84/83 1.05/1.06 VE332MVHIPHE yes 120/277 I High 1.17 110/108 1.06/1.08 VE332MVHIPH yes 120/277 I High 1.18 109/107 1.08/1.10 VE332MVHRPE yes 120/277 P Normal 0.88 87/85 1.01/1.03 VE332MVHRPHE yes 120/277 P High 1.18 113/110 1.04/1.07 WHSG3-UNV-T8-IS no 277 I Normal 0.88 83 1.06 WHCG4-120-T8-IS no 120 I Normal 0.99 91 1.09 WHSG3-UNV-T8-HB no 120/277 I High 1.18 109/107 1.08/1.10 WHSG3-UNV-T8-LB no 277 I Low 0.78 74 1.05 WHSG4-UNV-T8-HB no 120/277 I High 1.19 115/112 1.04/1.06 WHSG4-UNV-T8-IS no 277 I Normal 0.96 89 1.08 FB432MVE no 120/277 I Normal 0.99 92 1.08 FB432MVE-HE no 120/277 I Normal 0.96 88 1.09 Proline GE-332-277-N yes 277 I Normal 0.88 84 1.05 GE-332-MV-L yes 120/277 I Low 0.78 74/73 1.07 GE-332-MV-N yes 120/277 I Normal 0.87 81/80 1.09 GE-332-MV-H yes 120/277 I High 1.15 113/110 1.05 GE-332-MAX-N+yes 120/277 I Normal 1.00 91/90 1.10/1.11 GE-332-MAX-N-42T yes 120/277 I Normal 0.87 82/80 1.06/1.09 GE-332-MAX-L-42T yes 120/277 I Low 0.77 72/71 1.07/1.08 GE-332-MAX-H-42T yes 120/277 I High 1.18 106/104 1.11/1.13 GE-332-MAX-H/Ultra yes 120/277 I High 1.18 1.06/1.04 1.11/1.13 GE-332-MAX-L/Ultra yes 120/277 I Low 0.77 72/71 1.07/1.08 GE-332-MAX-N/Ultra yes 120/277 I Normal 0.87 82 / 80 1.06/1.09 GE-332-MVPS-L yes 120/277 P Low 0.71 68 1.04 GE-332-MVPS-N yes 120/277 P Normal 0.89 84 1.06 GE-332-MV-PS-H yes 120/277 P High 1.15 110/108 1.04/1.06 GE-332-120-PS-N yes 120 P Normal 0.89 84 1.06 GE-332-277-PS-N yes 277 P Normal 0.89 85 1.05 EP332IS/L/MV/HE yes 120/277 I Low .78/.77 75/74 1.04 EP332IS/MV/HE yes 120/277 I Normal .87/.88 83/81 1.05/1.09 EP332IS/H/MV/SL yes 120/277 I High 1.18 108 1.09 EP432IS/L/MV/HE yes 120/277 I Normal .87/.86 81/78 1.07/1.10 EP432IS/MV/HE yes 120/277 I Normal .94/.95 89/88 1.06/1.08 EP432IS/L/MV/SL yes 120/277 I Low 0.84 79 1.06 EP432PS/L/MV/HE no 120/277 P Low .78/.79 78 1/1.01 HL432AIS/UV/HE/W no 120/277 I Normal .87/.86 81/78 1.07/1.10 HL432BIS/UV/HE/W no 120/277 I Normal .94/.95 89/88 1.06/1.08 HL332AIS/UV/HE/W no 120/277 I Normal .78/.77 75/74 1.04 HL332BIS/UV/HE/W no 120/277 I High .87/.88 83/81 1.05/1.09 HL332CIS/UV/HE/W no 120/277 I High 1.18 111/108 1.06/1.09 E3/32IS-277 HEX no 277 I Normal 0.87 83 1.05 E3/32IS-120 HEX no 120 I Normal 0.87 83 1.05 EL3/32IS-120 HEX no 120 I Low 0.77 73 1.05 EL3/32IS/MV/SC/HE no 277 I Low 0.75 71 1.06 EL3/32IS-277 HEX no 277 I Low 0.77 73 1.05 EP3/32IS/MV/SC/HE no 120/277 I Normal 0.87 82/80 1.06/1.09 EPH3/32IS/MV/SC/HE no 120/277 I High 1.15 110/107 1.05/1.07 EPL4/32IS/MV/SC/HE no 120/277 I Low 0.84 80 / 79 1.05/1.06 EPL3/32IS/MV/SC/HE no 120/277 I Low 0.75 72/71 1.04/1.06 EP4/32IS/MV/SC/HE no 277 I Normal 0.92 88 1.05 EP3/32IS/MV/MC no 120/277 I Normal 0.88 84/83 1.05/1.06 EPL3/32IS/MV/MC no 120/277 I Low 0.78 75/74 1.04/1.05 EPH3/32IS/MV/MC no 120/277 I High 1.18 109/107 1.08/1.10 EP3/32IS/MV/MC/HE no 120/277 I Normal 0.88 84/83 1.05/1.06 EP4/32IS/MV/MC/HE no 277 I Normal 0.96 89 1.08 EPH3/32IS/MV/MC/HE no 120/277 I High 1.18 109/107 1.08/1.10 EPL3/32IS/MV/MC/HE no 120/277 I Low 0.78 75/74 1.04/1.05 HE High Efficiency General Electric Company Fusion Ballasts HE Micro Case Atlas Lighting Products, Inc. Hatch Lighting Espen Technology, Inc. DuroPower (BallastWise) HEX Electronic Hatch - Elite Micro Case Ultrastart Ballastwise WorkhorseFulham - Ultramax American Ballast High Efficiency Howard Industries Electronic ballasts ProLumeHalco Lighting Technologies Apollo HP 120 and 277 V T8 Ballasts Manufacturer Product Name Model Number NEMA4 Premium® Voltage (V) Ballast Type ² Ballast Factor Range Ballast Factor Input Watts (W) BEF³ Jefferson Electric Jefferson 401-4320-UNV no 277 I Normal 0.94 89 1.06 KTEB-332EBF-UV-TP-PIC no 120/277 I Low 0.77 74 1.04 KTEB-332HBF-UV-TP-PIC no 120/277 I High 1.18 108 1.09 KTEB-332-UV-IS-L-P yes 120/277 I Low .78/.77 75/74 1.04 KTEB-332-UV-IS-N-P yes 120/277 I Normal .87/.88 83/81 1.05/1.09 KTEB-332-UV-PS-N-P yes 120/277 P Normal 0.88 88 1.00 KTEB-332-UV-PS-L-P yes 120/277 P Low 0.77 79 0.97 KTEB-332-UV-PS-H-P yes 120/277 P High 1.18 114 1.04 KTEB-332-UV-IS-H-P yes 120/277 I High 1.18 111/108 1.06/1.09 DB-332H-MV-TP-HE no 120/277 I High 1.18 111/108 1.06/1.09 DB-332N-MV-TP-HE no 120/277 I Normal .87/.88 83/81 1.05/1.09 DB-332L-MV-TP-HE no 120/277 I Low .78/.77 75/74 1.04 Maintenance Engineering Premira Electronic Ballast BPM933 no 120/277 P Normal 0.88 81 1.09 SKEU324HE no 120/277 I Normal 0.96 89 1.08 SKEU324HEL no 120/277 I Normal 0.86 80 1.08 SKEU323HEL/SC no 120 I Low 0.78 74 1.05 SKEU323HE/SC no 120/277 I Normal 0.88 84/83 1.05/1.06 SKEU323HEH/SC no 120/277 I High 1.17 110/108 1.06/1.08 SKE1323/SC no 120 I Normal 0.88 84 1.05 SKE1323H/SC no 120 I High 1.18 109 1.08 SKEU323H/SC no 120/277 I High 1.18 109/107 1.08/1.10 SKEU323L/SC no 277 I Low 0.78 74 1.05 SKEU323/SC no 120/277 I Normal 0.88 85 1.04 SKE1323 no 120 I Normal 0.88 75 1.17 SKE1324 no 120 I Normal 0.96 91 1.06 SKE1324L no 120 I Low 0.85 77 1.10 SKEU1324L no 120 I Low 0.84 77 1.09 SKEU323HER/SC yes 120/277 P Normal 0.88 87/85 1.01/1.04 SKEU323HEHR/SC yes 120/277 P High 1.18 113/110 1.04/1.07 EB-332PRS-U-ES yes 120/277 P Normal 0.88 87/85 1.01/1.03 EB-332IS-U-ES yes 120/277 I Normal 0.88 84/83 1.05/1.06 EB-332IS-U-ES-LBF yes 277 I Low 0.78 74 1.05 EB-332IS-U-ES-HBF yes 120/277 I High 1.18 108/106 1.09/1.11 U-3/32IS no 120/277 I Normal 0.95 88 1.08 U-3/32IS HO no 120/277 I High 1.15 104 1.11 QHE 3X32T8/UNV ISH-SC yes 120/277 I High 1.18 111/109 1.06/1.08 QHE 3x32T8/UNV-PSH-HT yes 120/277 P High 1.15 110/108 1.05/1.07 QHE 3X32T8/UNV ISL-SC yes 120/277 I Low 0.78 73/72 1.08 QHE 3X32T8/UNV ISL-SC1 yes 120/277 I Low 0.77 73 1.05 QHE 3X32T8/UNV ISN-SC yes 120/277 I Normal 0.88 83 / 82 1.06/1.07 QHE 3X32T8/UNVISN-SC1 yes 120/277 I Normal 0.87 82/81 1.06/1.07 QHE 4X32T8/UNV ISL-SC yes 120/277 I Low 0.85 80 1.06 QHE 4X32T8/UNV ISN-SC yes 120/277 I Normal 0.96 90/89 1.07/1.08 QHE 3X32T8/UNV PSN-SC yes 120/277 P Normal 0.88 83/82 1.06/1.07 QTP 3X32T8/UNV PSN-SC yes 120/277 P Normal 0.88 88 / 85 1/1.04 QTP 3X32T8/UNV PSX-SC yes 120/277 P Low 0.71 73/71 .97/1.00 QTP 3X32T8/UNV ISH-SC yes 120/277 I High 1.18 114/111 1.04/1.06 QTP 3X32T8/UNV ISN-SC yes 277 I Normal 0.88 84 1.05 QTP 3X32T8/UNV ISL-SC yes 277 I Low 0.78 75 1.04 QHE 3x32T8/UNV ISM-SC yes 120/277 I Medium 0.98 90/89 1.10 ICN-3P32-SC yes 277 I Normal 0.88 84 1.05 ICN-3P32-LW-SC yes 120/277 I Low 0.77 73 1.05 IOP-3P32-HL-90C-SC yes 120/277 I High 1.18 110/107 1.07/1.10 IOP-3S32-SC yes 120/277 P Normal 0.88 83 1.06 IOP-3P32-SC @ 120V yes 120 I Normal 0.87 82 1.06 IOP-3P32-SC @ 277V yes 277 I Normal 0.87 80 1.09 IOP-3P32-LW-SC @ 120V yes 120 I Low 0.77 73 1.05 IOP-3P32-LW-SC @ 277V yes 277 I Low 0.77 71 1.08 IOP-3S32-LW-SC yes 120/277 P Low 0.71 72 0.99 IOPA-3P32 LW-SC yes 120/277 I Low 0.77 73/71 1.05/1.08 IOPA-3P32-SC yes 120/277 I Normal 0.87 82/80 1.06/1.09 IOPA-3P32-HL-SC yes 120/277 I High 1.18 110/107 1.07/1.10 IOP-3PSP32-SC yes 120/277 P Normal 0.88 84/85 1.05/1.04 IOPA-4P32-HL yes 120/277 I High 1.29 122/120 1.06/1.08 70204 no 120/277 I Normal 0.88 84/83 1.05/1.06 70205 no 120/277 I Normal 0.88 84/83 1.05/1.06 70208 no 120/277 I Normal 0.88/0.90 83 / 86 1.06/1.05 70211 no 120/277 P Normal 0.94/0.96 89 / 91 1.06/1.05 70214 no 120/277 I High 1.28/1.31 109/111 1.17/1.18 70220 no 120/277 I Normal 0.85 76 / 77 1.12/1.10 SL-3/32IS-120 (70212)no 120 I Normal 0.88 84 1.05 SL-3/32IS-277 (70203)no 277 I Normal 0.88 84 1.05 Mylar Electronics Co, Ltd. High Efficiency Ballast Maxlite Keystone Technologies 3 Lamp ProductsSuperior Life High Efficiency OSRAM SYLVANIA Lighting and Power Technologies Deltek Philips - Advance P.Q.L., Inc. Electronic Ballast Optanium Quicktronic Centium MW McWong International Electronic Ballast High Efficiency Ballast Premium Series HP 120 and 277 V T8 Ballasts Manufacturer Product Name Model Number NEMA4 Premium® Voltage (V) Ballast Type ² Ballast Factor Range Ballast Factor Input Watts (W) BEF³ ISA332T8HEMV yes 120/277 I Normal 0.88 84/83 1.05/1.06 ISA332T8HEMVH yes 120/277 I High 1.18 108/106 1.09/1.11 ISA332T8HEMVL yes 277 I Low 0.78 74 1.05 ISL332T8HEMVL yes 120/277 I Low 0.77 73/72 1.05/1.07 ISL332T8HEMV yes 120/277 I Normal 0.88 83/81 1.06/1.09 ISS332T8HEMVL yes 120/277 I Low .80/.81 76/77 1.05 ISS332T8HEMVH yes 120/277 I High 1.16/1.17 110/111 1.05 ISS332T8HEMV yes 120/277 I Normal 0.92 85/86 1.08/1.07 ISS432T8HEMVL yes 120/277 I Low .84/.85 80 1.05/1.06 ISS432T8HEMV yes 120/277 I Normal 0.97 90/91 1.08/1.07 - PSL432T8HEMV yes 277 P Normal .98/.99 95 1.03/1.04 SAU440IS-ROHS no 120 P Normal 0.91 89 1.02 SAU440HPIS-ROHS no 120/277 I High 1.43 117 1.22 E3-32-I-UV-L no 120/277 I Low 0.78 73 1.07 E3-32-I-UV-N no 120/277 I Normal 0.88 83 1.06 E3-32-I-UV-H no 120/277 I High 1.18 104 1.13 SOLA Canada Lighting & Power Inc Sola E-758-F-332 no 120 I Normal 0.86 82 1.05 E332T8IS120/N no 120 I Normal 0.90 83 1.08 E332T8IS120/L no 120 I Low 0.78 73 1.07 E332T8IS120/L/BULK no 120 I Low 0.78 73 1.07 E332T8IS120/L/90C/BULK no 120 I Low 0.77 73 1.05 E432T8IS120/L no 120 I Low 0.85 80 1.06 E432T8IS120/N no 120 I Normal 0.97 88 1.10 E432T8IS120/N/BULK no 120 I Normal 1.00 93 1.08 E432T8IS120-277/N no 120/277 I Normal 0.94 89 1.06 E432T8IS120/L/BULK no 120 I Low 0.85 80 1.06 E432T8IS120/H no 120 I High 1.15 109 1.06 E432T8IS120/H/90C no 120 I High 1.15 109 1.06 E432T8PS120- 277/L/AS/BULK no 120/277 P Low 0.76 78 0.97 E432T8PS120- 277/N/AS/BULK no 120/277 P Normal 0.94/0.96 89/91 1.06/1.05 E432T8PRS120-277/N no 120/277 P Normal 0.94 89 1.06 E432T8PRS120-277/L no 120/277 P Normal 0.87 78 1.12 U-3/32IS HPF yes 120/277 I Normal 0.89 82.9 1.07 U-3/32IS HBF yes 120/277 I High 1.17 109.8 1.07 U-3/32ISE yes 120/277 I Normal 0.88 83 1.06 U-3/32ISE-HBF yes 120/277 I High 1.18 106 1.11 U-3/32ISE-LBF yes 120/277 I Low 0.78 74 1.05 U-3/32PSE no 120/277 P Normal 0.88 85 1.04 U-3/32PSE-HBF no 120/277 P High 1.18 110 1.07 U-332PS3 no 277 P Normal 1.00 100 1.00 U-332PS3-HBF no 120/277 P High 1.15 115/111 1.00/1.04 Superior Lamps, Inc. Heavy Duty Electronic Ballast BPS933 no 120/277 P Normal 0.88 81 1.09 SwitchGenie, LLC.SwitchGenie SG332 no 120/277 I Normal 0.88 81 1.09 E32IS32120H no 120 I High 1.20 114 1.05 E32IS32277H no 277 I High 1.18 112 1.06 E432IS32120N no 120 I Normal 0.87 80 1.08 E432IS32277N no 277 I Normal 0.95 89 1.07 E432IS32120L no 120 I Low 0.84 78 1.07 E432IS32120U no 120 I Low 0.77 72 1.07 E432IS32277L no 277 I Low 0.82 77 1.07 E432IS32277U no 277 I Low 0.77 71 1.08 TCP3P32ISUNVLE yes 277 I Low 0.78 74 1.05 TCP3P2ISUNVE yes 120/277 I Normal 0.88 84/83 1.05/1.06 TCP3P32ISUNVHE yes 120/277 I High 1.18 108/106 1.09/1.11 TCP3P32ISUNVH yes 120/277 I High 1.18 109/107 1.08/1.10 E3P32ISUNVHE yes 120/277 I High 1.18 109/107 1.08/1.10 TCP3P32ISUNV yes 120/277 I Normal 0.88 84/83 1.05/1.06 E3P32ISUNVE yes 120/277 I Normal 0.88 84/83 1.05/1.06 TCP3P32ISUNVL yes 120/277 I Low 0.78 75/74 1.04/1.05 E3P32ISUNVLE yes 120/277 I Low 0.78 75/74 1.04/1.05 E4P32ISUNVLE yes 120/277 I Normal 0.86 78/77 1.10/1.12 E4P32ISUNVE yes 120/277 I Normal 0.94 89 1.06 E4P32ISUNVHE yes 120/277 I High 1.27 122/120 1.04/1.06 BB-T8/UVH-4x32/HPF no 120 I Normal 0.90 84 1.07 BB-T8/UVH-3x32/HPF no 120 I Normal 0.86 81 1.06 UT332120 no 120 I Normal 0.89 83 1.07 UT332120M no 120/277 I Normal 0.89 83 1.07 UT332120MH no 120/277 I High 1.18 110 1.07 UT432120 no 120 I Normal 1.00 93 1.08 UT432120M no 120/277 I Normal 1.00 93 1.08 eT432120M no 120/277 I Normal 0.99 92 1.08 GTL432120 no 120 I Normal 0.91 86 1.06 UT432120L no 120 I Low 0.82 78 1.05 UT432120M-HE no 120/277 I Normal 0.96 88 1.09 UT332120M-HE no 120/277 I Normal 0.87 82 1.06 UT332120MH-HE no 120/277 I High 1.13 108 1.05 UT332120ML-HE no 120/277 I Low 0.76 73 1.04 PR432120M-PP-HE no 120/277 P Normal 0.95 89 1.07 T8 Electronic Ballast - Standard Products, Inc. Optistart E432 E32 Technical Consumer Products, Inc. Topstar International Inc. - HiLumen SLI Lighting/Havells USA Sage Lighting Ltd Ultra Lumen Ultrasave Lighting Ltd. Sunpark Electronics Corp. Sage Sterling Series SLI Robertson Worldwide Gold Label HP 120 and 277 V T8 Ballasts Manufacturer Product Name Model Number NEMA4 Premium® Voltage (V) Ballast Type ² Ballast Factor Range Ballast Factor Input Watts (W) BEF³ B332I120RHH yes 120 I High 1.18 113 1.04 B332I277RHH yes 277 I High 1.18 113 1.04 B332I277RHU-A yes 277 I High 1.08 102 1.06 B432I277HEH yes 277 I High 1.28 119 1.08 B332IUNVHP-A yes 277 I Normal 0.88 83 1.06 B332I120HE yes 120 I Normal 0.87 80 1.09 B332I277HE yes 277 I Normal 0.87 79 1.10 B432I120HE yes 120 I Normal 0.96 88 1.09 B432I277HE yes 277 I Normal 0.96 89 1.08 B332IUNVHE-A yes 120/277 I Normal 0.87 83 / 81 1.05/1.07 B432I120EL yes 120 I Low 0.84 79 1.06 B332IUNVHEH-A yes 120/277 I High 1.18 111/108 1.06/1.09 B332PUNVEL-A no 120/277 P Low 0.71 70/69 1.01/1.03 B332PUNVHE-A no 120/277 P Normal 0.88 84/82 1.05/1.07 B432PUNVHP-A yes 120/277 P Normal 0.93 92/90 1.01/1.03 B432IUNVHP-A yes 277 I Normal 0.94 89 1.06 B432IUNVHE-A yes 120/277 I Normal 0.96 84/82 1.14/1.17 B432I277EL yes 277 I Normal 0.87 76 1.14 B432I120EL yes 120 I Normal 0.85 73 1.16 B332I120EL yes 120 I Low 0.77 70 1.10 B332IUNVEL-A yes 120/277 I Low 0.77 74 / 73 1.04/1.05 ES1720B yes 120/277 I Normal 0.87 80/82 1.09/1.06 A*-432-IP-UNV yes 277 I Normal 0.88 108 0.81 A*-432IP-H-UNV no 120/277 I High 1.18 147/144 .80/.82 A*-432IP-L-UNV no 120/277 I Low 0.77 96 0.80 AB4-32-IP-UNV-HE yes 120/277 I Normal 0.88 109 0.81 AB4-32-IP-UNV-1 yes 120/277 I Normal 0.88 109 0.81 AB4-32-IP-UNV-HBF yes 120/277 I High 1.18 147/144 .80/.82 AB4-32-IP-UNV-LX yes 120/277 I Low 0.77 96 0.80 EB432UIH yes 120/277 I High 1.18 140/134 .86/.90 EB432UI yes 120/277 I Normal 0.87 109 0.80 DXE4H8 no 120 I Normal 0.92 111 0.83 DXE4H81 no 120 I Normal 0.88 108 0.81 DXE4H8U no 120/277 I Normal 0.88 109/107 .81/.82 Dynamic Ballast High Efficiency DY 432 IS WV - HE no 120/277 I Normal 0.88 106 0.83 Energy Efficient Lighting Supply High Efficiency EEL-ISB-F32-4-MVOLT no 120/277 I Normal .87/.88 106/108 .82/.81 VE432MVHIPL yes 120/277 I Low 0.77 98/96 0.79/0.80 VE432MVHIPE yes 120/277 I Normal 0.88 110/108 0.80/0.81 VE432MVHIPHE yes 120/277 I High 1.16 145/144 0.80/0.81 VE432MVHIPH yes 120/277 I High 1.16 145 0.80 VE432MVHIPLE yes 120/277 I Low 0.77 98/96 0.79/0.80 Apollo VE432120HIPE yes 120 I Normal 0.88 110 0.80 WHSG4-UNV-T8-IS no 120 I Normal 0.88 108 0.81 WHSG4-UNV-T8-IS no 277 I Normal 0.92 112 0.82 WHCG4-277-T8-IS no 277 I Normal 0.89 110 0.81 WHSG4-UNV-T8-LB no 120/277 I Low .79/.80 98/96 .81/.83 WHSG4-UNV-T8-HB no 120/277 I High 1.16 145/144 .80/.81 FB432MVE no 120/277 I Normal 0.87 108 0.81 FB432MVE-HE no 120/277 I Normal 0.86 106 0.81 GE-432-MV-L yes 120/277 I Low 0.80 100/98 .80/.82 GE-432-MV-N yes 120/277 I Normal 0.88 110 0.80 GE-432-MV-H yes 120/277 I High 1.18 146/143 .81/.83 GE-432-MAX-H/Ultra yes 120/277 I High 1.18 148/145 .80/.81 GE-432-MAX-N/Ultra yes 120/277 I Normal 0.87 108/106 .81/.82 GE-432-MAX-L/Ultra yes 120/277 I Low 0.77 97/95 .79/.81 GE-432-MAX-N+yes 120/277 I Normal 1.00 121 0.83 GE-432-MAX-N-42T yes 120/277 I Normal 0.87 108/106 .81/.82 GE-432-MAX-L-42T yes 120/277 I Low 0.77 97/95 .79/.81 GE-432-MAX-H-42T yes 120/277 I High 1.15 148/145 .80/.81 GE-432-277-PS-N yes 277 I Normal 0.88 110 0.80 GE-432-120-PS-N yes 120 P Normal 0.89 112 0.79 GE-432-MVPS-N yes 120/277 P Normal 0.89 114/112 .78/.79 GE-432-MVPS-L yes 120/277 P Low 0.71 88 0.81 GE-432-MVPS-H yes 120/277 P High 1.16 144 0.81 GE-432-277-N yes 277 I Normal 0.88 110 0.80 EP432IS/L/MV/HE yes 120/277 I Low .78/.77 98/96 0.80 EP432IS/MV/HE yes 120/277 I Normal .88/.87 110/106 .80/.82 EP432IS/L/MV/SL yes 120/277 I Low 0.77 96 0.80 EP432PS/MV/HE no 120/277 P Normal 0.86 114 0.75 EP432PS/L/MV/HE no 120/277 P Low 0.74 97 0.76 HL432AIS/UV/HE/W no 120/277 I Normal .78/.77 98/96 .80/.80 HL432BIS/UV/HE/W no 120/277 I Normal .88/.87 110/106 .80/.82 Universal Lighting Technologies F32 T8 Ultim8 Ultrastart High Efficiency Workhorse General Electric Company DuroPower (BallastWise) Atlas Lighting Products, Inc. - ACCUPRO American Ballast Electronic ballasts Fulham Espen Technology, Inc. Fusion Ballasts Proline Ultramax High Efficiency Elite Ballastwise Hatch Lighting Hatch HP T8 Qualified Ballasts with 4 Lamps ProLumeHalco Lighting Technologies HP 120 and 277 V T8 Ballasts Manufacturer Product Name Model Number NEMA4 Premium® Voltage (V) Ballast Type ² Ballast Factor Range Ballast Factor Input Watts (W) BEF³ E4/32IS-120HEX no 120 I Normal 0.87 109 0.80 E4/32IS/-277HEX no 277 I Normal 0.87 109 0.80 EL4/32IS-120HEX no 120 I Low 0.77 98 0.79 EL4/32IS-277HEX no 277 I Low 0.77 96 0.80 EPL4/32IS/MV/SC/HE no 120/277 I Low 0.75 95 / 94 0.80 EL4/32IS/MV/SC/HE no 277 I Low 0.75 94 0.80 EP4/32IS/MV/SC/HE no 120/277 I Normal 0.87 109/107 .80/.81 EP4/32IS/MV/MC no 120/277 I Normal 0.88 110/108 .80/.81 EPL4/32IS/MV/MC no 120/277 I Low 0.77 98/96 .79/.80 EP4/32IS/MV/MC/HE no 120/277 I Normal 0.88 110/108 .80/.82 EPL4/32IS/MV/MC/HE no 120/277 I Low 0.77 98/96 .79/.80 Small Case EPH4/32IS/MV/SC no 120/277 I High 1.16 145/144 .80/.81 Jefferson Electric Jefferson 401-4320-UNV no 277 I Normal 0.88 108 0.81 High Efficiency KTEB-432EBF-UV-TP-PIC no 120/277 I Low 0.77 96 0.80 KTEB-432-UV-IS-L-P yes 120/277 I Low .78/.77 98/96 0.80 KTEB-432-UV-IS-N-P yes 120/277 I Normal .88/.87 110/106 .80/.82 KTEB-432-UV-PS-N-P yes 120/277 P Normal 0.87 114 0.76 KTEB-432-UV-PS-L-P yes 120/277 P Low 0.74 97 0.76 KTEB-432-1-IS-N-P yes 120 I Normal 0.88 108 0.81 DB-432L-MV-TP-HE no 120/277 I Low .78/.77 98/96 0.80 DB-432N-MV-TP-HE no 120/277 I Normal .88/.87 110/106 .80/.82 Maintenance Engineering Premira Electronic Ballast BPM934 no 120/277 P Normal 0.87 110 0.79 Anti- Striation SKEU324AS no 120/277 I Normal 0.88 88 1.00 SKEU324L/SC no 120/277 I Low 0.77 98/96 .79/.80 SKEU324/SC no 277 I Normal 0.88 108 0.82 SKEU324H/SC no 120/277 I High 1.16 145 0.80 SKEU324HE no 120/277 I Normal 0.88 109 0.81 SKEU324HEH/SC no 120/277 I High 1.16 145/144 0.80 SKEU324HEL/SC no 120/277 I Low 0.77 98/96 .79/.80 SKEU324HE/SC no 120/277 I Normal 0.88 110/108 .80/.82 SKEU324HEL no 120/277 I Low 0.77 95 0.81 EB-432IS-U-ES yes 120/277 I Normal 0.88 110/108 .80/.81 EB-432IS-U-ES-LBF yes 120/277 I Low 0.77 98/96 .79/.80 EB-432IS-U-ES-HBF yes 120/277 I High 1.16 145/144 .80/.81 Mylar Electronics Co, Ltd. High Efficiency Ballast U-4/32IS no 120/277 I Normal 0.90 110 0.82 QHE4x32T8/UNV ISH yes 120/277 I High 1.15 144/141 0.80/0.82 QHE4x32T8/277 ISH no 277 I High 1.15 148 0.78 QHE 4X32T8/UNV ISL-SC yes 120/277 I Low 0.78 95 0.82 QHE 4X32T8/UNV ISL-SC-1 yes 120/277 I Low 0.77 96 0.80 QHE 4X32T8/UNV ISN-SC yes 120/277 I Normal 0.88 108/107 0.81/0.82 QHE 4X32T8/UNV ISN-SC-1 yes 120/277 I Normal 0.87 109/107 .80/.81 QHE 4x32T8/UNV-PSH-HT yes 120/277 P High 1.15 143/141 .80/.82 QHE 4x32T8/UNV-PSN-SC yes 120/277 P Normal 0.88 111/108 .79/.81 QTP 4X32T8/UNV PSN-SC yes 120/277 P Normal 0.88 118/113 .75/.78 QTP 4X32T8/UNV PSX-SC yes 120/277 P Low 0.71 93/91 .76/.78 QTP 4X32T8/UNV ISL-SC yes 120/277 I Low 0.78 98 0.80 QTP 4X32T8/UNV ISN-SC yes 277 I Normal 0.88 110 0.80 QHE 4x32T8/UNV ISM-SC yes 120/277 I Medium 0.98 122/120 0.80/0.82 ICN-4P32-LW-SC yes 120/277 I Low 0.77 95 0.81 ICN-4P32-SC yes 120/277 I Normal 0.89 111 0.80 ICN-4P32-N yes 120/277 I Normal 0.89 111 0.80 IOP-4P32-HL-90C-G yes 120/277 I High 1.18 148/144 0.80/0.82 IOP-4S32-SC yes 120/277 P Normal 0.88 109 0.81 IOP-4P32-SC @ 120V yes 120 I Normal 0.87 108 0.81 IOP-4P32-SC @ 277V yes 277 I Normal 0.87 106 0.82 IOP-4P32-LW-SC @120V yes 120 I Low 0.77 97 0.79 IOP-4P32-LW-SC @277V yes 277 I Low 0.77 95 0.81 IOP-4S32-LW-SC yes 120/277 P Low 0.71 92 0.77 IOPA-4P32-LW-SC yes 120/277 I Low 0.77 94 0.82 IOPA-4P32-SC yes 120/277 I Normal 0.87 106 0.82 IOP-4PSP32-SC no 120/277 P Normal 0.88 109/110 .81/.80 IOPA-4P32-HL yes 120/277 I High 1.18 152/148 .78/.80 70204 no 120/277 I Normal 0.87 109/107 .80/.81 70205 no 120 I Normal 0.87 109/107 .80/.81 70211 no 120/277 P Normal 0.87/0.88 106/104 .82/.85 70214 no 120/277 I High 1.20 140/134 .86/.90 70220 no 120/277 I Low 0.78 95 / 96 .82/.81 SL-4/32IS-120 (70212)no 120 I Normal 0.88 110 0.80 SL-4/32IS-277 (70203)no 277 I Normal 0.88 110 0.80 Lighting and Power Technologies Deltek Electronic Ballast High Efficiency Ballast HE High Efficiency Premium Series Electronic Ballasts Maxlite Keystone Technologies OSRAM SYLVANIA Philips - Advance Superior Life Optanium Quicktronic Centium Micro Case Howard Industries HEX Electronic P.Q.L., Inc. MW McWong International 4 Lamp Products HP 120 and 277 V T8 Ballasts Manufacturer Product Name Model Number NEMA4 Premium® Voltage (V) Ballast Type ² Ballast Factor Range Ballast Factor Input Watts (W) BEF³ ISA432T8HEMV yes 120/277 I Normal 0.88 110/108 .80/.82 ISA432T8HEMVL yes 120/277 I Low 0.77 98/96 .79/.80 ISL432T8HEMVL yes 120/277 I Low 0.77 95/94 0.81/0.82 ISL432T8HEMV yes 120/277 I Normal 0.88 110/108 0.80/0.81 ISS432T8HEMVL yes 120/277 I Low 0.79 98 0.81 ISS432T8HEMV yes 120/277 I Normal 0.90 110/111 .82/.81 - PSL432T8HEMV yes 120/277 P Normal .90/.91 114 .79/.80 SAU440IS-ROHS no 120/277 P Normal 0.88 107 0.82 SAU440HPIS-ROHS no 120/277 I High 1.33 143 0.93 E4-32-I-UV-L no 120/277 I Low 0.78 95/96 0.82 E4-32-I-UV-N no 120/277 I Normal 0.87 106 0.82 E4-32-I-UV-H no 120/277 I High 1.20 140/134 .86/.90 E-758-F-432SC no 120 I Normal 0.91 112 0.81 E-758-U-432SC no 120/277 I Normal 0.91 13 0.81 E432T8IS120/L no 120 I Low 0.78 95 0.82 E432T8IS120/N no 120 I Normal 0.85 105 0.81 E432T8IS120-277/N no 120/277 I Normal 0.88 106 0.83 E432T8IS120/N/BULK no 120 I Normal 0.88 108 0.81 E432T8IS120/L/BULK no 120 I Low 0.78 95 0.82 E432T8IS120/H no 120 I High 1.15 109 1.06 E432T8IS120/H/90C no 120 I High 1.10 140 0.79 E432T8PS120- 277/N/AS/BULK no 120/277 P Normal 0.87 110/109 0.79/0.80 E432T8PS120- 277/L/AS/BULK no 120/277 P Low 0.71 93/92 0.76/0.77 Optistart E432T8PRS120-277/L no 120/277 P Low 0.77 101 0.77 U-4/32IS HPF yes 120/277 I Normal 0.88 109 0.81 U-4/32IS HBF yes 120/277 I High 1.17 149.8 0.79 U-4/32IS LBF yes 120/277 I Low 0.78 97.2 0.80 U-4/32ISE yes 120/277 I Normal 0.88 108 0.81 U-4/32ISE-HBF yes 120/277 I High 1.16 144 0.81 U-4/32ISE-LBF yes 120/277 I Low 0.77 96 0.80 Superior Lamps, Inc. Heavy Duty Electronic Ballast BPS934 no 120/277 P Normal 0.87 110 0.79 SwitchGenie, LLC.SwitchGenie SG432 no 120/277 I Normal 0.88 108 0.81 E432IS32120N no 120 I Normal 0.87 107 0.81 E432IS32277N no 277 I Normal 0.88 108 0.82 E432IS32120L no 120 I Low 0.78 95 0.82 E432IS32120U no 120 I Low 0.72 84 0.85 E432IS32277L no 277 I Low 0.75 92 0.82 E432IS32277U no 277 I Low 0.70 85 0.82 TCP4P32ISUNVLE yes 120/277 I Low 0.77 98/96 .79/.80 TCP4P32ISUNVE yes 120/277 I Normal 0.88 110/108 .80/.82 TCP4P32ISUNVHE yes 120/277 I High 1.16 145/144 .80/.81 TCP4P321SUNVH yes 120/277 I High 1.18 147/145 .80/.81 E4P32ISUNVHE yes 120/277 I High 1.18 147/145 .80/.81 TCP4P32ISUNV yes 120/277 I Normal 0.88 110/108 .80/.81 E4P32ISUNVE yes 120/277 I Normal 0.88 110/108 .80/.81 TCP4P32ISUNVL yes 120/277 I Low 0.77 96/95 .80/.81 E4P32ISUNVLE yes 120/277 I Low 0.78 96/95 .81/.82 Topstar International Inc. T8 Electronic Ballast BB-T8/UVH-4x32/HPF no 120 I Normal 0.86 108 0.80 UT432120L no 120 I Low 0.71 93 0.76 eT432120M no 120/277 I Normal 0.87 108 0.81 GTL432120 no 120 I Low 0.82 101 0.81 UT432120MH no 120/277 I High 1.18 146 0.81 UT432120M-HE no 120/277 I Normal 0.86 106 0.81 UT432120L-HE no 120 I Low 0.79 100 0.79 UT432120ML-HE no 120/277 I Low 0.76 96 0.79 PR432120M-PP-HE no 120/277 P Normal 0.88 110 0.80 B432I277HEH yes 277 I High 1.18 145 0.81 B432I120HE yes 120 I Normal 0.87 100 0.87 B432PUNVHP-A yes 277 P Normal 0.88 115 0.77 B432IUNV-D yes 277 I Normal 0.88 109 0.81 B432I277RH-A yes 277 I Normal 0.88 110 0.80 B432IUNVHP-A yes 277 I Normal 0.88 108 0.81 B432I277HE yes 277 I Normal 0.87 105 0.83 B432IUNVHE-A yes 120/277 I Normal 0.87 109/106 0.80/0.82 B423I120HE yes 120 I Normal 0.87 106 0.82 B432I277L-A yes 277 I Low 0.78 98 0.76 B432I120EL yes 120 I Low 0.77 95 0.81 B432I277EL yes 277 I Low 0.77 93 0.82 B432IUNVEL-A yes 120/277 I Low 0.77 97/96 0.79/0.80 ES1720B yes 120/277 I Normal 0.87 107/108 0.81 B432PUNVEL-A no 120/277 P Low 0.71 91/90 0.78/0.79 B432PUNVHE-A no 120/277 P Normal 0.87 109/107 0.80/0.81 - F32 T8 HiLumen Gold Label Sterling Series E432 Sola Technical Consumer Products, Inc. Robertson Worldwide Sunpark Electronics Corp. Ultra Lumen SOLA Canada Lighting & Power Standard Products, Inc. SLI SageSage Lighting Ltd - Ultrasave Lighting Ltd. SLI Lighting/Havells USA Universal Lighting Technologies Ultim 8 HP 120 and 277 V T8 Ballasts Manufacturer Product Name Model Number NEMA4 Premium® Voltage (V) Ballast Type ² Ballast Factor Range Ballast Factor Input Watts (W) BEF³ HP T8 Qualified Ballasts with 6 Lamps General Electric Company UltraMax GE632MAX-H90 yes 120/277 I High 1.18 221/215 .53/.55 6 Lamp1 CEE's specification uses the BALLAST EFFICACY FACTOR (BEF) as the true measure of efficiency. The input watt figure calculations are based on a premium 4', 32W T8 reference lamp. 2 “P” signifies programmed start, “I” signifies instant start, "D" signifies dimming capabilities 3 BEF is calculated by multiplying the Ballast Factor by 100 and dividing by the input watts, except for Howard Industries and Standard Products, which provide the information in their catalog. 4 NEMA Premium® is a trademark of the National Electrical Manufacturers Association. It is an identifiable certification mark for manufacturers to use on products that meet the ballast portion of CEE's current specification for High Performance Lighting Systems. The label is available to all manufacturers that enroll in the NEMA Premium® program and sign a Memorandum of Understanding and Licensing agreement with NEMA. CONSORTIUM FOR ENERGY EFFICIENCY www.cee1.org 617-589-3949 © 2007 Consortium for Energy Efficiency, Inc. All rights reserved. QUALIFYING PRODUCTS 1 High-Performance 120 and 277V T8 Dimming Ballasts CEE High-Performance Commercial Lighting Systems Initiative For a list of qualifying 347 V T8 ballasts, see: www.cee1.org/com/com-lt/347-ballasts.xls Manufacturer Product Name Model Number NEMA4 Premium® Lamp Wattage Voltage (V) Ballast Type ² Ballast Factor Range Ballast Factor Input Watts (W)BEF³ FLT-120-1x32WT8HBF-DALI no 32 120 PD Normal 1.00 35 2.86 FLT-277-1x32WT8HBF-DALI no 32 277 PD Normal 1.00 35 2.86 General Electric Company UltraStart T8 100-3% Dimming GE132MVPS-N-VO3 no 32 120/277 PD Normal 0.88 30/29 2.93/3.03 SD1F8-32M no 32 120/277 PD High 1.15 39 2.95 SD1J8-32M no 32 120/277 PD High 1.15 39 2.95 LUMEnergi LUMEnergi LUM-LD-IB100 no 32 120/277 PD High 1.20 40 3.00 H3D T832 C UNV 1 10 no 32 120/277 PD Normal 1.00 35.1 / 34.8 2.85/2.87 H3D T832 C UNV 1 17 no 32 120/277 PD High 1.17 39.7 2.95 EHD T832 C U 1 10 no 32 120/277 PD Normal 1.00 35.1 / 34.8 2.85/2.87 EHD T832 C U 1 17 no 32 277 PD High 1.17 39.7 2.95 QTP1X32T8/UNVDIM-TC yes 32 120/277 PD Normal 0.88 30 2.93 QHES2X32T8/UNVPSN-SC yes 32 120/277 PD Normal 0.87 28/29 3.00/3.11 REZ-132-SC yes 32 120 PD Normal 1.00 35 2.86 VEZ-132-SC yes 32 277 PD Normal 1.00 35 2.86 Mark 7 IZT-132-SC yes 32 120/277 PD Normal 1.00 35 2.86 ROVR IDA-132-SC yes 32 120/277 PD Normal 1.00 27/35 3.70/2.86 Robertson Worldwide Sterling Series PSL132T8MV3D yes 32 120/277 PD Normal 1.00 34 2.94 B232PUNVDRL-A yes 32 120/277 PD Low .83/.84 23.7/23.8 2.88/2.87 B232PUNVDR-A yes 32 120/277 PD Normal 0.88 29/30 3.03/2.93 Ballastar B232PUS50-A yes 32 120/277 PD Normal 0.88 29 3.03 SuperDim B132PUNVSV3-A yes 32 120/277 PD Normal 0.88 30 2.93 ELB-2L32 EA10ES120-277 no 32 277 PD Normal 0.88 58.3 1.51 ELB-2L32 EA10E120-277 no 32 277 PD Normal 1.00 67.5 1.48 ELB-2L32 EA10EH120-277 no 32 120/277 PD High 1.18 74.2/72.3 1.59/1.63 VE232MVHRPT3-AB yes 32 120/277 PD Normal 1.00 68 1.47 VE232MVHRPHT3-AB yes 32 120/277 PD High 1.20 79 1.52 UltraMax Bi- Level Switching GE232MAX90-S60 yes 32 120/277 PD High 1.18 75/74 1.57/1.59 UltraMax LoadShed Dimming GE232MAX90-V60 yes 32 120/277 PD High 1.18 75/74 1.57/1.59 GE232MVPS-N-VO3 no 32 120/277 PD Normal 0.88 58/56 1.52/1.57 GE232MVPS-H-VO3 no 32 120/277 PD High 1.18 76/74 1.55/1.59 SD2F8-32M no 32 120/277 PD High 1.15 76 1.51 SD2J8-32M no 32 120/277 PD High 1.15 76 1.51 LUMEnergi LUMEnergi LUM-LD-IB100 no 32 120/277 PD High 1.20 76/75 1.58/1.60 H3D T832 C UNV 2 10 no 32 120/277 PD Normal 1.00 66.5/65.7 1.50/1.52 H3D T832 C UNV 2 17 no 32 120/277 PD High 1.17 76.9/75.4 1.52/1.55 EC5 T832 G UNV 2L no 32 120/277 PD Low 0.85 56.9 1.49 EC5 T832 J UNV 2 no 32 120/277 PD Low 0.85 59.1/57.4 1.44/1.48 EHD T832 C U 2 10 no 32 120/277 PD Normal 1.00 66.5 / 65.7 1.50 / 1.52 EHD T832 C U 2 17 no 32 120/277 PD High 1.17 76.9 / 75.4 1.52 / 1.55 EC3 T832 C U 2 10 no 32 120/277 PD Normal 1.00 66.5 / 65.7 1.50/1.52 EC3 T832 G U 2 10 no 32 120/277 PD Normal 1.00 66.5 / 65.7 1.50/1.52 EC3 T832 C U 2 17 no 32 120/277 PD High 1.17 76.9 / 75.4 1.52/1.55 EC3 T832 G U 2 17 no 32 120/277 PD High 1.17 76.9 / 75.4 1.52/1.55 Dynamus EcoSystem Leviton Sector Eco-10 Lutron General Electric Company UltraStart T8 100-3% Dimming DemandFlex Hi-Lume3D Universal Lighting Technologies ELB Electronics, Inc. Quicktronic HP T8 Qualified Ballasts with 2 Lamps ELB Plus Dimming Ballast 0-10VDC Espen Technology, Inc. Fifth Light Technology DALI Philips - Advance OSRAM SYLVANIA Lutron EcoSystem 1 Lamp Hi-Lume3D Updated 12/30/11 Click "Open." When "Connect to www.cee1.org" box opens, click on "Cancel" twice Mark 10 Powerline Legend: Red Font is a product no longer manufactured, but still meets the criteria as a qualifying product Leviton Sector HP T8 Qualified Ballasts with 1 Lamp QHES2X32T8/UNVPSN-SC yes 32 120/277 PD Normal 0.87 55/54 1.58/1.61 QTP2X32T8/UNV DIM TC yes 32 120/277 PD Normal 0.88 60/58 1.47/1.52 QHELS2X32T8/UNV-ISN-SC yes 32 277 ID Normal 0.88 56/55 1.60 QHES2X32T8/UNVPSL-SC yes 32 120/277 PD Low 0.77 48 1.60 QHE2x32T8/UNV DALI yes 32 120/277 PD Normal 1.00 66/65 1.51/1.54 REZ-2S32-SC yes 32 120 PD Normal 1.00 68 1.47 VEZ-2S32-SC yes 32 277 PD Normal 1.00 68 1.47 Mark 7 IZT-2S32-SC yes 32 120/277 PD Normal 1.00 67 1.49 EssentiaLine ILV-2S32-SC yes 32 120/277 PD Normal 0.88 59 1.49 ROVR IDA-2S32-SC yes 32 120/277 PD Normal 1.00 68.0 1.47 Pure Spectrum Lighting PureSpectrum PST232PNS3 no 32 277 PD Normal 1.00 68 1.47 Robertson Worldwide Sterling Series PSL232T8MV3D no 32 120/277 PD Normal 1.00 68 1.47 Sage Lighting Ltd Sage NU232T8D-ROHS no 32 120/277 PD Normal 0.88 60 1.47 U-232PS3 no 32 277 PD Normal 1.00 68 1.47 U-232PS3-HBF no 32 277 PD High 1.20 79 1.52 Ultrasave Lighting Ltd. - PR232120M-D no 32 120/277 PD Normal 1.00 67 1.49 B232PUNVDR-A yes 32 120/277 PD Normal 0.88 56/55 1.57/1.6 B232PUNVDRL-A yes 32 120/277 PD Low 0.71 47 1.51 B232PUNVDRH-A yes 32 120/277 PD High 1.18 74/72 1.59/1.64 B232PUNVDFH-A yes 32 120/277 PD High 1.15 76/75 1.51/1.53 B232PUNVDYL-A yes 32 277 PD Low 0.69 46 1.50 B232PUNVDY-A yes 32 120/277 PD Normal 0.87 58/57 1.50/1.53 B232PUNVDYH-A yes 32 120/277 PD High 1.15 76/74 1.51/1.55 B232PU104S50-A yes 32 120/277 PD High 1.04 65 1.60 B232PUS50-A yes 32 120/277 PD Normal 0.88 57/56 1.54/1.57 SuperDim B232PUNVSV3-A yes 32 120/277 PD Normal 0.88 57/56 1.54/1.57 ELB-3L32 EA10ES120-277 no 32 120/277 PD Normal 0.88 84/82.5 1.51 ELB-3L32 EA10E120-277 no 32 277 PD Normal 1.00 98.8 1.48 ELB-3L32 EA10EH120-277 no 32 120/277 PD High 1.18 118.4/115.9 1.59/1.63 VE332MVHRPT3-AB yes 32 120/277 PD Normal 1.00 99 1.01 VE332MVHRPHT3-AB yes 32 120/277 PD High 1.20 119 1.01 UltraMax Bi- Level Switching GE332MAX90-S60 yes 32 120/277 PD High 1.18 113/110 1.04/1.07 UltraMax LoadShed Dimming GE332MAX90-V60 yes 32 120/277 PD High 1.18 113/110 1.04/1.07 GE332MVPS-N-VO3 no 32 120/277 PD Normal 0.88 87/85 1.01/1.04 GE332MVPS-H-VO3 no 32 120/277 PD High 1.18 116/113 1.02/1.04 LUMEnergi LUMEnergi LUM-LD-IB100 no 32 120/277 PD High 1.20 113/112 1.06/1.07 H3D T832 C UNV 3 17 no 32 120/277 PD High 1.17 106.8/105.7 1.10/1.11 H3D T832 G UNV 3 10 no 32 120/277 PD Normal 1.00 95.4/93.5 1.05/1.07 EC5 T832 G UNV 3 17 no 32 120/277 PD High 1.17 106.8/105.7 1.10/1.11 EC5 T832 G UNV 3L no 32 120/277 PD Low 0.85 85.9/86.5 .99/.98 EHD T832 G U 3 10 no 32 120/277 PD Normal 1.00 95.4 / 93.5 1.05 / 1.07 EC3 T832 G U 3 10 no 32 120/277 PD Normal 1.00 95.4 / 93.5 1.05 / 1.07 EC3 T832 G U 3 17 no 32 120/277 PD Normal 1.17 106.8/105.7 1.10/1.11 QHELS3X32T8/UNV ISN-SC yes 32 120/277 ID Normal 0.88 83/82 1.06/1.07 QTP3X32T8/UNVDIM-TC yes 32 120/277 PD Normal 0.88 87/84 1.01/1.05 Mark 7 IZT-3S32-SC yes 32 120/277 PD Normal 1.00 93 1.08 REZ-3S32-SC yes 32 120 PD Normal 0.97 96.0 1.01 VEZ-3S32-SC yes 32 277 PD Normal 0.97 96.0 1.01 ROVR IDA-3S32-G yes 32 120/277 PD Normal 1.00 99.0 1.01 Robertson Worldwide Sterling Series PSL332T8MV3D yes 32 120/277 PD Normal 1.00 100 1.00 U-332PS3 no 32 277 PD Normal 1.00 100 1.00 U-332PS3-HBF no 32 120/277 PD High 1.15 115/111 1.00/1.04 Espen Technology, Inc. Dynamus QuicktronicOSRAM SYLVANIA 2 Lamp3 LampQuicktronic Mark 10 Powerline Hi-Lume3D EcoSystem Eco-10 UltraStart T8 100-3% Dimming OSRAM SYLVANIA Ultra Lumen Philips - Advance Sunpark Electronics Corp. Philips - Advance Ballastar Mark 10 Powerline Sunpark Electronics Corp. Ultra Lumen Demand Flex Lutron HP T8 Qualified Ballasts with 3 Lamps ELB Electronics, Inc. ELB Plus Dimming Ballast 0-10VDC General Electric Company Universal Lighting Technologies B332PUNVDR-A yes 32 120/277 PD Normal 0.87 85/83 1.02/1.05 B332PUNVDRL-A yes 32 120/277 PD Low 0.71 72 0.99 B332PUNVDRH-E yes 32 120/277 PD High 1.15 115/111 1.00/1.04 UltraMax Bi- Level Switching GE432MAX90-S60 yes 32 120/277 PD High 1.18 149/146 0.79/.81 UltraMax LoadShed Dimming GE432MAX90-V60 yes 32 120/277 PD High 1.18 149/146 .79/.81 GE432MVPS-N-VO3 no 32 120/277 PD Normal 0.88 114/111 .77/.79 GE432MVPS-H-VO3 no 32 120/277 PD High 1.18 150/148 .79/.80 OSRAM SYLVANIA Quicktronic QTP4X32T8/UNV DIM-TC yes 32 120/277 PD Normal 0.88 114/110 .77/.80 IZT-4S32 yes 32 120/277 PD Normal 0.88 116 0.76 VZT-4S32-G yes 32 277 PD Normal 0.88 116 0.76 VZT-4S32-HL yes 32 277 PD High 1.18 149 0.79 VZT-4PSP32-G no 32 277 PD Normal 0.88 112 0.79 ROVR IDA-4S32 yes 32 120/277 PD Normal 0.88 116 0.76 B432PUNVDR-E yes 32 120/277 PD Normal 0.88 116/112 0.76/0.79 B432PUNVDRL-E yes 32 120/277 PD Low 0.71 93 0.76 B432P277V5-E yes 32 277 PD Normal 0.88 115 0.77 B432P277V5H-E yes 32 277 PD High 1.18 150 0.79 GE632MAX-H90-S60 yes 32 120/277 ID High 1.18 221/215 .53/.55 GE632MAX-H90-V60 yes 32 120/277 ID High 1.18 221/215 .53/.55 3 BEF is calculated by multiplying the Ballast Factor by 100 and dividing by the input watts, except for Howard Industries and Standard Products, which provide the information in their catalog. 4 NEMA Premium® is a trademark of the National Electrical Manufacturers Association. It is an identifiable certification mark for manufacturers to use on products that meet the ballast portion of CEE's current specification for High Performance Lighting Systems. The label is available to all manufacturers that enroll in the NEMA Premium® program and sign a Memorandum of Understanding and Licensing agreement with NEMA. CONSORTIUM FOR ENERGY EFFICIENCY www.cee1.org 617-589-3949 © 2007 Consortium for Energy Efficiency, Inc. All rights reserved. Demand Flex 6 Lamp4 LampBallastar Demand Flex Mark 7 HP T8 Qualified Ballasts with 6 Lamps General Electric Company UltraMax HP T8 Qualified Ballasts with 4 Lamps Universal Lighting Technologies General Electric Company UltraStart T8 100-3% Dimming Philips - Advance Universal Lighting Technologies APPENDIX D –MECHANICAL CALCULATIONS U-VALUE CALCULATIONS RS Consulting Seattle, Washington Job Name:West Valley High School Date:20-Apr-12 Job Number:Eng:R. Sneeringer Wall -1 Construction Resistance (R) Original Building At Frame Btwn Frame 100% 1)Outside Air Film (15 mph)--0.17 2)2" EIFS --12.00 3)1/2 Sheathing --0.50 4)4" Metal Stud ---- 5)R-13 Batt *--6.00 6)5/8" Sheetrock --0.56 7)Inside Air Film (still air)--0.68 R-Total N/A 19.91 * Insulation value is reduced due to short circuit effect of metal studs Wall U-Value 0.050 Wall -2 Construction Resistance (R) 2001 Addition At Frame Btwn Frame 100% 1)Outside Air Film (15 mph)--0.17 2)2" EIFS --12.00 3)1/2 Sheathing --0.50 4)6" Metal Stud ---- 5)R-19 Batt *--7.10 6)6" Airspace -- 7)5/8" Sheetrock --1.12 8)Inside Air Film (still air)--0.68 R-Total N/A 21.57 * Insulation value is reduced due to short circuit effect of metal studs Wall U-Value 0.046 U-VALUE CALCULATIONS RS Consulting Seattle, Washington Job Name:West Valley High School Date:20-Apr-12 Job Number:Eng:R. Sneeringer Wall -3 Construction Resistance (R) Auditorium At Frame Btwn Frame 100% 1)Outside Air Film (15 mph)--0.17 2)Metal Siding ---- 3)2" Rigid Insul --12.00 4)1/2 Sheathing --0.50 5)6" Metal Stud ---- 6)R-19 Batt *--7.10 7)2 x 5/8" Sheetrock --1.12 8)Inside Air Film (still air)--0.68 R-Total N/A 21.57 * Insulation value is reduced due to short circuit effect of metal studs Wall U-Value 0.046 Roof-1 Construction Resistance (R) At Frame Btwn Frame 100% 1)Outside Air Film (15 mph)--0.17 2)Built Up Roofing --0.50 3)7" Polyiso @ R6/in --42.00 4)1/2 GWB --0.50 5)Inside Air Film (still air)--0.17 R-Total N/A 43.34 Roof U-Value 0.023 U-VALUE CALCULATIONS RS Consulting Seattle, Washington Job Name:West Valley High School Date:20-Apr-12 Job Number:Eng:R. Sneeringer Floor:Existing Slab /Grade Resistance (R) Construction At Frame Btwn Frame Insulated Slab Edge N/A R-Total Btu/deg f/lin ft Floor U-Value 0.550 Windows:Triple Pane Construction 1)Vinyl Frame, Triple Pane 1/2" Air Space, TBrk, 1" Thk 2)Use Value from ASHRAE Table 13 1989 Window U-Value 0.260 Shading Coefficient 0.83 Clear Glazing Building Envelope - Calculations and Common Conversions • U-Value = 1/R-Value • R-Values per Inch of Common Insulation Materials Fiberglass Blanket 3.2 Loose Fiberglass 2.5 Fiberglass Blown-in-Bat 4.0 Loose Rock Wool 2.8 Loose Cellulose 3.5 Wet-Spray Cellulose 3.9 Vermiculite 2.7 Polyisocyanurate 5.8 Expanded Polystyrene (bead board) 3.8 Extruded Polystyrene (blue board) 4.8 Foil Faced Polyisocyanurate 7.0 Spray applied Foam 6.0 U value = btu’s/ Hour x sq ft x deg F = 1/R R value = Hours x sq ft x deg F / BTU’s= 1/U q (Building heat loss in btu’s/hr)= U x A x Delta T = U x A x DD x 24 (annual heat loss) Sample Calculations: Building Envelope-Heat Transfer Calculations R- “Resistance value” of building materials to heat flow RT = R inside film + R1 + R2 +… R outside film U-value: “overall heat transfer co-efficient” (Includes allowance for BOTH convection and conduction heat transfer) U = 1/ RT Sample Calculation 1: Windows: window area is 1000 square feet Window is triple pane; U = .27 Q = A * U * (Ti – To) Where Q = Total hourly rate of heat loss through walls, roof, glass, etc in Btu/hr U = Overall heat-transfer coefficient of walls, roof, ceiling, floor, or glass in Btu/hr ft2°F A = Net area of walls, roof, ceiling, floor, or glass in ft2 Ti = Inside design temperature in °F = 70 To = Outside design temperature in °F = 30 Q = U * A * delta T = .27 x 1000 x (70 – 30) = .27 x 1000 x 40 = 10,800 Btu/hour Sample Calculation 2: For sample calculations- outside design = 30 F, inside design = 70 F Walls: wall area is 1000 square feet Wall is wood stud with R-30 insulation; U = 0.033 Q = U x A x delta T = 0.033 x 1000 x (70 – 30) = 0.033 x 1000 x 40 = 1333.3 Btu/hour Radiation heat gain thru windows Q = (A) x (SHGF) x (CLF) x (SC) Where: Q = heat transfer in BTU/HR A = window area in ft2 SHGF= solar heat gain factor (dependent on orientation and location) CLF = cooling load factor (dependent on shading and color of interior surface) SC = shading coefficient (property of glazing; dependent on clear/tinted/mirror glass surface) Other ratings- SHGC = solar heat gain coefficient = SC x 0.86 Glazing selection – Single pane vs. dual/triple pane Single pane- “U” = 1.10 Dual pane- “U” = 0.35 Triple pane- “U” = 0.22 (NOTE effect of interior “films” at glass surfaces; insulation value increases due to air space and number of surface films) – “low E” glass coating that allows light to get thru but not heat Glazing Selection SHGC- Solar Heat Gain Coefficient (% of ALL radiation (UV, visible and IR) that gets thru glass) VT- Visible Transmittance (% of visible light that gets thru glass) SOUTH FACING GLAZING: – Cold climate: SHGC > 0.6; high VT; low “U” – Moderate climate: SHGC < 0.6; high VT; low “U” – Hot climate: SHGC < 0.4; medium VT; low “U” – East/west facing: SHGC < 0.4; high VT; low “U” Job:West Valley High School Job Number: Date:12-Jun-12 Zone Zone Area Ceil Ht Room Zone SA OA Zone Zone OA Primary Zone No.Description Sf Ft Vol cf Cfm Density Total cfm/per cfm cfm/sf cfm Vbz Eff (Ez)Voz OA Fract Served Az V Vpz #/1000 sf Pz Rp Ra Vbz Ez Voz Zp By 110 Journal 1,000 9.0 9,000 1,740 25 25 5 125 0.06 60 185 0.8 230 13%SA01-02 111 Language Arts, Library 10,800 9.0 97,200 16,450 12 130 7.5 975 0.06 650 1,625 0.8 2,030 12%SA01-02 112 Sed 1,000 9.0 9,000 1,200 24 24 5 120 0.06 60 180 0.8 230 19%SA01-02 113 VP, Exec Sec, Princ, Conf rms 800 9.0 7,200 2,635 26 21 5 105 0.06 50 155 0.8 190 7%SA01-02 114 Reception,Work rm, restrooms 3,070 9.0 27,630 2,275 10 30 5 150 0.06 180 330 0.8 410 18%SA01-02 115 Corridor 1,040 9.0 9,360 650 0 0 10 0 0.12 120 120 0.8 150 23%SA01-02 116 Offices, Conf rm, Coun, Copy rm 1,530 9.0 13,770 1,360 8 13 5 65 0.06 90 155 0.8 190 14%SA01-02 117 Faculty 1,210 9.0 10,890 3,900 0 0 5 0 0.06 70 70 0.8 90 2%SA01-02 118 Reception, Sec, Conf, Career 3,450 9.0 31,050 3,715 31 106 5 530 0.06 210 740 0.8 930 25%SA01-02 119 Counselors 680 9.0 6,120 1,215 22 15 5 75 0.06 40 115 0.8 140 12%SA01-02 120 Corridor 2,290 9.0 20,610 325 0 0 5 0 0.06 140 140 0.8 180 55%SA01-02 121 Theatre, Stage 3,310 13.0 43,030 6,210 71 235 10 2350 0.06 200 2,550 0.8 3,190 51%SA01-02 122 Instrumental 3,770 13.0 49,010 3,890 15 56 10 560 0.06 230 790 0.8 990 25%SA01-02 123 Instrumental, Vocal 2,310 13.0 30,030 3,280 22 50 10 500 0.06 140 640 0.8 800 24%SA01-02 207 Gifted/Talented, Conference 1,180 9.4 11,092 1,730 28 33 5 165 0.06 70 235 0.8 290 17%SA01-02 208 Chem/Phy Lab 2,560 9.4 24,064 4,450 38 98 10 980 0.18 460 1,440 0.8 1,800 40%SA01-02 209 Chem/Phy Lab 4,320 9.4 40,608 7,040 31 132 10 1320 0.18 780 2,100 0.8 2,630 37%SA01-02 210 Biology 3,810 9.4 35,814 6,360 27 102 10 1020 0.18 690 1,710 0.8 2,140 34%SA01-02 211 Bussiness Ed Lab 6,620 9.4 62,228 9,575 21 138 10 1380 0.12 790 2,170 0.8 2,710 28%SA01-02 212 General Science Lab 2,380 9.4 22,372 2,680 30 72 10 720 0.18 430 1,150 0.8 1,440 54%SA01-02 213 Corridors, restrooms, stairs 8,040 9.4 75,576 1,800 0 0 5 0 0.06 480 480 0.8 600 33%SA01-02 131 Gymnasium 17,830 34.0 606,220 34,110 25 450 5 2250 0.06 1070 3,320 0.8 4,150 12%SA06,7,8 125 Storage, Health classrooms 3,940 9.0 35,460 3,015 16 62 10 620 0.12 470 1,090 0.8 1,360 45%SA09 126 Corridor 2,750 9.0 24,750 500 0 0 5 0 0.06 170 170 0.8 210 42%SA09 127 Electrical, Kitchen 3,440 9.0 30,960 5,100 1 5 5 25 0.06 210 235 0.8 290 6%SA09 128 Boys/Girls Locker rooms 5,320 9.0 47,880 3,590 2 10 5 50 0.06 320 370 0.8 460 13%SA09 101 Language Arts, Global Studies 3,660 9.0 32,940 7,050 36 130 10 1300 0.12 440 1,740 0.8 2,180 31%SA22 102 Woods, Tech Lab, Metals 2,940 9.0 26,460 2,430 11 31 10 310 0.18 530 840 0.8 1,050 43%SA22 103 Language Arts 2,580 9.0 23,220 4,350 30 78 10 780 0.12 310 1,090 0.8 1,360 31%SA22 104 Pottery, Drawing/Painting 2,710 9.0 24,390 5,875 20 55 10 550 0.18 490 1,040 0.8 1,300 22%SA22 105 Craft, storage, offices 3,380 9.0 30,420 3,630 7 25 5 125 0.06 200 325 0.8 410 11%SA22 106 Global Studies, Language Arts 5,300 9.4 49,820 6,810 29 156 10 1560 0.12 640 2,200 0.8 2,750 40%SA22 107 Writing Lab, Global Studies 5,500 9.0 49,500 8,990 20 110 5 550 0.06 330 880 0.8 1,100 12%SA22 108 Corridors 9,000 10.0 90,000 2,000 0 0 5 0 0.06 540 540 0.8 680 34%SA22 201 Global Studies 4,370 9.4 41,078 7,520 29 125 10 1250 0.12 520 1,770 0.8 2,210 29%SA23 202 Math 3,290 9.4 30,926 5,570 36 118 10 1180 0.12 390 1,570 0.8 1,960 35%SA23 203 Math 1,850 9.4 17,390 2,975 35 65 10 650 0.12 220 870 0.8 1,090 37%SA23 204 Math 5,310 9.4 49,914 11,750 34 180 10 1800 0.12 640 2,440 0.8 3,050 26%SA23 205 Global Studies, Math Manip.1,880 9.4 17,672 2,250 32 60 10 600 0.12 230 830 0.8 1,040 46%SA23 206 Corridor C2-6, Boys/Girls restrm 5,720 9.4 53,768 830 0 0 5 0 0.06 340 340 0.8 430 52%SA23 109 Cafeteria 14,800 9.0 133,200 18,485 24 350 5 1750 0.06 890 2,640 0.8 3,300 18%SA24 124 Comm, Offices 950 9.0 8,550 995 0 0 5 0 0.06 60 60 0.8 80 8%SA26 129 Weight room, PE Storage 2,080 10.0 20,800 2,105 10 20 5 100 0.06 120 220 0.8 280 13%SA26 OUTSIDE AIR CALCULATIONS From 2009 IMC Table 403.3 Number of Occ People Rate Area Rate Job:West Valley High School Job Number: Date:12-Jun-12 Zone Zone Area Ceil Ht Room Zone SA OA Zone Zone OA Primary Zone No.Description Sf Ft Vol cf Cfm Density Total cfm/per cfm cfm/sf cfm Vbz Eff (Ez)Voz OA Fract Served Az V Vpz #/1000 sf Pz Rp Ra Vbz Ez Voz Zp By OUTSIDE AIR CALCULATIONS From 2009 IMC Table 403.3 Number of Occ People Rate Area Rate 130 Auxiliary Gymnasium 4,640 34.0 157,760 6,000 17 80 5 400 0.06 280 680 0.8 850 14%SA26 143 Stage 2,520 31.0 78,120 4,000 6 15 10 150 0.06 150 300 0.8 380 10%SA30 144 Auditorium 7,700 31.0 238,700 6,800 71 550 5 2750 0.06 460 3,210 0.8 4,010 59%SA30 145 Corridor 2,100 10.0 21,000 400 0 0 5 0 0.06 130 130 0.8 160 40%SA30 141 Vestibule 200 10.0 2,000 900 0 0 5 0 0.06 10 10 0.8 10 1%SA31 146 Storage, Restrooms 1,350 10.0 13,500 600 0 0 5 0 0.06 80 80 0.8 100 17%SA31 147 Lobby 2,300 30.0 69,000 7,000 217 500 5 2500 0.06 140 2,640 0.8 3,300 47%SA31 142 Props 1,950 10.0 19,500 550 5 10 10 100 0.06 120 220 0.8 280 51%SA32 196,530 4,465 61,190 Area Primary Tot Tot Diversity Total Uncrtd Max Vent Total OA OA OA Avg CO2 TAG SERVES Served Air People People of People OA OSA Zp Eff OSA Percent Cfm/Per Cfm/Sf Met Setting SF Cfm Zone Pz Sys Ps D Voz Vou %Ev Vot Ros Rate SA01-02 CLASSROOMS 65,170 82,480 1,280 1,000 78%21,360 16,688 55.4%0.50 33,375 40%26 0.51 1.2 600 SA06 GYM 17,830 34,110 450 450 100%3,240 3,240 12.2%1.00 3,240 9%7 0.18 1.2 1,500 SF11 CLASSROOMS 1,530 1,360 13 13 100%190 190 14.0%1.00 190 14%15 0.12 1.2 900 SA09 CLASS/LOCKERS 15,450 12,205 77 70 91%2,320 2,109 45.1%0.60 3,515 29%46 0.23 1.2 500 SA22 CLASSROOMS 35,070 41,135 585 400 68%10,830 7,405 43.2%0.70 10,579 26%18 0.30 1.2 800 SA23 CLASSROOMS 18,050 30,895 548 500 91%9,780 8,923 51.8%0.60 14,872 48%27 0.82 1.2 600 SA24 CAFETERIA 14,800 18,485 350 350 100%3,300 3,300 17.9%0.90 3,667 20%10 0.25 1.2 1,100 SA26 AUX GYM 7,670 9,100 100 100 100%1,210 1,210 14.2%1.00 1,210 13%12 0.16 1.2 1,000 SA30 AUDITORIUM 12,320 11,200 565 550 97%4,550 4,429 59.0%0.50 8,858 79%16 0.72 1.2 500 SA31 LOBBY 3,850 8,500 500 450 90%3,410 3,069 47.1%0.60 5,115 60%10 1.33 1.2 700 248,660 Job:West Valley High School Job Number: Date:12-Jun-12 Zone Zone Area Ceil Ht Room Zone SA OA Zone Zone OA Primary Zone No.Description Sf Ft Vol cf Cfm Density Total cfm/per cfm cfm/sf cfm Vbz Eff (Ez)Voz OA Fract Served Az V Vpz #/1000 sf Pz Rp Ra Vbz Ez Voz Zp By OUTSIDE AIR CALCULATIONS From 2009 IMC Table 403.3 Number of Occ People Rate Area Rate Based on 2009 IMC ASHRAE 62.1, 2007 Appendix A-2: Table A-A Typical Met Levels For Activities Az Area of the zone (sq ft)MET ACTIVITY Pz Zone population 1.0 Seated, quiet Rp Outdoor air required per person (Table 6.1)1.0 Reading and Writing, seated Ra Outdoor air required per unit area (Table 6.1)1.1 Typing Vbz The design outdoor airflow in the breathing zone ( people factor plus area factor in accordance with Table 6.1)1.2 Filing, Seated Voz The design outdoor airflow supplied to the zone ( Vbc/Ez)1.4 Filing, Standing Vou Uncorrected outdoor intake (sum of all zones served by the ahu times the occupanct diversity D)2.0 Walking, at 0.89m/s Vot Design outdoor intake flow ( Vou/Ev)2-3 House Cleaning Ez Zone air distribution effectiveness in accordance with Table 403.3.1.2 3-4 Exercise Ev System ventilation efficency ( Per table 403.2.2.3.2) Short Term Conditions System Vent Efficiency IMC Table 403.3.2.3.2 If the peak occupancy will be of short duration, the design may be based on the average condtions over a time period T.Max Zp Ev 0.15 0.9 T Averaging time period , min ( 3v/Vbz)0.25 0.8 V Volume of the zone , cu ft 0.35 0.7 0.45 0.6 0.55 0.5 0.65 0.4 CO2 Calculations 0.75 0.3 0.76 0.3 Cru - C0 = 1,000,000 x Nb x M / Ros Calculates rise in CO2 concentration if all supplied outdoor air is consumed.0.77 0.3 Cs-C0 = Zs x 0 + (1-Zs) x (Cru - C0)Calculates target SA CO2 concentration (above ambient) based on previous calculation. Cru = CO2 concentration in recirculated air if all outdoor air supplied to the building is used. C0 = CO2 concentration outdoors. Nb = CO2 generation rate per person at base metabolic rate. Default = 0.0091 CFM/Person (0.0043 L/s per person). M = Relative metabolic rate in met units. Default is sedentary person = 1.2 mets, ASHRAE standard 62.1-2007, Appendix C. 400 Assumed Ambient OA CO2 Concentration [PPM] 20%Factor of Safety (accounts for lag in controls) 0.0091 Base CO2 Generation Rate (PPM/Person) Ros = OA Dilution Per Person (Vot / Population Served) Motor Upgrades Feasiblity Analysis Blended Electrical Cost $0.177 Maximum Acceptable Payback 5 Years Ratio of BHP to Motor HP 75% Estimated Annual Hours of Operation 3600 Exist Est Replace if Proposed Required Proposed Required Required Proposed Required Motor Brake Motor Eff New Existing Energy Energy An Energy Motor Simple Hp Hp Is Less Motor Energy Consump Savings Savings Instalation Payback Than Eff Cons KWh KWH KWH $Costs Yrs 1 0.75 67.6%85.5%2,976 2,355 621 110$550$5.0 1.5 1.13 72.0%86.5%4,192 3,491 701 124$620$5.0 2 1.50 74.6%86.5%5,395 4,655 740 131$655$5.0 3 2.25 79.6%89.5%7,585 6,749 836 148$740$5.0 5 3.75 83.2%89.5%12,101 11,248 853 151$755$5.0 7.5 5.63 85.1%91.0%17,746 16,594 1,153 204$1,020$5.0 10 7.50 86.2%91.7%23,369 21,956 1,412 250$1,250$5.0 15 11.25 88.0%93.0%34,338 32,474 1,864 330$1,650$5.0 20 15.00 88.2%93.0%45,672 43,299 2,373 420$2,100$5.0 25 18.75 88.4%93.6%56,963 53,776 3,186 564$2,820$5.0 30 22.50 89.6%94.1%67,409 64,189 3,220 570$2,850$5.0 40 30.00 90.1%94.1%89,427 85,585 3,842 680$3,400$5.0 50 37.50 90.7%94.5%111,048 106,529 4,520 800$4,000$5.0 60 45.00 91.3%95.0%132,314 127,161 5,153 912$4,560$5.0 75 56.25 91.2%95.0%165,573 158,952 6,621 1,172$5,860$5.0 100 75 91.8%95.4%219,386 211,047 8,339 1,476$7,380$5.0 Main Building Fan Systems Motor Upgrades Feasiblity Analysis Blended Electrical Cost $0.177 Maximum Acceptable Payback 5 Years Ratio of BHP to Motor HP 75% Estimated Annual Hours of Operation 2400 Exist Est Replace if Proposed Required Proposed Required Required Proposed Required Motor Brake Motor Eff New Existing Energy Energy Energy Motor Simple Hp Hp Is Less Motor Energy Consump Savings Savings Instalation Payback Than Eff Cons KWh KWH KWH $Costs Yrs 1 0.75 61.3%85.5%2,191 1,570 621 110$550$5.0 1.5 1.13 66.5%86.5%3,028 2,328 701 124$620$5.0 2 1.50 69.8%86.5%3,844 3,103 740 131$655$5.0 3 2.25 75.5%89.5%5,335 4,499 836 148$740$5.0 5 3.75 80.4%89.5%8,352 7,499 853 151$755$5.0 7.5 5.63 82.4%91.0%12,215 11,063 1,153 204$1,020$5.0 10 7.50 83.6%91.7%16,050 14,638 1,412 250$1,250$5.0 15 11.25 85.6%93.0%23,514 21,649 1,864 330$1,650$5.0 20 15.00 85.9%93.0%31,239 28,866 2,373 420$2,100$5.0 25 18.75 86.0%93.6%39,037 35,851 3,186 564$2,820$5.0 30 22.50 87.5%94.1%46,013 42,793 3,220 570$2,850$5.0 40 30.00 88.2%94.1%60,899 57,057 3,842 680$3,400$5.0 50 37.50 88.8%94.5%75,539 71,019 4,520 800$4,000$5.0 60 45.00 89.6%95.0%89,927 84,774 5,153 912$4,560$5.0 75 56.25 89.4%95.0%112,589 105,968 6,621 1,172$5,860$5.0 100 75 90.1%95.4%149,037 140,698 8,339 1,476$7,380$5.0 Gymnasium Fan Systems Motor Upgrades Feasiblity Analysis Blended Electrical Cost $0.177 Maximum Acceptable Payback 5 Years Ratio of BHP to Motor HP 75% Estimated Annual Hours of Operation 4800 Exist Est Replace if Proposed Required Proposed Required Required Proposed Required Motor Brake Motor Eff New Existing Energy Energy Energy Motor Simple Hp Hp Is Less Motor Energy Consump Savings Savings Instalation Payback Than Eff Cons KWh KWH KWH $Costs Yrs 1 0.75 71.4%85.5%3,761 3,140 621 110$550$5.0 1.5 1.13 75.2%86.5%5,356 4,655 701 124$620$5.0 2 1.50 77.3%86.5%6,947 6,207 740 131$655$5.0 3 2.25 81.9%89.5%9,835 8,998 836 148$740$5.0 5 3.75 84.7%89.5%15,850 14,997 853 151$755$5.0 7.5 5.63 86.5%91.0%23,278 22,125 1,153 204$1,020$5.0 10 7.50 87.5%91.7%30,687 29,275 1,412 250$1,250$5.0 15 11.25 89.2%93.0%45,163 43,299 1,864 330$1,650$5.0 20 15.00 89.3%93.0%60,104 57,732 2,373 420$2,100$5.0 25 18.75 89.6%93.6%74,888 71,702 3,186 564$2,820$5.0 30 22.50 90.7%94.1%88,805 85,585 3,220 570$2,850$5.0 40 30.00 91.0%94.1%117,955 114,113 3,842 680$3,400$5.0 50 37.50 91.6%94.5%146,558 142,038 4,520 800$4,000$5.0 60 45.00 92.2%95.0%174,701 169,549 5,153 912$4,560$5.0 75 56.25 92.1%95.0%218,557 211,936 6,621 1,172$5,860$5.0 100 75 92.7%95.4%289,735 281,396 8,339 1,476$7,380$5.0 Perimeter Pump Systems Motor Upgrades Feasiblity Analysis Blended Electrical Cost $0.177 Maximum Acceptable Payback 5 Years Ratio of BHP to Motor HP 75% Estimated Annual Hours of Operation 2550 Exist Est Replace if Proposed Required Proposed Required Required Proposed Required Motor Brake Motor Eff New Existing Energy Energy Energy Motor Simple Hp Hp Is Less Motor Energy Consump Savings Savings Instalation Payback Than Eff Cons KWh KWH KWH $Costs Yrs 1 0.75 62.3%85.5%2,289 1,668 621 110$550$5.0 1.5 1.13 67.4%86.5%3,174 2,473 701 124$620$5.0 2 1.50 70.6%86.5%4,038 3,297 740 131$655$5.0 3 2.25 76.2%89.5%5,617 4,780 836 148$740$5.0 5 3.75 80.8%89.5%8,820 7,967 853 151$755$5.0 7.5 5.63 82.9%91.0%12,907 11,754 1,153 204$1,020$5.0 10 7.50 84.1%91.7%16,965 15,552 1,412 250$1,250$5.0 15 11.25 86.0%93.0%24,867 23,002 1,864 330$1,650$5.0 20 15.00 86.3%93.0%33,043 30,670 2,373 420$2,100$5.0 25 18.75 86.4%93.6%41,278 38,092 3,186 564$2,820$5.0 30 22.50 87.9%94.1%48,687 45,467 3,220 570$2,850$5.0 40 30.00 88.5%94.1%64,465 60,623 3,842 680$3,400$5.0 50 37.50 89.2%94.5%79,978 75,458 4,520 800$4,000$5.0 60 45.00 89.9%95.0%95,225 90,073 5,153 912$4,560$5.0 75 56.25 89.7%95.0%119,212 112,591 6,621 1,172$5,860$5.0 100 75 90.4%95.4%157,831 149,492 8,339 1,476$7,380$5.0 Heating Coil Pump Systems APPENDIX E –SYSTEM DIAGRAMS HEATING WATER SYSTEMHEATING WATER SYSTEM DIAGAMSM1.1 EXISTING VAV FAN SYSTEM - BLOCKS A/EEXISTING VAV FAN SYSTEM - BLOCKS A/EM1.2 AUX GYM AIR HANDLING UNITVAV AIR HANDLING UNITM1.3 CLASSROOM AIR HANDLING UNITAUDITORIUM AIR HANDLING UNITVAV AIR HANDLING UNITM1.4 GYM AIR HANDLING UNITSCV AIR HANDLING UNITM1.5 APPENDIX F –EQUIPMENT LIST AHFC ENERGY AUDITS - EXISTING EQUIPMENT SCHEDULES BOILER SCHEDULE - WEST VALLEY HIGH SCHOOL MARK TYPE BOILER CAP CAP OIL EST BURNER MODEL INPUT OUPUT CAP EFF MODEL #MBH MBH GPH %# B-1 BUILDING HEATING CAST IRON BGL-1994-WF 6,412 5,230 45.8 81.6%WLF12 DUAL FUEL #2 OIL AND NAT GAS B-2 BUILDING HEATING CAST IRON BGL-1994-WF 6,412 5,230 45.8 81.6%WLF12 DUAL FUEL #2 OIL AND NAT GAS B-3 BUILDING HEATING CAST IRON BGL-1994-WF 6,412 5,230 45.8 81.6%WLF12 DUAL FUEL #2 OIL AND NAT GAS B-4 BUILDING HEATING CAST IRON BGL-1994-WF 6,412 5,230 45.8 81.6%WLF12 DUAL FUEL #2 OIL AND NAT GAS NOTES: FAN SCHEDULE - WEST VALLEY HIGH SCHOOL MARK FAN AIR TSP CAPACITY MOTOR MOTOR MANUF FLOW IN CONTROL SIZE EFF CFM H20 HP SA1 TEMPMSTR 42,000 N/A IN VANES 75 N/A ORIGINAL SA2 TEMPMSTR 42,000 N/A IN VANES 75 N/A ORIGINAL SA6 TRANE 7,200 N/A CV 7-1/2 N/A ORIGINAL SA7 GYM TRANE 7,200 N/A CV 5 90.1%ORIGINAL SA8 GYM TRANE 19,800 N/A CV 15 N/A ORIGINAL, COOLING ONLY SA9 BLOCK D TRANE 12,200 N/A IN VANES 15 N/A ORIGINAL SA22 BLOCK B FIRST FLOOR TRANE 40,350 4.90 VSD 50 91.7%2001 REMODEL SA23 BLOCK B SECOND FLOOR TRANE 30,740 4.40 VSD 40 91.7%2001 REMODEL SA24 LOBBY/CAFETERIA TRANE 20,350 4.20 VSD 25 91.7%2001 REMODEL SA26 BLOCK C TRANE 10,400 2.50 CV 7-1/2 N/A 2001 REMODEL EF50-EF55 RELIEF GRNHCK 15,000 0.25 1/1/2 N/A 2001 REMODEL NOTES: REMARKS MOTOR MANUFACTURER LINCOLN LINCGUARD LINCOLN LINCGUARD N/A N/A N/A N/A MAGNETEK E PLUS MAGNETEK E PLUS MAGNETEK E PLUS MAGNETEK E PLUS REMARKS SERVES GYM BLOCKS A AND E BLOCKS A AND E BURNER MANUF BOILER MANUF WEIL McCLAIN WEIL McCLAIN WEIL McCLAIN GORDON PIATT GORDON PIATT GORDON PIATT WEIL McCLAIN GORDON PIATT BALDOR STANDARD E SERVES RS Consulting - Mechanical Engineering - 2400 NW 80th St #178 Seattle, WA 98117 AHFC ENERGY AUDITS - EXISTING EQUIPMENT SCHEDULES PUMP SCHEDULE -WEST VALLEY HIGH SCHOOL MARK PUMP PUMP PUMP PUMP PUMP CAPACITY MOTOR MOTOR REMARKS MANUF TYP MODEL FLOW HEAD CONTROL SIZE EFF #GPM FT H20 HP P1 TACO END SUC FE5010 1,200 53 VSD 20 91.0% P2 BUILDING HEATING TACO END SUC FE5010 1,200 53 VSD 20 91.0% NOTES: SERVES MOTOR MANUF US ELECTRIC US ELECTRIC BUILDING HEATING RS Consulting - Mechanical Engineering - 2400 NW 80th St #178 Seattle, WA 98117 APPENDIX G –TRACE 700 INPUT DATA Bldg:West Valley High School Zone Zone Floor Roof Total Floor Ceiling Plenum Grs Wall Window #Occ Design Design Number Name Area Area Perimeter to Floor Height Ht Area Area of per Total Watts Total Loads System Airflow Cfm Sf Sf Lgth, Ft Ht Ft Ft Ft Sf Sf People 1000 sf Watts Per SF Watts Watt/Sf Cfm SF 101 Language Arts, Global Studies 3,660 0 171 12.8 9.0 3.8 2,189 217 130 36 6,864 1.9 5,508 1.50 SA22 7,050 1.93 102 Woods, Tech Lab, Metals 2,940 0 85 12.8 9.0 3.8 1,088 20 31 11 6,728 2.3 2,894 0.98 SA22 2,430 0.83 103 Language Arts 2,580 0 69 12.8 9.0 3.8 883 103 78 30 4,233 1.6 3,411 1.32 SA22 4,350 1.69 104 Pottery, Drawing/Painting 2,710 2,710 160 12.8 9.0 3.8 2,048 149 55 20 7,454 2.8 5,725 2.11 SA22 5,875 2.17 105 Craft, storage, offices 3,380 750 104 12.8 9.0 3.8 1,331 144 25 7 7,796 2.3 5,235 1.55 SA22 3,630 1.07 106 Global Studies, Language Arts 5,300 0 0 12.8 9.4 3.4 0 0 156 29 8,832 1.7 7,110 1.34 SA22 6,810 1.28 107 Writing Lab, Global Studies 5,500 0 0 12.8 9.0 3.8 0 0 110 20 10,289 1.9 8,042 1.46 SA22 8,990 1.63 108 Corridors 9,000 0 0 12.8 10.0 2.8 0 0 0 0 13,707 1.5 11,010 1.22 SA22 1,000 0.11 109 Cafeteria 14,800 14,800 160 9.0 9.0 0.0 1,440 470 350 24 29,863 2.0 25,518 1.72 SA24 18,485 1.25 110 Journal 1,000 0 32 12.8 9.0 3.8 410 48 25 25 3,782 3.8 2,942 2.94 SA01-02 1,740 1.74 111 Language Arts, Library 10,800 0 182 12.8 9.0 3.8 2,330 304 130 12 17,989 1.7 14,833 1.37 SA01-02 16,450 1.52 112 Sed 1,000 0 46 12.8 9.0 3.8 589 48 24 24 1,464 1.5 1,128 1.13 SA01-02 1,200 1.20 113 VP, Exec Sec, Princ, Conf rms 800 0 64 12.8 9.0 3.8 819 128 21 26 5,124 6.4 3,960 4.95 SA01-02 2,635 3.29 114 Reception,Work rm, restrooms 3,070 0 0 12.8 9.0 3.8 0 0 30 10 6,629 2.2 5,239 1.71 SA01-02 2,275 0.74 115 Corridor 1,040 0 0 12.8 9.0 3.8 0 0 0 0 1,430 1.4 1,170 1.13 SA01-02 225 0.22 116 Offices, Conf rm, Coun, Copy rm 1,530 0 0 12.8 9.0 3.8 0 0 13 8 4,030 2.6 2,827 1.85 SA01-02 1,360 0.89 117 Faculty 1,210 1,210 85 12.8 9.0 3.8 1,088 114 0 0 1,133 0.9 854 0.71 SA01-02 3,900 3.22 118 Reception, Sec, Conf, Career 3,450 0 0 12.8 9.0 3.8 0 0 106 31 7,088 2.1 5,344 1.55 SA01-02 3,715 1.08 119 Counselors 680 0 61 12.8 9.0 3.8 781 60 15 22 1,220 1.8 946 1.39 SA01-02 1,215 1.79 120 Corridor 2,290 2,290 43 12.8 9.0 3.8 550 45 0 0 1,980 0.9 1,606 0.70 SA01-02 325 0.14 121 Theatre, Stage 3,310 3,310 69 13.0 13.0 0.0 897 0 235 71 2,513 0.8 1,196 0.36 SA01-02 6,210 1.88 122 Instrumental 3,770 3,770 83 16.6 13.0 3.6 1,378 54 56 15 6,128 1.6 4,794 1.27 SA01-02 3,890 1.03 123 Instrumental, Vocal 2,310 2,310 94 16.6 13.0 3.6 1,560 44 50 22 6,114 2.6 4,706 2.04 SA01-02 3,280 1.42 124 Comm, Offices 950 950 0 12.8 9.0 3.8 0 0 0 0 2,346 2.5 1,660 1.75 SA26 995 1.05 125 Storage, Health classrooms 3,940 3,940 0 12.8 9.0 3.8 0 0 62 16 4,264 1.1 3,120 0.79 SA09 3,015 0.77 126 Corridor 2,750 2,750 0 12.8 9.0 3.8 0 0 0 0 1,525 0.6 972 0.35 SA09 500 0.18 127 Electrical, Kitchen 3,440 3,440 0 12.8 9.0 3.8 0 0 5 1 2,822 0.8 1,728 0.50 SA09 5,100 1.48 128 Boys/Girls Locker rooms 5,320 5,320 0 12.8 9.0 3.8 0 0 10 2 12,478 2.3 8,990 1.69 SA09 3,590 0.67 129 Weight room, PE Storage 2,080 2,080 59 12.8 10.0 2.8 755 48 20 10 3,540 1.7 2,339 1.12 SA26 2,105 1.01 130 Auxiliary Gymnasium 4,640 4,640 155 34.0 34.0 0.0 5,270 45 80 17 6,228 1.3 3,198 0.69 SA26 6,000 1.29 131 Gymnasium 17,830 17,830 160 34.0 34.0 0.0 5,440 0 450 25 24,775 1.4 15,905 0.89 SA06,7,8 34,110 1.91 132 Vestibule 80 80 9 13.0 7.4 5.6 117 0 0 0 540 6.8 432 5.40 CH 250 3.13 133 Vestibule 130 130 10 13.0 7.4 5.6 130 0 0 0 540 4.2 432 3.32 CH 500 3.85 134 Vestibule 80 80 9 13.0 7.4 5.6 117 0 0 0 180 2.3 124 1.55 CH 250 3.13 135 Vestibule 270 270 26 13.0 7.4 5.6 338 0 0 0 576 2.1 366 1.36 CH 500 1.85 136 Vestibule 200 200 18 13.0 7.4 5.6 234 0 0 0 180 0.9 96 0.48 CH 500 2.50 Building Input Form - Trace 700 Lighting (Proposed)Lights (Existing) Bldg:West Valley High School Zone Zone Floor Roof Total Floor Ceiling Plenum Grs Wall Window #Occ Design Design Number Name Area Area Perimeter to Floor Height Ht Area Area of per Total Watts Total Loads System Airflow Cfm Sf Sf Lgth, Ft Ht Ft Ft Ft Sf Sf People 1000 sf Watts Per SF Watts Watt/Sf Cfm SF Building Input Form - Trace 700 Lighting (Proposed)Lights (Existing) 137 Vestibule 150 150 30 13.0 7.4 5.6 390 15 0 0 540 3.6 432 2.88 CH 500 3.33 138 Vestibule 1,210 1,210 8 13.0 9.0 4.0 104 0 35 29 540 0.4 432 0.36 CH 2,000 1.65 139 Vestibule 80 80 10 13.0 7.4 5.6 130 0 0 0 540 6.8 432 5.40 CH 250 3.13 140 Vestibule 80 80 8 13.0 10.0 3.0 104 0 0 0 540 6.8 432 5.40 CH 250 3.13 141 Vestibule 200 200 22 13.0 10.0 3.0 390 50 0 0 540 2.7 432 2.16 SA31 900 4.50 142 Props 1,950 0 66 13.0 10.0 3.0 1,079 0 10 5 5,740 2.9 2,620 1.34 SA32 550 0.28 143 Stage 2,520 2,520 28 34.0 31.0 3.0 952 0 15 6 1,630 0.6 750 0.30 SA30 4,000 1.59 144 Auditorium 7,700 7,700 80 34.0 31.0 3.0 2,720 0 550 71 2,783 0.4 954 0.12 SA30 6,800 0.88 145 Corridor 2,100 2,100 0 13.0 10.0 3.0 0 0 0 0 1,051 0.5 845 0.40 SA30 400 0.19 146 Storage, Restrooms 1,350 0 0 13.0 10.0 3.0 0 0 0 0 322 0.2 271 0.20 SA31 600 0.44 147 Lobby 2,300 2,300 34 34.0 30.0 4.0 1,156 0 500 217 2,841 1.2 1,258 0.55 SA31 7,000 3.04 148 Receiving, Mechanical, Electrical 3,130 3,130 31 20.0 20.0 0.0 2,560 0 2 1 2,346 0.7 1,660 0.53 CH 10,900 3.48 201 Global Studies 4,370 4,370 53 14.1 9.4 4.7 3,257 0 125 29 7,740 1.8 6,212 1.42 SA23 7,520 1.72 202 Math 3,290 3,290 126 14.1 9.4 4.7 2,186 0 118 36 4,590 1.4 3,690 1.12 SA23 5,570 1.69 203 Math 1,850 1,850 50 14.1 9.4 4.7 705 0 65 35 4,680 2.5 7,386 3.99 SA23 2,975 1.61 204 Math 5,310 5,310 0 14.1 9.4 4.7 0 0 180 34 10,646 2.0 8,552 1.61 SA23 11,750 2.21 205 Global Studies, Math Manip.1,880 1,880 0 14.1 9.4 4.7 0 0 60 32 4,277 2.3 3,342 1.78 SA23 2,250 1.20 206 Corridor C2-6, Boys/Girls restrm 5,720 5,720 0 14.1 9.4 4.7 0 0 0 0 7,212 1.3 4,994 0.87 SA23 830 0.15 207 Gifted/Talented, Conference 1,180 1,180 61 14.1 9.4 4.7 860 0 33 28 1,536 1.3 1,231 1.04 SA01-02 1,730 1.47 208 Chem/Phy Lab 2,560 2,560 86 14.1 9.4 4.7 1,213 0 98 38 4,600 1.8 3,632 1.42 SA01-02 4,450 1.74 209 Chem/Phy Lab 4,320 4,320 37 14.1 9.4 4.7 2,453 0 132 31 5,940 1.4 4,818 1.12 SA01-02 7,040 1.63 210 Biology 3,810 3,810 46 14.1 9.4 4.7 1,946 0 102 27 6,310 1.7 5,019 1.32 SA01-02 6,360 1.67 211 Bussiness Ed Lab 6,620 6,620 0 14.1 9.4 4.7 0 0 138 21 10,694 1.6 8,516 1.29 SA01-02 9,575 1.45 212 General Science Lab 2,380 2,380 0 14.1 9.4 4.7 0 0 72 30 5,310 2.2 4,307 1.81 SA01-02 2,680 1.13 213 Corridors, restrooms, stairs 8,040 8,040 128 14.1 9.4 4.7 1,805 0 0 0 11,847 1.5 9,514 1.18 SA01-02 1,800 0.22 214 Mechanical M-6 3,780 3,780 109 18.0 18.0 0.0 2,610 0 0 0 2,700 0.7 1,920 0.51 CH 1,200 0.32 301 Mechanical M-7 3,450 3,450 16 18.0 18.0 0.0 2,736 0 0 0 2,745 0.8 2,160 0.63 CH 1,200 0.35 302 Mechanical M-8 2,450 2,450 110 18.0 18.0 0.0 4,284 0 0 0 2,379 1.0 1,638 0.67 CH 1,200 0.49 303 Mechanical Auditorium 5,200 5,200 120 18.0 18.0 0.0 3,024 0 0 0 4,500 0.9 3,500 0.67 CH 0.00 216,820 158,540 3,213 68,445 2,106 4,502 339,503 1.6 256,309 1.18 266,735 Percent Windows 3%0%Diversity Bldg:West Valley High School Zone Zone Floor Roof Total Floor Ceiling Plenum Grs Wall Window #Occ Design Design Number Name Area Area Perimeter to Floor Height Ht Area Area of per Total Watts Total Loads System Airflow Cfm Sf Sf Lgth, Ft Ht Ft Ft Ft Sf Sf People 1000 sf Watts Per SF Watts Watt/Sf Cfm SF Building Input Form - Trace 700 Lighting (Proposed)Lights (Existing) AIR HANDLING UNITS Exterior 35,726 -27,789 - TAG SERVES AREA CFM CFM/SF SA01-02 BLOCK A UPPER AND LOWER 65,170 82,055 1.26 SA06,7,8 GYM 17,830 34,110 1.91 SA09 LOCKER ROOMS 15,450 12,205 0.79 SA22 BLOCK B - LOWER 35,070 40,135 1.14 SA23 BLOCK B - UPPER 22,420 30,895 1.38 SA24 COMMONS 14,800 18,485 1.25 SA26 AUXILLARY GYM 7,670 9,100 1.19 SA30 AUDITORIUM 12,320 11,200 0.91 SA31 LOBBY 3,650 8,500 2.33 CH-1 VESTIBULES/MECH 22,440 19,500 0.87 216,820 266,185 1.23 Bldg:West Valley High School Wall Direction:North = 0, East = 90, South = 180, West =270 Zone Zone Number Name Wall Gross Wall Wall Glass Glass Wall Wall Gross Wall Wall Glass Glass Wall Wall Gross Wall Wall Glass Glass Wall Length Ft Sq Ft Type Area Type Direction Length Ft Sq Ft Type Area Type Direction Length Ft Sq Ft Type Area Type Direction 101 Language Arts, Global Studies 61 781 2 114 1 270 110 1408 2 103 1 0 0 102 Woods, Tech Lab, Metals 54 691 2 20 1 0 31 397 2 90 0 103 Language Arts 69 883 2 103 1 270 0 0 104 Pottery, Drawing/Painting 57 730 2 36 1 0 72 922 2 23 1 270 31 397 2 90 1 180 105 Craft, storage, offices 104 1331 2 144 1 180 0 0 106 Global Studies, Language Arts 0 0 0 107 Writing Lab, Global Studies 0 0 0 108 Corridors 0 0 0 109 Cafeteria 120 1080 1 270 1 180 20 180 1 190 1 270 20 180 1 10 1 90 110 Journal 32 410 1 48 1 270 0 0 111 Language Arts, Library 91 1165 1 128 1 270 91 1165 1 176 1 180 0 112 Sed 46 589 1 48 1 180 0 0 113 VP, Exec Sec, Princ, Conf rms 64 819 1 128 1 90 0 0 114 Reception,Work rm, restrooms 0 0 0 115 Corridor 0 0 0 116 Offices, Conf rm, Coun, Copy rm 0 0 0 117 Faculty 46 589 1 46 1 180 39 499 1 68 1 90 0 118 Reception, Sec, Conf, Career 0 0 0 119 Counselors 61 781 1 60 1 270 0 0 120 Corridor 43 550 1 45 1 0 0 0 121 Theatre, Stage 69 897 3 180 0 0 122 Instrumental 83 1378 3 54 1 180 0 0 123 Instrumental, Vocal 53 880 3 44 1 180 41 681 3 90 0 124 Comm, Offices 0 0 0 125 Storage, Health classrooms 0 0 0 126 Corridor 0 0 0 127 Electrical, Kitchen 0 0 0 128 Boys/Girls Locker rooms 0 0 0 129 Weight room, PE Storage 59 755 2 48 1 0 0 0 130 Auxiliary Gymnasium 54 1836 2 90 93 3162 2 45 1 0 8 272 2 270 131 Gymnasium 160 5440 2 90 0 0 132 Vestibule 9 117 2 0 0 0 133 Vestibule 10 130 2 0 0 0 134 Vestibule 9 117 2 270 0 0 135 Vestibule 26 338 2 270 0 0 136 Vestibule 18 234 2 90 0 0 137 Vestibule 18 234 2 90 12 156 2 15 1 0 0 138 Vestibule 8 104 2 270 0 0 139 Vestibule 10 130 2 0 0 0 140 Vestibule 8 104 2 0 0 0 141 Vestibule 22 286 2 50 1 180 8 104 2 90 0 142 Props 66 858 3 0 17 221 3 90 0 143 Stage 28 952 3 90 0 0 144 Auditorium 80 2720 3 90 0 0 145 Corridor 0 0 0 0 146 Storage, Restrooms 0 0 0 0 147 Lobby 34 1156 2 90 0 0 148 Receiving, Mechanical, Electrical 31 620 2 270 66 1320 2 0 31 620 2 90 Wall 1 Wall 2 Wall 3 Building Input Form - Trace 700 - Wall Data Bldg:West Valley High School Wall Direction:North = 0, East = 90, South = 180, West =270 Zone Zone Number Name Wall Gross Wall Wall Glass Glass Wall Wall Gross Wall Wall Glass Glass Wall Wall Gross Wall Wall Glass Glass Wall Length Ft Sq Ft Type Area Type Direction Length Ft Sq Ft Type Area Type Direction Length Ft Sq Ft Type Area Type Direction Wall 1 Wall 2 Wall 3 Building Input Form - Trace 700 - Wall Data 201 Global Studies 53 747 2 54 1 270 139 1960 2 187 1 0 39 550 2 90 202 Math 126 1777 2 142 1 270 29 409 2 54 1 180 0 203 Math 50 705 2 77 1 180 0 0 204 Math 0 0 0 205 Global Studies, Math Manip.0 0 0 206 Corridor C2-6, Boys/Girls restrm 0 0 0 207 Gifted/Talented, Conference 61 860 1 66 1 270 0 0 208 Chem/Phy Lab 86 1213 1 72 1 270 0 0 209 Chem/Phy Lab 37 522 1 72 1 270 137 1932 1 414 1 180 0 210 Biology 46 649 1 51 1 180 92 1297 1 126 1 90 0 211 Bussiness Ed Lab 0 0 0 212 General Science Lab 0 0 0 213 Corridors, restrooms, stairs 128 1805 1 72 1 90 0 0 214 Mechanical M-6 109 1962 1 90 36 648 1 0 0 301 Mechanical M-7 16 288 1 0 120 2160 1 270 16 288 1 180 302 Mechanical M-8 110 1980 1 90 34 612 1 180 94 1692 1 270 303 Mechanical Auditorium 120 2160 2 90 24 432 2 180 24 432 2 270 SYSTEM ENTERED VALUES By RS Consulting SA22 - BLOCK B LOWER VAV w/Baseboard Heating- Cooling supply: Leaving cooling coil: Heating supply: Design Air Conditions Max Min Design humidity ratio diff: Min room relative humidity:Reheat Temperature diff: Supply duct temperature diff:0.0 °F 0.0 °F Economizer Max Percent OA:100%"On"Point:Dry BulbType:°F Available (100%)Schedule: Type:Direct efficiency:Indirect efficiency:None 0%0%Available (100%)Available (100%) Evaporative Cooling Reset per worst case room schedule: Night purge schedule: Optimum start schedule: Optimum stop schedule: Available (100%) Off (0%) Off (0%) Supply fan sizing: Supply fan motor location: Return fan motor location: Supply fan cofiguration:Block cooling airflow: Supply duct location: Return air path: Cooling coil sizing method: Cooling coil location: Ventilation deck location: System ventilation flag: PLENUM Supply Return Draw Thru Block Return Air Block System Return/Outdoor Deck Fan mechanical efficiency :70% Sum Room OA Reqs Advanced Options Off (0%) Apply Std62 People Avg:No Std62 Max Vent (Z)Ratio: CO2-based DCV:None Max reset: YesUse system default outside air reset: Supply air path /duct location:Return Air Space convective gains to occupied layer: Underfloor plenum height:0.0 ft Conductive resistance of raised floor:0.8 hr·ft²·°F/Btu Upstream nominal leakage fraction:0 % Downstream constant leakage fraction:0 % Aux cooling coil losses to plenum:0 % Activate After Primary System None Activate After Primary System None No Fan Auxiliary cooling coil Auxiliary heating coil Auxiliary fan Control Method Control Type Capacity Schedule Main cooling: Aux cooling: Main heating: Aux heating: Preheat: Reheat: Humidification: Coils 100.0 % of Design Capacity by adjusting airflow 100.0 % of Design Capacity 100.0% of Design Capacity 100.0 % of Design Capacity 100.0 % of Design Capacity Off (0%) Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) Diversity People Lights Misc loads 100% 100% 100% Primary Secondary Return System Exhaust Room Exhaust Optional ventilation Auxiliary Type Full Load Energy Rate Schedule Efficiency AF Centrifugal var freq drv None None Propeller fan None None None 0.00022 0.00000 0.00000 0.00025 0.00000 0.00000 0.00000 kW/Cfm-in wg kW kW kW/Cfm kW kW kW FB Fan High School Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) 92 85 90 90 85 90 85 Static Press.Demand Limiting PriorityFans 3.5 in. wg 0.0 in. wg 0.0 in. wg 1.3 in. wg 0.0 in. wg 0.0 in. wg 0.0 in. wg LEED Fan Power Adjustment 0.0 in. wg TRACE® 700 v6.2.8 calculated at 01:46 PM on 04/20/2012Project Name:West Valley High School - Energy Audit Alternative - 1 Entered Values Systems page 1 of 40Dataset Name:C:\Users\Ray\Documents\TRACE 700 Projects\WEST VALLEY HS.TRC SYSTEM ENTERED VALUES By RS Consulting SA23 - BLOCK B UPPER VAV w/Baseboard Heating- Cooling supply: Leaving cooling coil: Heating supply: Design Air Conditions Max Min Design humidity ratio diff: Min room relative humidity:Reheat Temperature diff: Supply duct temperature diff:0.0 °F 0.0 °F Economizer Max Percent OA:100%"On"Point:Dry BulbType:°F Available (100%)Schedule: Type:Direct efficiency:Indirect efficiency:None 0%0%Available (100%)Available (100%) Evaporative Cooling Reset per worst case room schedule: Night purge schedule: Optimum start schedule: Optimum stop schedule: Available (100%) Off (0%) Off (0%) Supply fan sizing: Supply fan motor location: Return fan motor location: Supply fan cofiguration:Block cooling airflow: Supply duct location: Return air path: Cooling coil sizing method: Cooling coil location: Ventilation deck location: System ventilation flag: PLENUM Supply Return Draw Thru Block Return Air Block System Return/Outdoor Deck Fan mechanical efficiency :70% Sum Room OA Reqs Advanced Options Off (0%) Apply Std62 People Avg:No Std62 Max Vent (Z)Ratio: CO2-based DCV:None Max reset: YesUse system default outside air reset: Supply air path /duct location:Return Air Space convective gains to occupied layer: Underfloor plenum height:0.0 ft Conductive resistance of raised floor:0.8 hr·ft²·°F/Btu Upstream nominal leakage fraction:0 % Downstream constant leakage fraction:0 % Aux cooling coil losses to plenum:0 % Activate After Primary System None Activate After Primary System Wall Convector No Fan Auxiliary cooling coil Auxiliary heating coil Auxiliary fan Control Method Control Type Capacity Schedule Main cooling: Aux cooling: Main heating: Aux heating: Preheat: Reheat: Humidification: 100 % of Design Capacity Coils 100.0 % of Design Capacity by adjusting airflow 100.0 % of Design minus Aux Capacity 100.0% of Design Capacity 100.0 % of Design Capacity 100.0 % of Design Capacity Off (0%) Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) Diversity People Lights Misc loads 100% 100% 100% Primary Secondary Return System Exhaust Room Exhaust Optional ventilation Auxiliary Type Full Load Energy Rate Schedule Efficiency AF Centrifugal var freq drv None None Propeller fan None None None 0.00022 0.00000 0.00000 0.00025 0.00000 0.00000 0.00000 kW/Cfm-in wg kW kW kW/Cfm kW kW kW FB Fan High School Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) 92 85 90 90 85 90 85 Static Press.Demand Limiting PriorityFans 3.5 in. wg 0.0 in. wg 0.0 in. wg 1.3 in. wg 0.0 in. wg 0.0 in. wg 0.0 in. wg LEED Fan Power Adjustment 0.0 in. wg TRACE® 700 v6.2.8 calculated at 01:46 PM on 04/20/2012Project Name:West Valley High School - Energy Audit Alternative - 1 Entered Values Systems page 2 of 40Dataset Name:C:\Users\Ray\Documents\TRACE 700 Projects\WEST VALLEY HS.TRC SYSTEM ENTERED VALUES By RS Consulting SA24 - COMMONS VAV w/Baseboard Heating- Cooling supply: Leaving cooling coil: Heating supply: Design Air Conditions Max Min Design humidity ratio diff: Min room relative humidity:Reheat Temperature diff: Supply duct temperature diff:0.0 °F 0.0 °F Economizer Max Percent OA:100%"On"Point:Dry BulbType:°F Available (100%)Schedule: Type:Direct efficiency:Indirect efficiency:None 0%0%Available (100%)Available (100%) Evaporative Cooling Reset per worst case room schedule: Night purge schedule: Optimum start schedule: Optimum stop schedule: Available (100%) Off (0%) Off (0%) Supply fan sizing: Supply fan motor location: Return fan motor location: Supply fan cofiguration:Block cooling airflow: Supply duct location: Return air path: Cooling coil sizing method: Cooling coil location: Ventilation deck location: System ventilation flag: PLENUM Supply Return Draw Thru Block Return Air Block System Return/Outdoor Deck Fan mechanical efficiency :70% Sum Room OA Reqs Advanced Options Off (0%) Apply Std62 People Avg:No Std62 Max Vent (Z)Ratio: CO2-based DCV:None Max reset: YesUse system default outside air reset: Supply air path /duct location:Return Air Space convective gains to occupied layer: Underfloor plenum height:0.0 ft Conductive resistance of raised floor:0.8 hr·ft²·°F/Btu Upstream nominal leakage fraction:0 % Downstream constant leakage fraction:0 % Aux cooling coil losses to plenum:0 % Activate After Primary System None Activate After Primary System Wall Convector No Fan Auxiliary cooling coil Auxiliary heating coil Auxiliary fan Control Method Control Type Capacity Schedule Main cooling: Aux cooling: Main heating: Aux heating: Preheat: Reheat: Humidification: 100 % of Design Capacity Coils 100.0 % of Design Capacity by adjusting airflow 100.0 % of Design minus Aux Capacity 100.0% of Design Capacity 100.0 % of Design Capacity 100.0 % of Design Capacity Off (0%) Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) Diversity People Lights Misc loads 100% 100% 100% Primary Secondary Return System Exhaust Room Exhaust Optional ventilation Auxiliary Type Full Load Energy Rate Schedule Efficiency AF Centrifugal var freq drv None None Propeller fan None None None 0.00022 0.00000 0.00000 0.00025 0.00000 0.00000 0.00000 kW/Cfm-in wg kW kW kW/Cfm kW kW kW FB Fan High School Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) 92 85 90 90 85 90 85 Static Press.Demand Limiting PriorityFans 3.5 in. wg 0.0 in. wg 0.0 in. wg 1.3 in. wg 0.0 in. wg 0.0 in. wg 0.0 in. wg LEED Fan Power Adjustment 0.0 in. wg TRACE® 700 v6.2.8 calculated at 01:46 PM on 04/20/2012Project Name:West Valley High School - Energy Audit Alternative - 1 Entered Values Systems page 3 of 40Dataset Name:C:\Users\Ray\Documents\TRACE 700 Projects\WEST VALLEY HS.TRC SYSTEM ENTERED VALUES By RS Consulting SA30 - AUDITORIUM VAV w/Baseboard Heating- Cooling supply: Leaving cooling coil: Heating supply: Design Air Conditions Max Min Design humidity ratio diff: Min room relative humidity:Reheat Temperature diff: Supply duct temperature diff:0.0 °F 0.0 °F Economizer Max Percent OA:100%"On"Point:Dry BulbType:°F Available (100%)Schedule: Type:Direct efficiency:Indirect efficiency:None 0%0%Available (100%)Available (100%) Evaporative Cooling Reset per worst case room schedule: Night purge schedule: Optimum start schedule: Optimum stop schedule: Available (100%) Off (0%) Off (0%) Supply fan sizing: Supply fan motor location: Return fan motor location: Supply fan cofiguration:Block cooling airflow: Supply duct location: Return air path: Cooling coil sizing method: Cooling coil location: Ventilation deck location: System ventilation flag: PLENUM Supply Return Draw Thru Block Return Air Block System Return/Outdoor Deck Fan mechanical efficiency :70% Sum Room OA Reqs Advanced Options Off (0%) Apply Std62 People Avg:No Std62 Max Vent (Z)Ratio: CO2-based DCV:None Max reset: YesUse system default outside air reset: Supply air path /duct location:Return Air Space convective gains to occupied layer: Underfloor plenum height:0.0 ft Conductive resistance of raised floor:0.8 hr·ft²·°F/Btu Upstream nominal leakage fraction:0 % Downstream constant leakage fraction:0 % Aux cooling coil losses to plenum:0 % Activate After Primary System None Activate After Primary System None No Fan Auxiliary cooling coil Auxiliary heating coil Auxiliary fan Control Method Control Type Capacity Schedule Main cooling: Aux cooling: Main heating: Aux heating: Preheat: Reheat: Humidification: Coils 100.0 % of Design Capacity by adjusting airflow 100.0 % of Design Capacity 100.0% of Design Capacity 100.0 % of Design Capacity 100.0 % of Design Capacity Off (0%) Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) Diversity People Lights Misc loads 100% 100% 100% Primary Secondary Return System Exhaust Room Exhaust Optional ventilation Auxiliary Type Full Load Energy Rate Schedule Efficiency AF Centrifugal var freq drv None AF Centrifugal var freq drv None None None None 0.00022 0.00000 0.00022 0.00000 0.00000 0.00000 0.00000 kW/Cfm-in wg kW kW/Cfm-in wg kW kW kW kW FB Fan High School Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) 90 85 90 90 85 90 85 Static Press.Demand Limiting PriorityFans 3.5 in. wg 0.0 in. wg 2.5 in. wg 0.0 in. wg 0.0 in. wg 0.0 in. wg 0.0 in. wg LEED Fan Power Adjustment 0.0 in. wg TRACE® 700 v6.2.8 calculated at 01:46 PM on 04/20/2012Project Name:West Valley High School - Energy Audit Alternative - 1 Entered Values Systems page 4 of 40Dataset Name:C:\Users\Ray\Documents\TRACE 700 Projects\WEST VALLEY HS.TRC SYSTEM ENTERED VALUES By RS Consulting SA31 - LOBBY VAV w/Baseboard Heating- Cooling supply: Leaving cooling coil: Heating supply: Design Air Conditions Max Min Design humidity ratio diff: Min room relative humidity:Reheat Temperature diff: Supply duct temperature diff:0.0 °F 0.0 °F Economizer Max Percent OA:100%"On"Point:Dry BulbType:°F Available (100%)Schedule: Type:Direct efficiency:Indirect efficiency:None 0%0%Available (100%)Available (100%) Evaporative Cooling Reset per worst case room schedule: Night purge schedule: Optimum start schedule: Optimum stop schedule: Available (100%) Off (0%) Off (0%) Supply fan sizing: Supply fan motor location: Return fan motor location: Supply fan cofiguration:Block cooling airflow: Supply duct location: Return air path: Cooling coil sizing method: Cooling coil location: Ventilation deck location: System ventilation flag: PLENUM Supply Return Draw Thru Block Return Air Block System Return/Outdoor Deck Fan mechanical efficiency :70% Sum Room OA Reqs Advanced Options Off (0%) Apply Std62 People Avg:No Std62 Max Vent (Z)Ratio: CO2-based DCV:None Max reset: YesUse system default outside air reset: Supply air path /duct location:Return Air Space convective gains to occupied layer: Underfloor plenum height:0.0 ft Conductive resistance of raised floor:0.8 hr·ft²·°F/Btu Upstream nominal leakage fraction:0 % Downstream constant leakage fraction:0 % Aux cooling coil losses to plenum:0 % Activate After Primary System None Activate After Primary System Wall Convector No Fan Auxiliary cooling coil Auxiliary heating coil Auxiliary fan Control Method Control Type Capacity Schedule Main cooling: Aux cooling: Main heating: Aux heating: Preheat: Reheat: Humidification: 100 % of Design Capacity Coils 100.0 % of Design Capacity by adjusting airflow 100.0 % of Design minus Aux Capacity 100.0% of Design Capacity 100.0 % of Design Capacity 100.0 % of Design Capacity Off (0%) Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) Diversity People Lights Misc loads 100% 100% 100% Primary Secondary Return System Exhaust Room Exhaust Optional ventilation Auxiliary Type Full Load Energy Rate Schedule Efficiency AF Centrifugal var freq drv None AF Centrifugal var freq drv None None None None 0.00022 0.00000 0.00022 0.00000 0.00000 0.00000 0.00000 kW/Cfm-in wg kW kW/Cfm-in wg kW kW kW kW FB Fan High School Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) 90 85 90 90 85 90 85 Static Press.Demand Limiting PriorityFans 3.5 in. wg 0.0 in. wg 1.5 in. wg 0.0 in. wg 0.0 in. wg 0.0 in. wg 0.0 in. wg LEED Fan Power Adjustment 0.0 in. wg TRACE® 700 v6.2.8 calculated at 01:46 PM on 04/20/2012Project Name:West Valley High School - Energy Audit Alternative - 1 Entered Values Systems page 5 of 40Dataset Name:C:\Users\Ray\Documents\TRACE 700 Projects\WEST VALLEY HS.TRC SYSTEM ENTERED VALUES By RS Consulting SA01 - BLOCK A VAV w/Baseboard Heating- Cooling supply: Leaving cooling coil: Heating supply: Design Air Conditions Max Min Design humidity ratio diff: Min room relative humidity:Reheat Temperature diff: Supply duct temperature diff:0.0 °F 0.0 °F Economizer Max Percent OA:100%"On"Point:Dry BulbType:°F Available (100%)Schedule: Type:Direct efficiency:Indirect efficiency:None 0%0%Available (100%)Available (100%) Evaporative Cooling Reset per worst case room schedule: Night purge schedule: Optimum start schedule: Optimum stop schedule: Available (100%) Off (0%) Off (0%) Supply fan sizing: Supply fan motor location: Return fan motor location: Supply fan cofiguration:Block cooling airflow: Supply duct location: Return air path: Cooling coil sizing method: Cooling coil location: Ventilation deck location: System ventilation flag: PLENUM Supply Return Draw Thru Block Return Air Block System Return/Outdoor Deck Fan mechanical efficiency :68% Sum Room OA Reqs Advanced Options Off (0%) Apply Std62 People Avg:No Std62 Max Vent (Z)Ratio: CO2-based DCV:None Max reset: YesUse system default outside air reset: Supply air path /duct location:Return Air Space convective gains to occupied layer:100 % Underfloor plenum height:0.0 ft Conductive resistance of raised floor:0.8 hr·ft²·°F/Btu Upstream nominal leakage fraction:0 % Downstream constant leakage fraction:0 % Aux cooling coil losses to plenum:0 % Follow Outside Air Reset Schedule None Activate After Primary System Wall Convector No Fan Auxiliary cooling coil Auxiliary heating coil Auxiliary fan Control Method Control Type Capacity Schedule Main cooling: Aux cooling: Main heating: Aux heating: Preheat: Reheat: Humidification: 100 % of Design Capacity Coils 100.0 % of Design Capacity by adjusting airflow 100.0 % of Design minus Aux Capacity 100.0% of Design Capacity 100.0 % of Design Capacity 100.0 % of Design Capacity Off (0%) Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) Diversity People Lights Misc loads 100% 100% 100% Primary Secondary Return System Exhaust Room Exhaust Optional ventilation Auxiliary Type Full Load Energy Rate Schedule Efficiency AF Centrifugal vav/inlet v None None None None None None 0.00026 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 kW/Cfm-in wg kW kW kW kW kW kW FB WVHS Fan Schedule Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) 85 85 90 90 85 90 85 Static Press.Demand Limiting PriorityFans 5.3 in. wg 0.0 in. wg 0.0 in. wg 0.0 in. wg 0.0 in. wg 0.0 in. wg 0.0 in. wg LEED Fan Power Adjustment 0.0 in. wg TRACE® 700 v6.2.8 calculated at 01:46 PM on 04/20/2012Project Name:West Valley High School - Energy Audit Alternative - 1 Entered Values Systems page 6 of 40Dataset Name:C:\Users\Ray\Documents\TRACE 700 Projects\WEST VALLEY HS.TRC SYSTEM ENTERED VALUES By RS Consulting SA26 - AUX GYM VAV w/Baseboard Heating- Cooling supply: Leaving cooling coil: Heating supply: Design Air Conditions Max Min Design humidity ratio diff: Min room relative humidity:Reheat Temperature diff: Supply duct temperature diff:0.0 °F 0.0 °F Economizer Max Percent OA:100%"On"Point:Dry BulbType:°F Available (100%)Schedule: Type:Direct efficiency:Indirect efficiency:None 0%0%Available (100%)Available (100%) Evaporative Cooling Reset per worst case room schedule: Night purge schedule: Optimum start schedule: Optimum stop schedule: Available (100%) Off (0%) Off (0%) Supply fan sizing: Supply fan motor location: Return fan motor location: Supply fan cofiguration:Block cooling airflow: Supply duct location: Return air path: Cooling coil sizing method: Cooling coil location: Ventilation deck location: System ventilation flag: PLENUM Supply Return Draw Thru Block Return Air Block System Return/Outdoor Deck Fan mechanical efficiency :70% Sum Room OA Reqs Advanced Options Off (0%) Apply Std62 People Avg:No Std62 Max Vent (Z)Ratio: CO2-based DCV:None Max reset: YesUse system default outside air reset: Supply air path /duct location:Return Air Space convective gains to occupied layer: Underfloor plenum height:0.0 ft Conductive resistance of raised floor:0.8 hr·ft²·°F/Btu Upstream nominal leakage fraction:0 % Downstream constant leakage fraction:0 % Aux cooling coil losses to plenum:0 % Follow Outside Air Reset Schedule None Activate After Primary System Wall Convector No Fan Auxiliary cooling coil Auxiliary heating coil Auxiliary fan Control Method Control Type Capacity Schedule Main cooling: Aux cooling: Main heating: Aux heating: Preheat: Reheat: Humidification: 150 % of Design Capacity Coils 150.0 % of Design Capacity by adjusting airflow 150.0 % of Design minus Aux Capacity 150.0% of Design Capacity 150.0 % of Design Capacity 100.0 % of Design Capacity Off (0%) Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) Diversity People Lights Misc loads 100% 100% 100% Primary Secondary Return System Exhaust Room Exhaust Optional ventilation Auxiliary Type Full Load Energy Rate Schedule Efficiency AF Centrifugal var freq drv None None Propeller fan None None None 0.00022 0.00000 0.00000 0.00025 0.00000 0.00000 0.00000 kW/Cfm-in wg kW kW kW/Cfm kW kW kW FB Fan High School Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) 92 85 90 90 85 90 85 Static Press.Demand Limiting PriorityFans 3.5 in. wg 0.0 in. wg 0.0 in. wg 1.3 in. wg 0.0 in. wg 0.0 in. wg 0.0 in. wg LEED Fan Power Adjustment 0.0 in. wg TRACE® 700 v6.2.8 calculated at 01:46 PM on 04/20/2012Project Name:West Valley High School - Energy Audit Alternative - 1 Entered Values Systems page 7 of 40Dataset Name:C:\Users\Ray\Documents\TRACE 700 Projects\WEST VALLEY HS.TRC SYSTEM ENTERED VALUES By RS Consulting SA09 - LOCKERS VAV w/Baseboard Heating- Cooling supply: Leaving cooling coil: Heating supply: Design Air Conditions Max Min Design humidity ratio diff: Min room relative humidity:Reheat Temperature diff: Supply duct temperature diff:0.0 °F 0.0 °F Economizer Max Percent OA:100%"On"Point:Dry BulbType:°F Available (100%)Schedule: Type:Direct efficiency:Indirect efficiency:None 0%0%Available (100%)Available (100%) Evaporative Cooling Reset per worst case room schedule: Night purge schedule: Optimum start schedule: Optimum stop schedule: Available (100%) Off (0%) Off (0%) Supply fan sizing: Supply fan motor location: Return fan motor location: Supply fan cofiguration:Block cooling airflow: Supply duct location: Return air path: Cooling coil sizing method: Cooling coil location: Ventilation deck location: System ventilation flag: PLENUM Supply Return Draw Thru Block Return Air Block System Return/Outdoor Deck Fan mechanical efficiency :70% Sum Room OA Reqs Advanced Options Off (0%) Apply Std62 People Avg:No Std62 Max Vent (Z)Ratio: CO2-based DCV:None Max reset: YesUse system default outside air reset: Supply air path /duct location:Return Air Space convective gains to occupied layer: Underfloor plenum height:0.0 ft Conductive resistance of raised floor:0.8 hr·ft²·°F/Btu Upstream nominal leakage fraction:0 % Downstream constant leakage fraction:0 % Aux cooling coil losses to plenum:0 % Activate After Primary System None Activate After Primary System Wall Convector No Fan Auxiliary cooling coil Auxiliary heating coil Auxiliary fan Control Method Control Type Capacity Schedule Main cooling: Aux cooling: Main heating: Aux heating: Preheat: Reheat: Humidification: 150 % of Design Capacity Coils 150.0 % of Design Capacity by adjusting airflow 150.0 % of Design minus Aux Capacity 150.0% of Design Capacity 150.0 % of Design Capacity 100.0 % of Design Capacity Off (0%) Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) Diversity People Lights Misc loads 100% 100% 100% Primary Secondary Return System Exhaust Room Exhaust Optional ventilation Auxiliary Type Full Load Energy Rate Schedule Efficiency AF Centrifugal vav/inlet v None None Propeller fan BI Centrifugal const vol None None 0.00026 0.00000 0.00000 0.00025 0.00024 0.00000 0.00000 kW/Cfm-in wg kW kW kW/Cfm kW/Cfm-in wg kW kW FB Fan High School Available (100%) Available (100%) Available (100%) FB Fan High School Available (100%) Available (100%) 88 85 90 88 84 90 85 Static Press.Demand Limiting PriorityFans 3.5 in. wg 0.0 in. wg 0.0 in. wg 1.3 in. wg 1.3 in. wg 0.0 in. wg 0.0 in. wg LEED Fan Power Adjustment 0.0 in. wg TRACE® 700 v6.2.8 calculated at 01:46 PM on 04/20/2012Project Name:West Valley High School - Energy Audit Alternative - 1 Entered Values Systems page 8 of 40Dataset Name:C:\Users\Ray\Documents\TRACE 700 Projects\WEST VALLEY HS.TRC SYSTEM ENTERED VALUES By RS Consulting SA06 - GYM Variable Temperature Constant Volume- Cooling supply: Leaving cooling coil: Heating supply: Design Air Conditions Max Min Design humidity ratio diff: Min room relative humidity:Reheat Temperature diff: Supply duct temperature diff:0.0 °F 0.0 °F Economizer Max Percent OA:100%"On"Point:Dry BulbType:°F Available (100%)Schedule: Type:Direct efficiency:Indirect efficiency:None 0%0%Available (100%)Available (100%) Evaporative Cooling Reset per worst case room schedule: Night purge schedule: Optimum start schedule: Optimum stop schedule: Available (100%) Off (0%) Off (0%) Supply fan sizing: Supply fan motor location: Return fan motor location: Supply fan cofiguration:Block cooling airflow: Supply duct location: Return air path: Cooling coil sizing method: Cooling coil location: Ventilation deck location: System ventilation flag: PLENUM Supply Return Draw Thru Peak Return Air Peak Zone Return/Outdoor Deck Fan mechanical efficiency :70% Sum Room OA Reqs Advanced Options Off (0%) Apply Std62 People Avg:No Std62 Max Vent (Z)Ratio: CO2-based DCV:None Max reset: YesUse system default outside air reset: Supply air path /duct location:Return Air Space convective gains to occupied layer: Underfloor plenum height:0.0 ft Conductive resistance of raised floor:0.8 hr·ft²·°F/Btu Upstream nominal leakage fraction:0 % Downstream constant leakage fraction:0 % Aux cooling coil losses to plenum:0 % Activate After Primary System None Activate After Primary System None No Fan Auxiliary cooling coil Auxiliary heating coil Auxiliary fan Control Method Control Type Capacity Schedule Main cooling: Aux cooling: Main heating: Aux heating: Preheat: Reheat: Humidification: Coils 100.0 % of Design Capacity by adjusting airflow 100.0 % of Design Capacity 100.0% of Design Capacity 100.0 % of Design Capacity 100.0 % of Design Capacity Off (0%) Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) Diversity People Lights Misc loads 100% 100% 100% Primary Secondary Return System Exhaust Room Exhaust Optional ventilation Auxiliary Type Full Load Energy Rate Schedule Efficiency AF Centrifugal const vol None Propeller fan None None None None 0.00020 0.00000 0.00025 0.00000 0.00000 0.00000 0.00000 kW/Cfm-in wg kW kW/Cfm kW kW kW kW FB Fan High School Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) 90 85 90 90 85 90 85 Static Press.Demand Limiting PriorityFans 3.5 in. wg 0.0 in. wg 1.3 in. wg 0.0 in. wg 0.0 in. wg 0.0 in. wg 0.0 in. wg LEED Fan Power Adjustment 0.0 in. wg TRACE® 700 v6.2.8 calculated at 01:46 PM on 04/20/2012Project Name:West Valley High School - Energy Audit Alternative - 1 Entered Values Systems page 9 of 40Dataset Name:C:\Users\Ray\Documents\TRACE 700 Projects\WEST VALLEY HS.TRC SYSTEM ENTERED VALUES By RS Consulting CH Unit Heaters- Cooling supply: Leaving cooling coil: Heating supply: Design Air Conditions Max Min Design humidity ratio diff: Min room relative humidity:Reheat Temperature diff: Supply duct temperature diff:0.0 °F 0.0 °F Reset per worst case room schedule: Night purge schedule: Optimum start schedule: Optimum stop schedule: Off (0%) Off (0%) Off (0%) Supply fan sizing: Supply fan motor location: Return fan motor location: Supply fan cofiguration:Block cooling airflow: Supply duct location: Return air path: Cooling coil sizing method: Cooling coil location: Ventilation deck location: System ventilation flag: ROOMDK Supply Return Draw Thru No Fan Return Air No Coil Room Return/Outdoor Deck Fan mechanical efficiency :75% Sum Room OA Reqs Advanced Options Off (0%) Apply Std62 People Avg:No Std62 Max Vent (Z)Ratio: CO2-based DCV:None Max reset: YesUse system default outside air reset: Supply air path /duct location:Return Air Space convective gains to occupied layer:100 % Underfloor plenum height:0.0 ft Conductive resistance of raised floor:0.8 hr·ft²·°F/Btu Upstream nominal leakage fraction:0 % Downstream constant leakage fraction:0 % Aux cooling coil losses to plenum:0 % Activate After Primary System None Activate After Primary System None No Fan Auxiliary cooling coil Auxiliary heating coil Auxiliary fan Control Method Control Type Capacity Schedule Main cooling: Aux cooling: Main heating: Aux heating: Preheat: Reheat: Humidification: Coils 0.0 % of Design Capacity by adjusting airflow 100.0 % of Design Capacity 100.0% of Design Capacity 100.0 % of Design Capacity 100.0 % of Design Capacity Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) Diversity People Lights Misc loads 100% 100% 100% Primary Secondary Return System Exhaust Room Exhaust Optional ventilation Auxiliary Type Full Load Energy Rate Schedule Efficiency None BI Centrifugal const vol None None None None None 0.00000 0.00024 0.00000 0.00000 0.00000 0.00000 0.00000 kW kW/Cfm-in wg kW kW kW kW kW Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) 90 85 90 90 85 90 85 Static Press.Demand Limiting PriorityFans 0.0 in. wg 0.3 in. wg 0.0 in. wg 0.0 in. wg 0.0 in. wg 0.0 in. wg 0.0 in. wg LEED Fan Power Adjustment 0.0 in. wg TRACE® 700 v6.2.8 calculated at 01:46 PM on 04/20/2012Project Name:West Valley High School - Energy Audit Alternative - 1 Entered Values Systems page 10 of 40Dataset Name:C:\Users\Ray\Documents\TRACE 700 Projects\WEST VALLEY HS.TRC SYSTEM ENTERED VALUES By RS Consulting SA22 - BLOCK B LOWER VAV w/Baseboard Heating- Cooling supply: Leaving cooling coil: Heating supply: Design Air Conditions Max Min Design humidity ratio diff: Min room relative humidity:Reheat Temperature diff: Supply duct temperature diff:0.0 °F 0.0 °F Economizer Max Percent OA:100%"On"Point:Dry BulbType:°F Available (100%)Schedule: Type:Direct efficiency:Indirect efficiency:None 0%0%Available (100%)Available (100%) Evaporative Cooling Reset per worst case room schedule: Night purge schedule: Optimum start schedule: Optimum stop schedule: Available (100%) Off (0%) Off (0%) Supply fan sizing: Supply fan motor location: Return fan motor location: Supply fan cofiguration:Block cooling airflow: Supply duct location: Return air path: Cooling coil sizing method: Cooling coil location: Ventilation deck location: System ventilation flag: PLENUM Supply Return Draw Thru Block Return Air Block System Return/Outdoor Deck Fan mechanical efficiency :70% Sum Room OA Reqs Advanced Options Off (0%) Apply Std62 People Avg:No Std62 Max Vent (Z)Ratio: CO2-based DCV:None Max reset: YesUse system default outside air reset: Supply air path /duct location:Return Air Space convective gains to occupied layer: Underfloor plenum height:0.0 ft Conductive resistance of raised floor:0.8 hr·ft²·°F/Btu Upstream nominal leakage fraction:0 % Downstream constant leakage fraction:0 % Aux cooling coil losses to plenum:0 % Activate After Primary System None Activate After Primary System None No Fan Auxiliary cooling coil Auxiliary heating coil Auxiliary fan Control Method Control Type Capacity Schedule Main cooling: Aux cooling: Main heating: Aux heating: Preheat: Reheat: Humidification: Coils 100.0 % of Design Capacity by adjusting airflow 100.0 % of Design Capacity 100.0% of Design Capacity 100.0 % of Design Capacity 100.0 % of Design Capacity Off (0%) Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) Diversity People Lights Misc loads 100% 100% 100% Primary Secondary Return System Exhaust Room Exhaust Optional ventilation Auxiliary Type Full Load Energy Rate Schedule Efficiency AF Centrifugal var freq drv None None Propeller fan None None None 0.00022 0.00000 0.00000 0.00025 0.00000 0.00000 0.00000 kW/Cfm-in wg kW kW kW/Cfm kW kW kW FB Fan High School Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) 92 85 90 90 85 90 85 Static Press.Demand Limiting PriorityFans 3.5 in. wg 0.0 in. wg 0.0 in. wg 1.3 in. wg 0.0 in. wg 0.0 in. wg 0.0 in. wg LEED Fan Power Adjustment 0.0 in. wg TRACE® 700 v6.2.8 calculated at 01:46 PM on 04/20/2012Project Name:West Valley High School - Energy Audit Alternative - 2 Entered Values Systems page 11 of 40Dataset Name:C:\Users\Ray\Documents\TRACE 700 Projects\WEST VALLEY HS.TRC SYSTEM ENTERED VALUES By RS Consulting SA23 - BLOCK B UPPER VAV w/Baseboard Heating- Cooling supply: Leaving cooling coil: Heating supply: Design Air Conditions Max Min Design humidity ratio diff: Min room relative humidity:Reheat Temperature diff: Supply duct temperature diff:0.0 °F 0.0 °F Economizer Max Percent OA:100%"On"Point:Dry BulbType:°F Available (100%)Schedule: Type:Direct efficiency:Indirect efficiency:None 0%0%Available (100%)Available (100%) Evaporative Cooling Reset per worst case room schedule: Night purge schedule: Optimum start schedule: Optimum stop schedule: Available (100%) Off (0%) Off (0%) Supply fan sizing: Supply fan motor location: Return fan motor location: Supply fan cofiguration:Block cooling airflow: Supply duct location: Return air path: Cooling coil sizing method: Cooling coil location: Ventilation deck location: System ventilation flag: PLENUM Supply Return Draw Thru Block Return Air Block System Return/Outdoor Deck Fan mechanical efficiency :70% Sum Room OA Reqs Advanced Options Off (0%) Apply Std62 People Avg:No Std62 Max Vent (Z)Ratio: CO2-based DCV:None Max reset: YesUse system default outside air reset: Supply air path /duct location:Return Air Space convective gains to occupied layer: Underfloor plenum height:0.0 ft Conductive resistance of raised floor:0.8 hr·ft²·°F/Btu Upstream nominal leakage fraction:0 % Downstream constant leakage fraction:0 % Aux cooling coil losses to plenum:0 % Activate After Primary System None Activate After Primary System Wall Convector No Fan Auxiliary cooling coil Auxiliary heating coil Auxiliary fan Control Method Control Type Capacity Schedule Main cooling: Aux cooling: Main heating: Aux heating: Preheat: Reheat: Humidification: 100 % of Design Capacity Coils 100.0 % of Design Capacity by adjusting airflow 100.0 % of Design minus Aux Capacity 100.0% of Design Capacity 100.0 % of Design Capacity 100.0 % of Design Capacity Off (0%) Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) Diversity People Lights Misc loads 100% 100% 100% Primary Secondary Return System Exhaust Room Exhaust Optional ventilation Auxiliary Type Full Load Energy Rate Schedule Efficiency AF Centrifugal var freq drv None None Propeller fan None None None 0.00022 0.00000 0.00000 0.00025 0.00000 0.00000 0.00000 kW/Cfm-in wg kW kW kW/Cfm kW kW kW FB Fan High School Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) 92 85 90 90 85 90 85 Static Press.Demand Limiting PriorityFans 3.5 in. wg 0.0 in. wg 0.0 in. wg 1.3 in. wg 0.0 in. wg 0.0 in. wg 0.0 in. wg LEED Fan Power Adjustment 0.0 in. wg TRACE® 700 v6.2.8 calculated at 01:46 PM on 04/20/2012Project Name:West Valley High School - Energy Audit Alternative - 2 Entered Values Systems page 12 of 40Dataset Name:C:\Users\Ray\Documents\TRACE 700 Projects\WEST VALLEY HS.TRC SYSTEM ENTERED VALUES By RS Consulting SA24 - COMMONS VAV w/Baseboard Heating- Cooling supply: Leaving cooling coil: Heating supply: Design Air Conditions Max Min Design humidity ratio diff: Min room relative humidity:Reheat Temperature diff: Supply duct temperature diff:0.0 °F 0.0 °F Economizer Max Percent OA:100%"On"Point:Dry BulbType:°F Available (100%)Schedule: Type:Direct efficiency:Indirect efficiency:None 0%0%Available (100%)Available (100%) Evaporative Cooling Reset per worst case room schedule: Night purge schedule: Optimum start schedule: Optimum stop schedule: Available (100%) Off (0%) Off (0%) Supply fan sizing: Supply fan motor location: Return fan motor location: Supply fan cofiguration:Block cooling airflow: Supply duct location: Return air path: Cooling coil sizing method: Cooling coil location: Ventilation deck location: System ventilation flag: PLENUM Supply Return Draw Thru Block Return Air Block System Return/Outdoor Deck Fan mechanical efficiency :70% Sum Room OA Reqs Advanced Options Off (0%) Apply Std62 People Avg:No Std62 Max Vent (Z)Ratio: CO2-based DCV:None Max reset: YesUse system default outside air reset: Supply air path /duct location:Return Air Space convective gains to occupied layer: Underfloor plenum height:0.0 ft Conductive resistance of raised floor:0.8 hr·ft²·°F/Btu Upstream nominal leakage fraction:0 % Downstream constant leakage fraction:0 % Aux cooling coil losses to plenum:0 % Activate After Primary System None Activate After Primary System Wall Convector No Fan Auxiliary cooling coil Auxiliary heating coil Auxiliary fan Control Method Control Type Capacity Schedule Main cooling: Aux cooling: Main heating: Aux heating: Preheat: Reheat: Humidification: 100 % of Design Capacity Coils 100.0 % of Design Capacity by adjusting airflow 100.0 % of Design minus Aux Capacity 100.0% of Design Capacity 100.0 % of Design Capacity 100.0 % of Design Capacity Off (0%) Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) Diversity People Lights Misc loads 100% 100% 100% Primary Secondary Return System Exhaust Room Exhaust Optional ventilation Auxiliary Type Full Load Energy Rate Schedule Efficiency AF Centrifugal var freq drv None None Propeller fan None None None 0.00022 0.00000 0.00000 0.00025 0.00000 0.00000 0.00000 kW/Cfm-in wg kW kW kW/Cfm kW kW kW FB Fan High School Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) 92 85 90 90 85 90 85 Static Press.Demand Limiting PriorityFans 3.5 in. wg 0.0 in. wg 0.0 in. wg 1.3 in. wg 0.0 in. wg 0.0 in. wg 0.0 in. wg LEED Fan Power Adjustment 0.0 in. wg TRACE® 700 v6.2.8 calculated at 01:46 PM on 04/20/2012Project Name:West Valley High School - Energy Audit Alternative - 2 Entered Values Systems page 13 of 40Dataset Name:C:\Users\Ray\Documents\TRACE 700 Projects\WEST VALLEY HS.TRC SYSTEM ENTERED VALUES By RS Consulting SA30 - AUDITORIUM VAV w/Baseboard Heating- Cooling supply: Leaving cooling coil: Heating supply: Design Air Conditions Max Min Design humidity ratio diff: Min room relative humidity:Reheat Temperature diff: Supply duct temperature diff:0.0 °F 0.0 °F Economizer Max Percent OA:100%"On"Point:Dry BulbType:°F Available (100%)Schedule: Type:Direct efficiency:Indirect efficiency:None 0%0%Available (100%)Available (100%) Evaporative Cooling Reset per worst case room schedule: Night purge schedule: Optimum start schedule: Optimum stop schedule: Available (100%) Off (0%) Off (0%) Supply fan sizing: Supply fan motor location: Return fan motor location: Supply fan cofiguration:Block cooling airflow: Supply duct location: Return air path: Cooling coil sizing method: Cooling coil location: Ventilation deck location: System ventilation flag: PLENUM Supply Return Draw Thru Block Return Air Block System Return/Outdoor Deck Fan mechanical efficiency :70% Sum Room OA Reqs Advanced Options Off (0%) Apply Std62 People Avg:No Std62 Max Vent (Z)Ratio: CO2-based DCV:None Max reset: YesUse system default outside air reset: Supply air path /duct location:Return Air Space convective gains to occupied layer: Underfloor plenum height:0.0 ft Conductive resistance of raised floor:0.8 hr·ft²·°F/Btu Upstream nominal leakage fraction:0 % Downstream constant leakage fraction:0 % Aux cooling coil losses to plenum:0 % Activate After Primary System None Activate After Primary System None No Fan Auxiliary cooling coil Auxiliary heating coil Auxiliary fan Control Method Control Type Capacity Schedule Main cooling: Aux cooling: Main heating: Aux heating: Preheat: Reheat: Humidification: Coils 100.0 % of Design Capacity by adjusting airflow 100.0 % of Design Capacity 100.0% of Design Capacity 100.0 % of Design Capacity 100.0 % of Design Capacity Off (0%) Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) Diversity People Lights Misc loads 100% 100% 100% Primary Secondary Return System Exhaust Room Exhaust Optional ventilation Auxiliary Type Full Load Energy Rate Schedule Efficiency AF Centrifugal var freq drv None AF Centrifugal var freq drv None None None None 0.00022 0.00000 0.00022 0.00000 0.00000 0.00000 0.00000 kW/Cfm-in wg kW kW/Cfm-in wg kW kW kW kW FB Fan High School Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) 90 85 90 90 85 90 85 Static Press.Demand Limiting PriorityFans 3.5 in. wg 0.0 in. wg 2.5 in. wg 0.0 in. wg 0.0 in. wg 0.0 in. wg 0.0 in. wg LEED Fan Power Adjustment 0.0 in. wg TRACE® 700 v6.2.8 calculated at 01:46 PM on 04/20/2012Project Name:West Valley High School - Energy Audit Alternative - 2 Entered Values Systems page 14 of 40Dataset Name:C:\Users\Ray\Documents\TRACE 700 Projects\WEST VALLEY HS.TRC SYSTEM ENTERED VALUES By RS Consulting SA31 - LOBBY VAV w/Baseboard Heating- Cooling supply: Leaving cooling coil: Heating supply: Design Air Conditions Max Min Design humidity ratio diff: Min room relative humidity:Reheat Temperature diff: Supply duct temperature diff:0.0 °F 0.0 °F Economizer Max Percent OA:100%"On"Point:Dry BulbType:°F Available (100%)Schedule: Type:Direct efficiency:Indirect efficiency:None 0%0%Available (100%)Available (100%) Evaporative Cooling Reset per worst case room schedule: Night purge schedule: Optimum start schedule: Optimum stop schedule: Available (100%) Off (0%) Off (0%) Supply fan sizing: Supply fan motor location: Return fan motor location: Supply fan cofiguration:Block cooling airflow: Supply duct location: Return air path: Cooling coil sizing method: Cooling coil location: Ventilation deck location: System ventilation flag: PLENUM Supply Return Draw Thru Block Return Air Block System Return/Outdoor Deck Fan mechanical efficiency :70% Sum Room OA Reqs Advanced Options Off (0%) Apply Std62 People Avg:No Std62 Max Vent (Z)Ratio: CO2-based DCV:None Max reset: YesUse system default outside air reset: Supply air path /duct location:Return Air Space convective gains to occupied layer: Underfloor plenum height:0.0 ft Conductive resistance of raised floor:0.8 hr·ft²·°F/Btu Upstream nominal leakage fraction:0 % Downstream constant leakage fraction:0 % Aux cooling coil losses to plenum:0 % Activate After Primary System None Activate After Primary System Wall Convector No Fan Auxiliary cooling coil Auxiliary heating coil Auxiliary fan Control Method Control Type Capacity Schedule Main cooling: Aux cooling: Main heating: Aux heating: Preheat: Reheat: Humidification: 100 % of Design Capacity Coils 100.0 % of Design Capacity by adjusting airflow 100.0 % of Design minus Aux Capacity 100.0% of Design Capacity 100.0 % of Design Capacity 100.0 % of Design Capacity Off (0%) Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) Diversity People Lights Misc loads 100% 100% 100% Primary Secondary Return System Exhaust Room Exhaust Optional ventilation Auxiliary Type Full Load Energy Rate Schedule Efficiency AF Centrifugal var freq drv None AF Centrifugal var freq drv None None None None 0.00022 0.00000 0.00022 0.00000 0.00000 0.00000 0.00000 kW/Cfm-in wg kW kW/Cfm-in wg kW kW kW kW FB Fan High School Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) 90 85 90 90 85 90 85 Static Press.Demand Limiting PriorityFans 3.5 in. wg 0.0 in. wg 1.5 in. wg 0.0 in. wg 0.0 in. wg 0.0 in. wg 0.0 in. wg LEED Fan Power Adjustment 0.0 in. wg TRACE® 700 v6.2.8 calculated at 01:46 PM on 04/20/2012Project Name:West Valley High School - Energy Audit Alternative - 2 Entered Values Systems page 15 of 40Dataset Name:C:\Users\Ray\Documents\TRACE 700 Projects\WEST VALLEY HS.TRC SYSTEM ENTERED VALUES By RS Consulting SA01 - BLOCK A VAV w/Baseboard Heating- Cooling supply: Leaving cooling coil: Heating supply: Design Air Conditions Max Min Design humidity ratio diff: Min room relative humidity:Reheat Temperature diff: Supply duct temperature diff:0.0 °F 0.0 °F Economizer Max Percent OA:100%"On"Point:Dry BulbType:°F Available (100%)Schedule: Type:Direct efficiency:Indirect efficiency:None 0%0%Available (100%)Available (100%) Evaporative Cooling Reset per worst case room schedule: Night purge schedule: Optimum start schedule: Optimum stop schedule: Available (100%) Off (0%) Off (0%) Supply fan sizing: Supply fan motor location: Return fan motor location: Supply fan cofiguration:Block cooling airflow: Supply duct location: Return air path: Cooling coil sizing method: Cooling coil location: Ventilation deck location: System ventilation flag: PLENUM Supply Return Draw Thru Block Return Air Block System Return/Outdoor Deck Fan mechanical efficiency :68% Sum Room OA Reqs Advanced Options Off (0%) Apply Std62 People Avg:No Std62 Max Vent (Z)Ratio: CO2-based DCV:None Max reset: YesUse system default outside air reset: Supply air path /duct location:Return Air Space convective gains to occupied layer:100 % Underfloor plenum height:0.0 ft Conductive resistance of raised floor:0.8 hr·ft²·°F/Btu Upstream nominal leakage fraction:0 % Downstream constant leakage fraction:0 % Aux cooling coil losses to plenum:0 % Follow Outside Air Reset Schedule None Activate After Primary System Wall Convector No Fan Auxiliary cooling coil Auxiliary heating coil Auxiliary fan Control Method Control Type Capacity Schedule Main cooling: Aux cooling: Main heating: Aux heating: Preheat: Reheat: Humidification: 100 % of Design Capacity Coils 100.0 % of Design Capacity by adjusting airflow 100.0 % of Design minus Aux Capacity 100.0% of Design Capacity 100.0 % of Design Capacity 100.0 % of Design Capacity Off (0%) Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) Diversity People Lights Misc loads 100% 100% 100% Primary Secondary Return System Exhaust Room Exhaust Optional ventilation Auxiliary Type Full Load Energy Rate Schedule Efficiency AF Centrifugal vav/inlet v None None None None None None 0.00026 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 kW/Cfm-in wg kW kW kW kW kW kW FB WVHS Fan Schedule Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) 85 85 90 90 85 90 85 Static Press.Demand Limiting PriorityFans 5.3 in. wg 0.0 in. wg 0.0 in. wg 0.0 in. wg 0.0 in. wg 0.0 in. wg 0.0 in. wg LEED Fan Power Adjustment 0.0 in. wg TRACE® 700 v6.2.8 calculated at 01:46 PM on 04/20/2012Project Name:West Valley High School - Energy Audit Alternative - 2 Entered Values Systems page 16 of 40Dataset Name:C:\Users\Ray\Documents\TRACE 700 Projects\WEST VALLEY HS.TRC SYSTEM ENTERED VALUES By RS Consulting SA26 - AUX GYM VAV w/Baseboard Heating- Cooling supply: Leaving cooling coil: Heating supply: Design Air Conditions Max Min Design humidity ratio diff: Min room relative humidity:Reheat Temperature diff: Supply duct temperature diff:0.0 °F 0.0 °F Economizer Max Percent OA:100%"On"Point:Dry BulbType:°F Available (100%)Schedule: Type:Direct efficiency:Indirect efficiency:None 0%0%Available (100%)Available (100%) Evaporative Cooling Reset per worst case room schedule: Night purge schedule: Optimum start schedule: Optimum stop schedule: Available (100%) Off (0%) Off (0%) Supply fan sizing: Supply fan motor location: Return fan motor location: Supply fan cofiguration:Block cooling airflow: Supply duct location: Return air path: Cooling coil sizing method: Cooling coil location: Ventilation deck location: System ventilation flag: PLENUM Supply Return Draw Thru Block Return Air Block System Return/Outdoor Deck Fan mechanical efficiency :70% Sum Room OA Reqs Advanced Options Off (0%) Apply Std62 People Avg:No Std62 Max Vent (Z)Ratio: CO2-based DCV:None Max reset: YesUse system default outside air reset: Supply air path /duct location:Return Air Space convective gains to occupied layer: Underfloor plenum height:0.0 ft Conductive resistance of raised floor:0.8 hr·ft²·°F/Btu Upstream nominal leakage fraction:0 % Downstream constant leakage fraction:0 % Aux cooling coil losses to plenum:0 % Follow Outside Air Reset Schedule None Activate After Primary System Wall Convector No Fan Auxiliary cooling coil Auxiliary heating coil Auxiliary fan Control Method Control Type Capacity Schedule Main cooling: Aux cooling: Main heating: Aux heating: Preheat: Reheat: Humidification: 150 % of Design Capacity Coils 150.0 % of Design Capacity by adjusting airflow 150.0 % of Design minus Aux Capacity 150.0% of Design Capacity 150.0 % of Design Capacity 100.0 % of Design Capacity Off (0%) Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) Diversity People Lights Misc loads 100% 100% 100% Primary Secondary Return System Exhaust Room Exhaust Optional ventilation Auxiliary Type Full Load Energy Rate Schedule Efficiency AF Centrifugal var freq drv None None Propeller fan None None None 0.00022 0.00000 0.00000 0.00025 0.00000 0.00000 0.00000 kW/Cfm-in wg kW kW kW/Cfm kW kW kW FB Fan High School Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) 92 85 90 90 85 90 85 Static Press.Demand Limiting PriorityFans 3.5 in. wg 0.0 in. wg 0.0 in. wg 1.3 in. wg 0.0 in. wg 0.0 in. wg 0.0 in. wg LEED Fan Power Adjustment 0.0 in. wg TRACE® 700 v6.2.8 calculated at 01:46 PM on 04/20/2012Project Name:West Valley High School - Energy Audit Alternative - 2 Entered Values Systems page 17 of 40Dataset Name:C:\Users\Ray\Documents\TRACE 700 Projects\WEST VALLEY HS.TRC SYSTEM ENTERED VALUES By RS Consulting SA09 - LOCKERS VAV w/Baseboard Heating- Cooling supply: Leaving cooling coil: Heating supply: Design Air Conditions Max Min Design humidity ratio diff: Min room relative humidity:Reheat Temperature diff: Supply duct temperature diff:0.0 °F 0.0 °F Economizer Max Percent OA:100%"On"Point:Dry BulbType:°F Available (100%)Schedule: Type:Direct efficiency:Indirect efficiency:None 0%0%Available (100%)Available (100%) Evaporative Cooling Reset per worst case room schedule: Night purge schedule: Optimum start schedule: Optimum stop schedule: Available (100%) Off (0%) Off (0%) Supply fan sizing: Supply fan motor location: Return fan motor location: Supply fan cofiguration:Block cooling airflow: Supply duct location: Return air path: Cooling coil sizing method: Cooling coil location: Ventilation deck location: System ventilation flag: PLENUM Supply Return Draw Thru Block Return Air Block System Return/Outdoor Deck Fan mechanical efficiency :70% Sum Room OA Reqs Advanced Options Off (0%) Apply Std62 People Avg:No Std62 Max Vent (Z)Ratio: CO2-based DCV:None Max reset: YesUse system default outside air reset: Supply air path /duct location:Return Air Space convective gains to occupied layer: Underfloor plenum height:0.0 ft Conductive resistance of raised floor:0.8 hr·ft²·°F/Btu Upstream nominal leakage fraction:0 % Downstream constant leakage fraction:0 % Aux cooling coil losses to plenum:0 % Activate After Primary System None Activate After Primary System Wall Convector No Fan Auxiliary cooling coil Auxiliary heating coil Auxiliary fan Control Method Control Type Capacity Schedule Main cooling: Aux cooling: Main heating: Aux heating: Preheat: Reheat: Humidification: 150 % of Design Capacity Coils 150.0 % of Design Capacity by adjusting airflow 150.0 % of Design minus Aux Capacity 150.0% of Design Capacity 150.0 % of Design Capacity 100.0 % of Design Capacity Off (0%) Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) Diversity People Lights Misc loads 100% 100% 100% Primary Secondary Return System Exhaust Room Exhaust Optional ventilation Auxiliary Type Full Load Energy Rate Schedule Efficiency AF Centrifugal vav/inlet v None None Propeller fan BI Centrifugal const vol None None 0.00026 0.00000 0.00000 0.00025 0.00024 0.00000 0.00000 kW/Cfm-in wg kW kW kW/Cfm kW/Cfm-in wg kW kW FB Fan High School Available (100%) Available (100%) Available (100%) FB Fan High School Available (100%) Available (100%) 88 85 90 88 84 90 85 Static Press.Demand Limiting PriorityFans 3.5 in. wg 0.0 in. wg 0.0 in. wg 1.3 in. wg 1.3 in. wg 0.0 in. wg 0.0 in. wg LEED Fan Power Adjustment 0.0 in. wg TRACE® 700 v6.2.8 calculated at 01:46 PM on 04/20/2012Project Name:West Valley High School - Energy Audit Alternative - 2 Entered Values Systems page 18 of 40Dataset Name:C:\Users\Ray\Documents\TRACE 700 Projects\WEST VALLEY HS.TRC SYSTEM ENTERED VALUES By RS Consulting SA06 - GYM Variable Temperature Constant Volume- Cooling supply: Leaving cooling coil: Heating supply: Design Air Conditions Max Min Design humidity ratio diff: Min room relative humidity:Reheat Temperature diff: Supply duct temperature diff:0.0 °F 0.0 °F Economizer Max Percent OA:100%"On"Point:Dry BulbType:°F Available (100%)Schedule: Type:Direct efficiency:Indirect efficiency:None 0%0%Available (100%)Available (100%) Evaporative Cooling Reset per worst case room schedule: Night purge schedule: Optimum start schedule: Optimum stop schedule: Available (100%) Off (0%) Off (0%) Supply fan sizing: Supply fan motor location: Return fan motor location: Supply fan cofiguration:Block cooling airflow: Supply duct location: Return air path: Cooling coil sizing method: Cooling coil location: Ventilation deck location: System ventilation flag: PLENUM Supply Return Draw Thru Peak Return Air Peak Zone Return/Outdoor Deck Fan mechanical efficiency :70% Sum Room OA Reqs Advanced Options Off (0%) Apply Std62 People Avg:No Std62 Max Vent (Z)Ratio: CO2-based DCV:None Max reset: YesUse system default outside air reset: Supply air path /duct location:Return Air Space convective gains to occupied layer: Underfloor plenum height:0.0 ft Conductive resistance of raised floor:0.8 hr·ft²·°F/Btu Upstream nominal leakage fraction:0 % Downstream constant leakage fraction:0 % Aux cooling coil losses to plenum:0 % Activate After Primary System None Activate After Primary System None No Fan Auxiliary cooling coil Auxiliary heating coil Auxiliary fan Control Method Control Type Capacity Schedule Main cooling: Aux cooling: Main heating: Aux heating: Preheat: Reheat: Humidification: Coils 100.0 % of Design Capacity by adjusting airflow 100.0 % of Design Capacity 100.0% of Design Capacity 100.0 % of Design Capacity 100.0 % of Design Capacity Off (0%) Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) Diversity People Lights Misc loads 100% 100% 100% Primary Secondary Return System Exhaust Room Exhaust Optional ventilation Auxiliary Type Full Load Energy Rate Schedule Efficiency AF Centrifugal const vol None Propeller fan None None None None 0.00020 0.00000 0.00025 0.00000 0.00000 0.00000 0.00000 kW/Cfm-in wg kW kW/Cfm kW kW kW kW FB Fan High School Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) 90 85 90 90 85 90 85 Static Press.Demand Limiting PriorityFans 3.5 in. wg 0.0 in. wg 1.3 in. wg 0.0 in. wg 0.0 in. wg 0.0 in. wg 0.0 in. wg LEED Fan Power Adjustment 0.0 in. wg TRACE® 700 v6.2.8 calculated at 01:46 PM on 04/20/2012Project Name:West Valley High School - Energy Audit Alternative - 2 Entered Values Systems page 19 of 40Dataset Name:C:\Users\Ray\Documents\TRACE 700 Projects\WEST VALLEY HS.TRC SYSTEM ENTERED VALUES By RS Consulting CH Unit Heaters- Cooling supply: Leaving cooling coil: Heating supply: Design Air Conditions Max Min Design humidity ratio diff: Min room relative humidity:Reheat Temperature diff: Supply duct temperature diff:0.0 °F 0.0 °F Reset per worst case room schedule: Night purge schedule: Optimum start schedule: Optimum stop schedule: Off (0%) Off (0%) Off (0%) Supply fan sizing: Supply fan motor location: Return fan motor location: Supply fan cofiguration:Block cooling airflow: Supply duct location: Return air path: Cooling coil sizing method: Cooling coil location: Ventilation deck location: System ventilation flag: ROOMDK Supply Return Draw Thru No Fan Return Air No Coil Room Return/Outdoor Deck Fan mechanical efficiency :75% Sum Room OA Reqs Advanced Options Off (0%) Apply Std62 People Avg:No Std62 Max Vent (Z)Ratio: CO2-based DCV:None Max reset: YesUse system default outside air reset: Supply air path /duct location:Return Air Space convective gains to occupied layer:100 % Underfloor plenum height:0.0 ft Conductive resistance of raised floor:0.8 hr·ft²·°F/Btu Upstream nominal leakage fraction:0 % Downstream constant leakage fraction:0 % Aux cooling coil losses to plenum:0 % Activate After Primary System None Activate After Primary System None No Fan Auxiliary cooling coil Auxiliary heating coil Auxiliary fan Control Method Control Type Capacity Schedule Main cooling: Aux cooling: Main heating: Aux heating: Preheat: Reheat: Humidification: Coils 0.0 % of Design Capacity by adjusting airflow 100.0 % of Design Capacity 100.0% of Design Capacity 100.0 % of Design Capacity 100.0 % of Design Capacity Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) Diversity People Lights Misc loads 100% 100% 100% Primary Secondary Return System Exhaust Room Exhaust Optional ventilation Auxiliary Type Full Load Energy Rate Schedule Efficiency None BI Centrifugal const vol None None None None None 0.00000 0.00024 0.00000 0.00000 0.00000 0.00000 0.00000 kW kW/Cfm-in wg kW kW kW kW kW Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) 90 85 90 90 85 90 85 Static Press.Demand Limiting PriorityFans 0.0 in. wg 0.3 in. wg 0.0 in. wg 0.0 in. wg 0.0 in. wg 0.0 in. wg 0.0 in. wg LEED Fan Power Adjustment 0.0 in. wg TRACE® 700 v6.2.8 calculated at 01:46 PM on 04/20/2012Project Name:West Valley High School - Energy Audit Alternative - 2 Entered Values Systems page 20 of 40Dataset Name:C:\Users\Ray\Documents\TRACE 700 Projects\WEST VALLEY HS.TRC SYSTEM ENTERED VALUES By RS Consulting SA22 - BLOCK B LOWER VAV w/Baseboard Heating- Cooling supply: Leaving cooling coil: Heating supply: Design Air Conditions Max Min Design humidity ratio diff: Min room relative humidity:Reheat Temperature diff: Supply duct temperature diff:0.0 °F 0.0 °F Economizer Max Percent OA:100%"On"Point:Dry BulbType:°F Available (100%)Schedule: Type:Direct efficiency:Indirect efficiency:None 0%0%Available (100%)Available (100%) Evaporative Cooling Reset per worst case room schedule: Night purge schedule: Optimum start schedule: Optimum stop schedule: Available (100%) Off (0%) Off (0%) Supply fan sizing: Supply fan motor location: Return fan motor location: Supply fan cofiguration:Block cooling airflow: Supply duct location: Return air path: Cooling coil sizing method: Cooling coil location: Ventilation deck location: System ventilation flag: PLENUM Supply Return Draw Thru Block Return Air Block System Return/Outdoor Deck Fan mechanical efficiency :70% Sum Room OA Reqs Advanced Options Off (0%) Apply Std62 People Avg:No Std62 Max Vent (Z)Ratio: CO2-based DCV:None Max reset: YesUse system default outside air reset: Supply air path /duct location:Return Air Space convective gains to occupied layer: Underfloor plenum height:0.0 ft Conductive resistance of raised floor:0.8 hr·ft²·°F/Btu Upstream nominal leakage fraction:0 % Downstream constant leakage fraction:0 % Aux cooling coil losses to plenum:0 % Activate After Primary System None Activate After Primary System None No Fan Auxiliary cooling coil Auxiliary heating coil Auxiliary fan Control Method Control Type Capacity Schedule Main cooling: Aux cooling: Main heating: Aux heating: Preheat: Reheat: Humidification: Coils 100.0 % of Design Capacity by adjusting airflow 100.0 % of Design Capacity 100.0% of Design Capacity 100.0 % of Design Capacity 100.0 % of Design Capacity Off (0%) Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) Diversity People Lights Misc loads 100% 100% 100% Primary Secondary Return System Exhaust Room Exhaust Optional ventilation Auxiliary Type Full Load Energy Rate Schedule Efficiency AF Centrifugal var freq drv None None Propeller fan None None None 0.00022 0.00000 0.00000 0.00025 0.00000 0.00000 0.00000 kW/Cfm-in wg kW kW kW/Cfm kW kW kW FB Fan High School Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) 92 85 90 90 85 90 85 Static Press.Demand Limiting PriorityFans 3.5 in. wg 0.0 in. wg 0.0 in. wg 1.3 in. wg 0.0 in. wg 0.0 in. wg 0.0 in. wg LEED Fan Power Adjustment 0.0 in. wg TRACE® 700 v6.2.8 calculated at 01:46 PM on 04/20/2012Project Name:West Valley High School - Energy Audit Alternative - 3 Entered Values Systems page 21 of 40Dataset Name:C:\Users\Ray\Documents\TRACE 700 Projects\WEST VALLEY HS.TRC SYSTEM ENTERED VALUES By RS Consulting SA23 - BLOCK B UPPER VAV w/Baseboard Heating- Cooling supply: Leaving cooling coil: Heating supply: Design Air Conditions Max Min Design humidity ratio diff: Min room relative humidity:Reheat Temperature diff: Supply duct temperature diff:0.0 °F 0.0 °F Economizer Max Percent OA:100%"On"Point:Dry BulbType:°F Available (100%)Schedule: Type:Direct efficiency:Indirect efficiency:None 0%0%Available (100%)Available (100%) Evaporative Cooling Reset per worst case room schedule: Night purge schedule: Optimum start schedule: Optimum stop schedule: Available (100%) Off (0%) Off (0%) Supply fan sizing: Supply fan motor location: Return fan motor location: Supply fan cofiguration:Block cooling airflow: Supply duct location: Return air path: Cooling coil sizing method: Cooling coil location: Ventilation deck location: System ventilation flag: PLENUM Supply Return Draw Thru Block Return Air Block System Return/Outdoor Deck Fan mechanical efficiency :70% Sum Room OA Reqs Advanced Options Off (0%) Apply Std62 People Avg:No Std62 Max Vent (Z)Ratio: CO2-based DCV:None Max reset: YesUse system default outside air reset: Supply air path /duct location:Return Air Space convective gains to occupied layer: Underfloor plenum height:0.0 ft Conductive resistance of raised floor:0.8 hr·ft²·°F/Btu Upstream nominal leakage fraction:0 % Downstream constant leakage fraction:0 % Aux cooling coil losses to plenum:0 % Activate After Primary System None Activate After Primary System Wall Convector No Fan Auxiliary cooling coil Auxiliary heating coil Auxiliary fan Control Method Control Type Capacity Schedule Main cooling: Aux cooling: Main heating: Aux heating: Preheat: Reheat: Humidification: 100 % of Design Capacity Coils 100.0 % of Design Capacity by adjusting airflow 100.0 % of Design minus Aux Capacity 100.0% of Design Capacity 100.0 % of Design Capacity 100.0 % of Design Capacity Off (0%) Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) Diversity People Lights Misc loads 100% 100% 100% Primary Secondary Return System Exhaust Room Exhaust Optional ventilation Auxiliary Type Full Load Energy Rate Schedule Efficiency AF Centrifugal var freq drv None None Propeller fan None None None 0.00022 0.00000 0.00000 0.00025 0.00000 0.00000 0.00000 kW/Cfm-in wg kW kW kW/Cfm kW kW kW FB Fan High School Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) 92 85 90 90 85 90 85 Static Press.Demand Limiting PriorityFans 3.5 in. wg 0.0 in. wg 0.0 in. wg 1.3 in. wg 0.0 in. wg 0.0 in. wg 0.0 in. wg LEED Fan Power Adjustment 0.0 in. wg TRACE® 700 v6.2.8 calculated at 01:46 PM on 04/20/2012Project Name:West Valley High School - Energy Audit Alternative - 3 Entered Values Systems page 22 of 40Dataset Name:C:\Users\Ray\Documents\TRACE 700 Projects\WEST VALLEY HS.TRC SYSTEM ENTERED VALUES By RS Consulting SA24 - COMMONS VAV w/Baseboard Heating- Cooling supply: Leaving cooling coil: Heating supply: Design Air Conditions Max Min Design humidity ratio diff: Min room relative humidity:Reheat Temperature diff: Supply duct temperature diff:0.0 °F 0.0 °F Economizer Max Percent OA:100%"On"Point:Dry BulbType:°F Available (100%)Schedule: Type:Direct efficiency:Indirect efficiency:None 0%0%Available (100%)Available (100%) Evaporative Cooling Reset per worst case room schedule: Night purge schedule: Optimum start schedule: Optimum stop schedule: Available (100%) Off (0%) Off (0%) Supply fan sizing: Supply fan motor location: Return fan motor location: Supply fan cofiguration:Block cooling airflow: Supply duct location: Return air path: Cooling coil sizing method: Cooling coil location: Ventilation deck location: System ventilation flag: PLENUM Supply Return Draw Thru Block Return Air Block System Return/Outdoor Deck Fan mechanical efficiency :70% Sum Room OA Reqs Advanced Options Off (0%) Apply Std62 People Avg:No Std62 Max Vent (Z)Ratio: CO2-based DCV:None Max reset: YesUse system default outside air reset: Supply air path /duct location:Return Air Space convective gains to occupied layer: Underfloor plenum height:0.0 ft Conductive resistance of raised floor:0.8 hr·ft²·°F/Btu Upstream nominal leakage fraction:0 % Downstream constant leakage fraction:0 % Aux cooling coil losses to plenum:0 % Activate After Primary System None Activate After Primary System Wall Convector No Fan Auxiliary cooling coil Auxiliary heating coil Auxiliary fan Control Method Control Type Capacity Schedule Main cooling: Aux cooling: Main heating: Aux heating: Preheat: Reheat: Humidification: 100 % of Design Capacity Coils 100.0 % of Design Capacity by adjusting airflow 100.0 % of Design minus Aux Capacity 100.0% of Design Capacity 100.0 % of Design Capacity 100.0 % of Design Capacity Off (0%) Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) Diversity People Lights Misc loads 100% 100% 100% Primary Secondary Return System Exhaust Room Exhaust Optional ventilation Auxiliary Type Full Load Energy Rate Schedule Efficiency AF Centrifugal var freq drv None None Propeller fan None None None 0.00022 0.00000 0.00000 0.00025 0.00000 0.00000 0.00000 kW/Cfm-in wg kW kW kW/Cfm kW kW kW FB Fan High School Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) 92 85 90 90 85 90 85 Static Press.Demand Limiting PriorityFans 3.5 in. wg 0.0 in. wg 0.0 in. wg 1.3 in. wg 0.0 in. wg 0.0 in. wg 0.0 in. wg LEED Fan Power Adjustment 0.0 in. wg TRACE® 700 v6.2.8 calculated at 01:46 PM on 04/20/2012Project Name:West Valley High School - Energy Audit Alternative - 3 Entered Values Systems page 23 of 40Dataset Name:C:\Users\Ray\Documents\TRACE 700 Projects\WEST VALLEY HS.TRC SYSTEM ENTERED VALUES By RS Consulting SA30 - AUDITORIUM VAV w/Baseboard Heating- Cooling supply: Leaving cooling coil: Heating supply: Design Air Conditions Max Min Design humidity ratio diff: Min room relative humidity:Reheat Temperature diff: Supply duct temperature diff:0.0 °F 0.0 °F Economizer Max Percent OA:100%"On"Point:Dry BulbType:°F Available (100%)Schedule: Type:Direct efficiency:Indirect efficiency:None 0%0%Available (100%)Available (100%) Evaporative Cooling Reset per worst case room schedule: Night purge schedule: Optimum start schedule: Optimum stop schedule: Available (100%) Off (0%) Off (0%) Supply fan sizing: Supply fan motor location: Return fan motor location: Supply fan cofiguration:Block cooling airflow: Supply duct location: Return air path: Cooling coil sizing method: Cooling coil location: Ventilation deck location: System ventilation flag: PLENUM Supply Return Draw Thru Block Return Air Block System Return/Outdoor Deck Fan mechanical efficiency :70% Sum Room OA Reqs Advanced Options Off (0%) Apply Std62 People Avg:No Std62 Max Vent (Z)Ratio: CO2-based DCV:None Max reset: YesUse system default outside air reset: Supply air path /duct location:Return Air Space convective gains to occupied layer: Underfloor plenum height:0.0 ft Conductive resistance of raised floor:0.8 hr·ft²·°F/Btu Upstream nominal leakage fraction:0 % Downstream constant leakage fraction:0 % Aux cooling coil losses to plenum:0 % Activate After Primary System None Activate After Primary System None No Fan Auxiliary cooling coil Auxiliary heating coil Auxiliary fan Control Method Control Type Capacity Schedule Main cooling: Aux cooling: Main heating: Aux heating: Preheat: Reheat: Humidification: Coils 100.0 % of Design Capacity by adjusting airflow 100.0 % of Design Capacity 100.0% of Design Capacity 100.0 % of Design Capacity 100.0 % of Design Capacity Off (0%) Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) Diversity People Lights Misc loads 100% 100% 100% Primary Secondary Return System Exhaust Room Exhaust Optional ventilation Auxiliary Type Full Load Energy Rate Schedule Efficiency AF Centrifugal var freq drv None AF Centrifugal var freq drv None None None None 0.00022 0.00000 0.00022 0.00000 0.00000 0.00000 0.00000 kW/Cfm-in wg kW kW/Cfm-in wg kW kW kW kW FB Fan High School Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) 90 85 90 90 85 90 85 Static Press.Demand Limiting PriorityFans 3.5 in. wg 0.0 in. wg 2.5 in. wg 0.0 in. wg 0.0 in. wg 0.0 in. wg 0.0 in. wg LEED Fan Power Adjustment 0.0 in. wg TRACE® 700 v6.2.8 calculated at 01:46 PM on 04/20/2012Project Name:West Valley High School - Energy Audit Alternative - 3 Entered Values Systems page 24 of 40Dataset Name:C:\Users\Ray\Documents\TRACE 700 Projects\WEST VALLEY HS.TRC SYSTEM ENTERED VALUES By RS Consulting SA31 - LOBBY VAV w/Baseboard Heating- Cooling supply: Leaving cooling coil: Heating supply: Design Air Conditions Max Min Design humidity ratio diff: Min room relative humidity:Reheat Temperature diff: Supply duct temperature diff:0.0 °F 0.0 °F Economizer Max Percent OA:100%"On"Point:Dry BulbType:°F Available (100%)Schedule: Type:Direct efficiency:Indirect efficiency:None 0%0%Available (100%)Available (100%) Evaporative Cooling Reset per worst case room schedule: Night purge schedule: Optimum start schedule: Optimum stop schedule: Available (100%) Off (0%) Off (0%) Supply fan sizing: Supply fan motor location: Return fan motor location: Supply fan cofiguration:Block cooling airflow: Supply duct location: Return air path: Cooling coil sizing method: Cooling coil location: Ventilation deck location: System ventilation flag: PLENUM Supply Return Draw Thru Block Return Air Block System Return/Outdoor Deck Fan mechanical efficiency :70% Sum Room OA Reqs Advanced Options Off (0%) Apply Std62 People Avg:No Std62 Max Vent (Z)Ratio: CO2-based DCV:None Max reset: YesUse system default outside air reset: Supply air path /duct location:Return Air Space convective gains to occupied layer: Underfloor plenum height:0.0 ft Conductive resistance of raised floor:0.8 hr·ft²·°F/Btu Upstream nominal leakage fraction:0 % Downstream constant leakage fraction:0 % Aux cooling coil losses to plenum:0 % Activate After Primary System None Activate After Primary System Wall Convector No Fan Auxiliary cooling coil Auxiliary heating coil Auxiliary fan Control Method Control Type Capacity Schedule Main cooling: Aux cooling: Main heating: Aux heating: Preheat: Reheat: Humidification: 100 % of Design Capacity Coils 100.0 % of Design Capacity by adjusting airflow 100.0 % of Design minus Aux Capacity 100.0% of Design Capacity 100.0 % of Design Capacity 100.0 % of Design Capacity Off (0%) Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) Diversity People Lights Misc loads 100% 100% 100% Primary Secondary Return System Exhaust Room Exhaust Optional ventilation Auxiliary Type Full Load Energy Rate Schedule Efficiency AF Centrifugal var freq drv None AF Centrifugal var freq drv None None None None 0.00022 0.00000 0.00022 0.00000 0.00000 0.00000 0.00000 kW/Cfm-in wg kW kW/Cfm-in wg kW kW kW kW FB Fan High School Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) 90 85 90 90 85 90 85 Static Press.Demand Limiting PriorityFans 3.5 in. wg 0.0 in. wg 1.5 in. wg 0.0 in. wg 0.0 in. wg 0.0 in. wg 0.0 in. wg LEED Fan Power Adjustment 0.0 in. wg TRACE® 700 v6.2.8 calculated at 01:46 PM on 04/20/2012Project Name:West Valley High School - Energy Audit Alternative - 3 Entered Values Systems page 25 of 40Dataset Name:C:\Users\Ray\Documents\TRACE 700 Projects\WEST VALLEY HS.TRC SYSTEM ENTERED VALUES By RS Consulting SA01 - BLOCK A VAV w/Baseboard Heating- Cooling supply: Leaving cooling coil: Heating supply: Design Air Conditions Max Min Design humidity ratio diff: Min room relative humidity:Reheat Temperature diff: Supply duct temperature diff:0.0 °F 0.0 °F Economizer Max Percent OA:100%"On"Point:Dry BulbType:°F Available (100%)Schedule: Type:Direct efficiency:Indirect efficiency:None 0%0%Available (100%)Available (100%) Evaporative Cooling Reset per worst case room schedule: Night purge schedule: Optimum start schedule: Optimum stop schedule: Available (100%) Off (0%) Off (0%) Supply fan sizing: Supply fan motor location: Return fan motor location: Supply fan cofiguration:Block cooling airflow: Supply duct location: Return air path: Cooling coil sizing method: Cooling coil location: Ventilation deck location: System ventilation flag: PLENUM Supply Return Draw Thru Block Return Air Block System Return/Outdoor Deck Fan mechanical efficiency :68% Sum Room OA Reqs Advanced Options Off (0%) Apply Std62 People Avg:No Std62 Max Vent (Z)Ratio: CO2-based DCV:None Max reset: YesUse system default outside air reset: Supply air path /duct location:Return Air Space convective gains to occupied layer:100 % Underfloor plenum height:0.0 ft Conductive resistance of raised floor:0.8 hr·ft²·°F/Btu Upstream nominal leakage fraction:0 % Downstream constant leakage fraction:0 % Aux cooling coil losses to plenum:0 % Follow Outside Air Reset Schedule None Activate After Primary System Wall Convector No Fan Auxiliary cooling coil Auxiliary heating coil Auxiliary fan Control Method Control Type Capacity Schedule Main cooling: Aux cooling: Main heating: Aux heating: Preheat: Reheat: Humidification: 100 % of Design Capacity Coils 100.0 % of Design Capacity by adjusting airflow 100.0 % of Design minus Aux Capacity 100.0% of Design Capacity 100.0 % of Design Capacity 100.0 % of Design Capacity Off (0%) Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) Diversity People Lights Misc loads 100% 100% 100% Primary Secondary Return System Exhaust Room Exhaust Optional ventilation Auxiliary Type Full Load Energy Rate Schedule Efficiency AF Centrifugal vav/inlet v None None None None None None 0.00026 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 kW/Cfm-in wg kW kW kW kW kW kW FB WVHS Fan Schedule Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) 85 85 90 90 85 90 85 Static Press.Demand Limiting PriorityFans 5.3 in. wg 0.0 in. wg 0.0 in. wg 0.0 in. wg 0.0 in. wg 0.0 in. wg 0.0 in. wg LEED Fan Power Adjustment 0.0 in. wg TRACE® 700 v6.2.8 calculated at 01:46 PM on 04/20/2012Project Name:West Valley High School - Energy Audit Alternative - 3 Entered Values Systems page 26 of 40Dataset Name:C:\Users\Ray\Documents\TRACE 700 Projects\WEST VALLEY HS.TRC SYSTEM ENTERED VALUES By RS Consulting SA26 - AUX GYM VAV w/Baseboard Heating- Cooling supply: Leaving cooling coil: Heating supply: Design Air Conditions Max Min Design humidity ratio diff: Min room relative humidity:Reheat Temperature diff: Supply duct temperature diff:0.0 °F 0.0 °F Economizer Max Percent OA:100%"On"Point:Dry BulbType:°F Available (100%)Schedule: Type:Direct efficiency:Indirect efficiency:None 0%0%Available (100%)Available (100%) Evaporative Cooling Reset per worst case room schedule: Night purge schedule: Optimum start schedule: Optimum stop schedule: Available (100%) Off (0%) Off (0%) Supply fan sizing: Supply fan motor location: Return fan motor location: Supply fan cofiguration:Block cooling airflow: Supply duct location: Return air path: Cooling coil sizing method: Cooling coil location: Ventilation deck location: System ventilation flag: PLENUM Supply Return Draw Thru Block Return Air Block System Return/Outdoor Deck Fan mechanical efficiency :70% Sum Room OA Reqs Advanced Options Off (0%) Apply Std62 People Avg:No Std62 Max Vent (Z)Ratio: CO2-based DCV:None Max reset: YesUse system default outside air reset: Supply air path /duct location:Return Air Space convective gains to occupied layer: Underfloor plenum height:0.0 ft Conductive resistance of raised floor:0.8 hr·ft²·°F/Btu Upstream nominal leakage fraction:0 % Downstream constant leakage fraction:0 % Aux cooling coil losses to plenum:0 % Follow Outside Air Reset Schedule None Activate After Primary System Wall Convector No Fan Auxiliary cooling coil Auxiliary heating coil Auxiliary fan Control Method Control Type Capacity Schedule Main cooling: Aux cooling: Main heating: Aux heating: Preheat: Reheat: Humidification: 150 % of Design Capacity Coils 150.0 % of Design Capacity by adjusting airflow 150.0 % of Design minus Aux Capacity 150.0% of Design Capacity 150.0 % of Design Capacity 100.0 % of Design Capacity Off (0%) Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) Diversity People Lights Misc loads 100% 100% 100% Primary Secondary Return System Exhaust Room Exhaust Optional ventilation Auxiliary Type Full Load Energy Rate Schedule Efficiency AF Centrifugal var freq drv None None Propeller fan None None None 0.00022 0.00000 0.00000 0.00025 0.00000 0.00000 0.00000 kW/Cfm-in wg kW kW kW/Cfm kW kW kW FB Fan High School Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) 92 85 90 90 85 90 85 Static Press.Demand Limiting PriorityFans 3.5 in. wg 0.0 in. wg 0.0 in. wg 1.3 in. wg 0.0 in. wg 0.0 in. wg 0.0 in. wg LEED Fan Power Adjustment 0.0 in. wg TRACE® 700 v6.2.8 calculated at 01:46 PM on 04/20/2012Project Name:West Valley High School - Energy Audit Alternative - 3 Entered Values Systems page 27 of 40Dataset Name:C:\Users\Ray\Documents\TRACE 700 Projects\WEST VALLEY HS.TRC SYSTEM ENTERED VALUES By RS Consulting SA09 - LOCKERS VAV w/Baseboard Heating- Cooling supply: Leaving cooling coil: Heating supply: Design Air Conditions Max Min Design humidity ratio diff: Min room relative humidity:Reheat Temperature diff: Supply duct temperature diff:0.0 °F 0.0 °F Economizer Max Percent OA:100%"On"Point:Dry BulbType:°F Available (100%)Schedule: Type:Direct efficiency:Indirect efficiency:None 0%0%Available (100%)Available (100%) Evaporative Cooling Reset per worst case room schedule: Night purge schedule: Optimum start schedule: Optimum stop schedule: Available (100%) Off (0%) Off (0%) Supply fan sizing: Supply fan motor location: Return fan motor location: Supply fan cofiguration:Block cooling airflow: Supply duct location: Return air path: Cooling coil sizing method: Cooling coil location: Ventilation deck location: System ventilation flag: PLENUM Supply Return Draw Thru Block Return Air Block System Return/Outdoor Deck Fan mechanical efficiency :70% Sum Room OA Reqs Advanced Options Off (0%) Apply Std62 People Avg:No Std62 Max Vent (Z)Ratio: CO2-based DCV:None Max reset: YesUse system default outside air reset: Supply air path /duct location:Return Air Space convective gains to occupied layer: Underfloor plenum height:0.0 ft Conductive resistance of raised floor:0.8 hr·ft²·°F/Btu Upstream nominal leakage fraction:0 % Downstream constant leakage fraction:0 % Aux cooling coil losses to plenum:0 % Activate After Primary System None Activate After Primary System Wall Convector No Fan Auxiliary cooling coil Auxiliary heating coil Auxiliary fan Control Method Control Type Capacity Schedule Main cooling: Aux cooling: Main heating: Aux heating: Preheat: Reheat: Humidification: 150 % of Design Capacity Coils 150.0 % of Design Capacity by adjusting airflow 150.0 % of Design minus Aux Capacity 150.0% of Design Capacity 150.0 % of Design Capacity 100.0 % of Design Capacity Off (0%) Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) Diversity People Lights Misc loads 100% 100% 100% Primary Secondary Return System Exhaust Room Exhaust Optional ventilation Auxiliary Type Full Load Energy Rate Schedule Efficiency AF Centrifugal vav/inlet v None None Propeller fan BI Centrifugal const vol None None 0.00026 0.00000 0.00000 0.00025 0.00024 0.00000 0.00000 kW/Cfm-in wg kW kW kW/Cfm kW/Cfm-in wg kW kW FB Fan High School Available (100%) Available (100%) Available (100%) FB Fan High School Available (100%) Available (100%) 88 85 90 88 84 90 85 Static Press.Demand Limiting PriorityFans 3.5 in. wg 0.0 in. wg 0.0 in. wg 1.3 in. wg 1.3 in. wg 0.0 in. wg 0.0 in. wg LEED Fan Power Adjustment 0.0 in. wg TRACE® 700 v6.2.8 calculated at 01:46 PM on 04/20/2012Project Name:West Valley High School - Energy Audit Alternative - 3 Entered Values Systems page 28 of 40Dataset Name:C:\Users\Ray\Documents\TRACE 700 Projects\WEST VALLEY HS.TRC SYSTEM ENTERED VALUES By RS Consulting SA06 - GYM Variable Temperature Constant Volume- Cooling supply: Leaving cooling coil: Heating supply: Design Air Conditions Max Min Design humidity ratio diff: Min room relative humidity:Reheat Temperature diff: Supply duct temperature diff:0.0 °F 0.0 °F Economizer Max Percent OA:100%"On"Point:Dry BulbType:°F Available (100%)Schedule: Type:Direct efficiency:Indirect efficiency:None 0%0%Available (100%)Available (100%) Evaporative Cooling Reset per worst case room schedule: Night purge schedule: Optimum start schedule: Optimum stop schedule: Available (100%) Off (0%) Off (0%) Supply fan sizing: Supply fan motor location: Return fan motor location: Supply fan cofiguration:Block cooling airflow: Supply duct location: Return air path: Cooling coil sizing method: Cooling coil location: Ventilation deck location: System ventilation flag: PLENUM Supply Return Draw Thru Peak Return Air Peak Zone Return/Outdoor Deck Fan mechanical efficiency :70% Sum Room OA Reqs Advanced Options Off (0%) Apply Std62 People Avg:No Std62 Max Vent (Z)Ratio: CO2-based DCV:None Max reset: YesUse system default outside air reset: Supply air path /duct location:Return Air Space convective gains to occupied layer: Underfloor plenum height:0.0 ft Conductive resistance of raised floor:0.8 hr·ft²·°F/Btu Upstream nominal leakage fraction:0 % Downstream constant leakage fraction:0 % Aux cooling coil losses to plenum:0 % Activate After Primary System None Activate After Primary System None No Fan Auxiliary cooling coil Auxiliary heating coil Auxiliary fan Control Method Control Type Capacity Schedule Main cooling: Aux cooling: Main heating: Aux heating: Preheat: Reheat: Humidification: Coils 100.0 % of Design Capacity by adjusting airflow 100.0 % of Design Capacity 100.0% of Design Capacity 100.0 % of Design Capacity 100.0 % of Design Capacity Off (0%) Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) Diversity People Lights Misc loads 100% 100% 100% Primary Secondary Return System Exhaust Room Exhaust Optional ventilation Auxiliary Type Full Load Energy Rate Schedule Efficiency AF Centrifugal const vol None Propeller fan None None None None 0.00020 0.00000 0.00025 0.00000 0.00000 0.00000 0.00000 kW/Cfm-in wg kW kW/Cfm kW kW kW kW FB Fan High School Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) 90 85 90 90 85 90 85 Static Press.Demand Limiting PriorityFans 3.5 in. wg 0.0 in. wg 1.3 in. wg 0.0 in. wg 0.0 in. wg 0.0 in. wg 0.0 in. wg LEED Fan Power Adjustment 0.0 in. wg TRACE® 700 v6.2.8 calculated at 01:46 PM on 04/20/2012Project Name:West Valley High School - Energy Audit Alternative - 3 Entered Values Systems page 29 of 40Dataset Name:C:\Users\Ray\Documents\TRACE 700 Projects\WEST VALLEY HS.TRC SYSTEM ENTERED VALUES By RS Consulting CH Unit Heaters- Cooling supply: Leaving cooling coil: Heating supply: Design Air Conditions Max Min Design humidity ratio diff: Min room relative humidity:Reheat Temperature diff: Supply duct temperature diff:0.0 °F 0.0 °F Reset per worst case room schedule: Night purge schedule: Optimum start schedule: Optimum stop schedule: Off (0%) Off (0%) Off (0%) Supply fan sizing: Supply fan motor location: Return fan motor location: Supply fan cofiguration:Block cooling airflow: Supply duct location: Return air path: Cooling coil sizing method: Cooling coil location: Ventilation deck location: System ventilation flag: ROOMDK Supply Return Draw Thru No Fan Return Air No Coil Room Return/Outdoor Deck Fan mechanical efficiency :75% Sum Room OA Reqs Advanced Options Off (0%) Apply Std62 People Avg:No Std62 Max Vent (Z)Ratio: CO2-based DCV:None Max reset: YesUse system default outside air reset: Supply air path /duct location:Return Air Space convective gains to occupied layer:100 % Underfloor plenum height:0.0 ft Conductive resistance of raised floor:0.8 hr·ft²·°F/Btu Upstream nominal leakage fraction:0 % Downstream constant leakage fraction:0 % Aux cooling coil losses to plenum:0 % Activate After Primary System None Activate After Primary System None No Fan Auxiliary cooling coil Auxiliary heating coil Auxiliary fan Control Method Control Type Capacity Schedule Main cooling: Aux cooling: Main heating: Aux heating: Preheat: Reheat: Humidification: Coils 0.0 % of Design Capacity by adjusting airflow 100.0 % of Design Capacity 100.0% of Design Capacity 100.0 % of Design Capacity 100.0 % of Design Capacity Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) Diversity People Lights Misc loads 100% 100% 100% Primary Secondary Return System Exhaust Room Exhaust Optional ventilation Auxiliary Type Full Load Energy Rate Schedule Efficiency None BI Centrifugal const vol None None None None None 0.00000 0.00024 0.00000 0.00000 0.00000 0.00000 0.00000 kW kW/Cfm-in wg kW kW kW kW kW Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) 90 85 90 90 85 90 85 Static Press.Demand Limiting PriorityFans 0.0 in. wg 0.3 in. wg 0.0 in. wg 0.0 in. wg 0.0 in. wg 0.0 in. wg 0.0 in. wg LEED Fan Power Adjustment 0.0 in. wg TRACE® 700 v6.2.8 calculated at 01:46 PM on 04/20/2012Project Name:West Valley High School - Energy Audit Alternative - 3 Entered Values Systems page 30 of 40Dataset Name:C:\Users\Ray\Documents\TRACE 700 Projects\WEST VALLEY HS.TRC SYSTEM ENTERED VALUES By RS Consulting SA22 - BLOCK B LOWER VAV w/Baseboard Heating- Cooling supply: Leaving cooling coil: Heating supply: Design Air Conditions Max Min Design humidity ratio diff: Min room relative humidity:Reheat Temperature diff: Supply duct temperature diff:0.0 °F 0.0 °F Economizer Max Percent OA:100%"On"Point:Dry BulbType:°F Available (100%)Schedule: Type:Direct efficiency:Indirect efficiency:None 0%0%Available (100%)Available (100%) Evaporative Cooling Reset per worst case room schedule: Night purge schedule: Optimum start schedule: Optimum stop schedule: Available (100%) Off (0%) Off (0%) Supply fan sizing: Supply fan motor location: Return fan motor location: Supply fan cofiguration:Block cooling airflow: Supply duct location: Return air path: Cooling coil sizing method: Cooling coil location: Ventilation deck location: System ventilation flag: PLENUM Supply Return Draw Thru Block Return Air Block System Return/Outdoor Deck Fan mechanical efficiency :70% Sum Room OA Reqs Advanced Options Off (0%) Apply Std62 People Avg:No Std62 Max Vent (Z)Ratio: CO2-based DCV:None Max reset: YesUse system default outside air reset: Supply air path /duct location:Return Air Space convective gains to occupied layer: Underfloor plenum height:0.0 ft Conductive resistance of raised floor:0.8 hr·ft²·°F/Btu Upstream nominal leakage fraction:0 % Downstream constant leakage fraction:0 % Aux cooling coil losses to plenum:0 % Activate After Primary System None Activate After Primary System None No Fan Auxiliary cooling coil Auxiliary heating coil Auxiliary fan Control Method Control Type Capacity Schedule Main cooling: Aux cooling: Main heating: Aux heating: Preheat: Reheat: Humidification: Coils 100.0 % of Design Capacity by adjusting airflow 100.0 % of Design Capacity 100.0% of Design Capacity 100.0 % of Design Capacity 100.0 % of Design Capacity Off (0%) Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) Diversity People Lights Misc loads 100% 100% 100% Primary Secondary Return System Exhaust Room Exhaust Optional ventilation Auxiliary Type Full Load Energy Rate Schedule Efficiency AF Centrifugal var freq drv None None Propeller fan None None None 0.00022 0.00000 0.00000 0.00025 0.00000 0.00000 0.00000 kW/Cfm-in wg kW kW kW/Cfm kW kW kW FB Fan High School Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) 92 85 90 90 85 90 85 Static Press.Demand Limiting PriorityFans 3.5 in. wg 0.0 in. wg 0.0 in. wg 1.3 in. wg 0.0 in. wg 0.0 in. wg 0.0 in. wg LEED Fan Power Adjustment 0.0 in. wg TRACE® 700 v6.2.8 calculated at 01:46 PM on 04/20/2012Project Name:West Valley High School - Energy Audit Alternative - 4 Entered Values Systems page 31 of 40Dataset Name:C:\Users\Ray\Documents\TRACE 700 Projects\WEST VALLEY HS.TRC SYSTEM ENTERED VALUES By RS Consulting SA23 - BLOCK B UPPER VAV w/Baseboard Heating- Cooling supply: Leaving cooling coil: Heating supply: Design Air Conditions Max Min Design humidity ratio diff: Min room relative humidity:Reheat Temperature diff: Supply duct temperature diff:0.0 °F 0.0 °F Economizer Max Percent OA:100%"On"Point:Dry BulbType:°F Available (100%)Schedule: Type:Direct efficiency:Indirect efficiency:None 0%0%Available (100%)Available (100%) Evaporative Cooling Reset per worst case room schedule: Night purge schedule: Optimum start schedule: Optimum stop schedule: Available (100%) Off (0%) Off (0%) Supply fan sizing: Supply fan motor location: Return fan motor location: Supply fan cofiguration:Block cooling airflow: Supply duct location: Return air path: Cooling coil sizing method: Cooling coil location: Ventilation deck location: System ventilation flag: PLENUM Supply Return Draw Thru Block Return Air Block System Return/Outdoor Deck Fan mechanical efficiency :70% Sum Room OA Reqs Advanced Options Off (0%) Apply Std62 People Avg:No Std62 Max Vent (Z)Ratio: CO2-based DCV:None Max reset: YesUse system default outside air reset: Supply air path /duct location:Return Air Space convective gains to occupied layer: Underfloor plenum height:0.0 ft Conductive resistance of raised floor:0.8 hr·ft²·°F/Btu Upstream nominal leakage fraction:0 % Downstream constant leakage fraction:0 % Aux cooling coil losses to plenum:0 % Activate After Primary System None Activate After Primary System Wall Convector No Fan Auxiliary cooling coil Auxiliary heating coil Auxiliary fan Control Method Control Type Capacity Schedule Main cooling: Aux cooling: Main heating: Aux heating: Preheat: Reheat: Humidification: 100 % of Design Capacity Coils 100.0 % of Design Capacity by adjusting airflow 100.0 % of Design minus Aux Capacity 100.0% of Design Capacity 100.0 % of Design Capacity 100.0 % of Design Capacity Off (0%) Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) Diversity People Lights Misc loads 100% 100% 100% Primary Secondary Return System Exhaust Room Exhaust Optional ventilation Auxiliary Type Full Load Energy Rate Schedule Efficiency AF Centrifugal var freq drv None None Propeller fan None None None 0.00022 0.00000 0.00000 0.00025 0.00000 0.00000 0.00000 kW/Cfm-in wg kW kW kW/Cfm kW kW kW FB Fan High School Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) 92 85 90 90 85 90 85 Static Press.Demand Limiting PriorityFans 3.5 in. wg 0.0 in. wg 0.0 in. wg 1.3 in. wg 0.0 in. wg 0.0 in. wg 0.0 in. wg LEED Fan Power Adjustment 0.0 in. wg TRACE® 700 v6.2.8 calculated at 01:46 PM on 04/20/2012Project Name:West Valley High School - Energy Audit Alternative - 4 Entered Values Systems page 32 of 40Dataset Name:C:\Users\Ray\Documents\TRACE 700 Projects\WEST VALLEY HS.TRC SYSTEM ENTERED VALUES By RS Consulting SA24 - COMMONS VAV w/Baseboard Heating- Cooling supply: Leaving cooling coil: Heating supply: Design Air Conditions Max Min Design humidity ratio diff: Min room relative humidity:Reheat Temperature diff: Supply duct temperature diff:0.0 °F 0.0 °F Economizer Max Percent OA:100%"On"Point:Dry BulbType:°F Available (100%)Schedule: Type:Direct efficiency:Indirect efficiency:None 0%0%Available (100%)Available (100%) Evaporative Cooling Reset per worst case room schedule: Night purge schedule: Optimum start schedule: Optimum stop schedule: Available (100%) Off (0%) Off (0%) Supply fan sizing: Supply fan motor location: Return fan motor location: Supply fan cofiguration:Block cooling airflow: Supply duct location: Return air path: Cooling coil sizing method: Cooling coil location: Ventilation deck location: System ventilation flag: PLENUM Supply Return Draw Thru Block Return Air Block System Return/Outdoor Deck Fan mechanical efficiency :70% Sum Room OA Reqs Advanced Options Off (0%) Apply Std62 People Avg:No Std62 Max Vent (Z)Ratio: CO2-based DCV:None Max reset: YesUse system default outside air reset: Supply air path /duct location:Return Air Space convective gains to occupied layer: Underfloor plenum height:0.0 ft Conductive resistance of raised floor:0.8 hr·ft²·°F/Btu Upstream nominal leakage fraction:0 % Downstream constant leakage fraction:0 % Aux cooling coil losses to plenum:0 % Activate After Primary System None Activate After Primary System Wall Convector No Fan Auxiliary cooling coil Auxiliary heating coil Auxiliary fan Control Method Control Type Capacity Schedule Main cooling: Aux cooling: Main heating: Aux heating: Preheat: Reheat: Humidification: 100 % of Design Capacity Coils 100.0 % of Design Capacity by adjusting airflow 100.0 % of Design minus Aux Capacity 100.0% of Design Capacity 100.0 % of Design Capacity 100.0 % of Design Capacity Off (0%) Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) Diversity People Lights Misc loads 100% 100% 100% Primary Secondary Return System Exhaust Room Exhaust Optional ventilation Auxiliary Type Full Load Energy Rate Schedule Efficiency AF Centrifugal var freq drv None None Propeller fan None None None 0.00022 0.00000 0.00000 0.00025 0.00000 0.00000 0.00000 kW/Cfm-in wg kW kW kW/Cfm kW kW kW FB Fan High School Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) 92 85 90 90 85 90 85 Static Press.Demand Limiting PriorityFans 3.5 in. wg 0.0 in. wg 0.0 in. wg 1.3 in. wg 0.0 in. wg 0.0 in. wg 0.0 in. wg LEED Fan Power Adjustment 0.0 in. wg TRACE® 700 v6.2.8 calculated at 01:46 PM on 04/20/2012Project Name:West Valley High School - Energy Audit Alternative - 4 Entered Values Systems page 33 of 40Dataset Name:C:\Users\Ray\Documents\TRACE 700 Projects\WEST VALLEY HS.TRC SYSTEM ENTERED VALUES By RS Consulting SA30 - AUDITORIUM VAV w/Baseboard Heating- Cooling supply: Leaving cooling coil: Heating supply: Design Air Conditions Max Min Design humidity ratio diff: Min room relative humidity:Reheat Temperature diff: Supply duct temperature diff:0.0 °F 0.0 °F Economizer Max Percent OA:100%"On"Point:Dry BulbType:°F Available (100%)Schedule: Type:Direct efficiency:Indirect efficiency:None 0%0%Available (100%)Available (100%) Evaporative Cooling Reset per worst case room schedule: Night purge schedule: Optimum start schedule: Optimum stop schedule: Available (100%) Off (0%) Off (0%) Supply fan sizing: Supply fan motor location: Return fan motor location: Supply fan cofiguration:Block cooling airflow: Supply duct location: Return air path: Cooling coil sizing method: Cooling coil location: Ventilation deck location: System ventilation flag: PLENUM Supply Return Draw Thru Block Return Air Block System Return/Outdoor Deck Fan mechanical efficiency :70% Sum Room OA Reqs Advanced Options Off (0%) Apply Std62 People Avg:No Std62 Max Vent (Z)Ratio: CO2-based DCV:None Max reset: YesUse system default outside air reset: Supply air path /duct location:Return Air Space convective gains to occupied layer: Underfloor plenum height:0.0 ft Conductive resistance of raised floor:0.8 hr·ft²·°F/Btu Upstream nominal leakage fraction:0 % Downstream constant leakage fraction:0 % Aux cooling coil losses to plenum:0 % Activate After Primary System None Activate After Primary System None No Fan Auxiliary cooling coil Auxiliary heating coil Auxiliary fan Control Method Control Type Capacity Schedule Main cooling: Aux cooling: Main heating: Aux heating: Preheat: Reheat: Humidification: Coils 100.0 % of Design Capacity by adjusting airflow 100.0 % of Design Capacity 100.0% of Design Capacity 100.0 % of Design Capacity 100.0 % of Design Capacity Off (0%) Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) Diversity People Lights Misc loads 100% 100% 100% Primary Secondary Return System Exhaust Room Exhaust Optional ventilation Auxiliary Type Full Load Energy Rate Schedule Efficiency AF Centrifugal var freq drv None AF Centrifugal var freq drv None None None None 0.00022 0.00000 0.00022 0.00000 0.00000 0.00000 0.00000 kW/Cfm-in wg kW kW/Cfm-in wg kW kW kW kW FB Fan High School Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) 90 85 90 90 85 90 85 Static Press.Demand Limiting PriorityFans 3.5 in. wg 0.0 in. wg 2.5 in. wg 0.0 in. wg 0.0 in. wg 0.0 in. wg 0.0 in. wg LEED Fan Power Adjustment 0.0 in. wg TRACE® 700 v6.2.8 calculated at 01:46 PM on 04/20/2012Project Name:West Valley High School - Energy Audit Alternative - 4 Entered Values Systems page 34 of 40Dataset Name:C:\Users\Ray\Documents\TRACE 700 Projects\WEST VALLEY HS.TRC SYSTEM ENTERED VALUES By RS Consulting SA31 - LOBBY VAV w/Baseboard Heating- Cooling supply: Leaving cooling coil: Heating supply: Design Air Conditions Max Min Design humidity ratio diff: Min room relative humidity:Reheat Temperature diff: Supply duct temperature diff:0.0 °F 0.0 °F Economizer Max Percent OA:100%"On"Point:Dry BulbType:°F Available (100%)Schedule: Type:Direct efficiency:Indirect efficiency:None 0%0%Available (100%)Available (100%) Evaporative Cooling Reset per worst case room schedule: Night purge schedule: Optimum start schedule: Optimum stop schedule: Available (100%) Off (0%) Off (0%) Supply fan sizing: Supply fan motor location: Return fan motor location: Supply fan cofiguration:Block cooling airflow: Supply duct location: Return air path: Cooling coil sizing method: Cooling coil location: Ventilation deck location: System ventilation flag: PLENUM Supply Return Draw Thru Block Return Air Block System Return/Outdoor Deck Fan mechanical efficiency :70% Sum Room OA Reqs Advanced Options Off (0%) Apply Std62 People Avg:No Std62 Max Vent (Z)Ratio: CO2-based DCV:None Max reset: YesUse system default outside air reset: Supply air path /duct location:Return Air Space convective gains to occupied layer: Underfloor plenum height:0.0 ft Conductive resistance of raised floor:0.8 hr·ft²·°F/Btu Upstream nominal leakage fraction:0 % Downstream constant leakage fraction:0 % Aux cooling coil losses to plenum:0 % Activate After Primary System None Activate After Primary System Wall Convector No Fan Auxiliary cooling coil Auxiliary heating coil Auxiliary fan Control Method Control Type Capacity Schedule Main cooling: Aux cooling: Main heating: Aux heating: Preheat: Reheat: Humidification: 100 % of Design Capacity Coils 100.0 % of Design Capacity by adjusting airflow 100.0 % of Design minus Aux Capacity 100.0% of Design Capacity 100.0 % of Design Capacity 100.0 % of Design Capacity Off (0%) Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) Diversity People Lights Misc loads 100% 100% 100% Primary Secondary Return System Exhaust Room Exhaust Optional ventilation Auxiliary Type Full Load Energy Rate Schedule Efficiency AF Centrifugal var freq drv None AF Centrifugal var freq drv None None None None 0.00022 0.00000 0.00022 0.00000 0.00000 0.00000 0.00000 kW/Cfm-in wg kW kW/Cfm-in wg kW kW kW kW FB Fan High School Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) 90 85 90 90 85 90 85 Static Press.Demand Limiting PriorityFans 3.5 in. wg 0.0 in. wg 1.5 in. wg 0.0 in. wg 0.0 in. wg 0.0 in. wg 0.0 in. wg LEED Fan Power Adjustment 0.0 in. wg TRACE® 700 v6.2.8 calculated at 01:46 PM on 04/20/2012Project Name:West Valley High School - Energy Audit Alternative - 4 Entered Values Systems page 35 of 40Dataset Name:C:\Users\Ray\Documents\TRACE 700 Projects\WEST VALLEY HS.TRC SYSTEM ENTERED VALUES By RS Consulting SA01 - BLOCK A VAV w/Baseboard Heating- Cooling supply: Leaving cooling coil: Heating supply: Design Air Conditions Max Min Design humidity ratio diff: Min room relative humidity:Reheat Temperature diff: Supply duct temperature diff:0.0 °F 0.0 °F Economizer Max Percent OA:100%"On"Point:Dry BulbType:°F Available (100%)Schedule: Type:Direct efficiency:Indirect efficiency:None 0%0%Available (100%)Available (100%) Evaporative Cooling Reset per worst case room schedule: Night purge schedule: Optimum start schedule: Optimum stop schedule: Available (100%) Off (0%) Off (0%) Supply fan sizing: Supply fan motor location: Return fan motor location: Supply fan cofiguration:Block cooling airflow: Supply duct location: Return air path: Cooling coil sizing method: Cooling coil location: Ventilation deck location: System ventilation flag: PLENUM Supply Return Draw Thru Block Return Air Block System Return/Outdoor Deck Fan mechanical efficiency :68% Sum Room OA Reqs Advanced Options Off (0%) Apply Std62 People Avg:No Std62 Max Vent (Z)Ratio: CO2-based DCV:None Max reset: YesUse system default outside air reset: Supply air path /duct location:Return Air Space convective gains to occupied layer:100 % Underfloor plenum height:0.0 ft Conductive resistance of raised floor:0.8 hr·ft²·°F/Btu Upstream nominal leakage fraction:0 % Downstream constant leakage fraction:0 % Aux cooling coil losses to plenum:0 % Follow Outside Air Reset Schedule None Activate After Primary System Wall Convector No Fan Auxiliary cooling coil Auxiliary heating coil Auxiliary fan Control Method Control Type Capacity Schedule Main cooling: Aux cooling: Main heating: Aux heating: Preheat: Reheat: Humidification: 100 % of Design Capacity Coils 100.0 % of Design Capacity by adjusting airflow 100.0 % of Design minus Aux Capacity 100.0% of Design Capacity 100.0 % of Design Capacity 100.0 % of Design Capacity Off (0%) Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) Diversity People Lights Misc loads 100% 100% 100% Primary Secondary Return System Exhaust Room Exhaust Optional ventilation Auxiliary Type Full Load Energy Rate Schedule Efficiency AF Centrifugal var freq drv None None None None None None 0.00022 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 kW/Cfm-in wg kW kW kW kW kW kW FB WVHS Fan Schedule Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) 95 85 90 90 85 90 85 Static Press.Demand Limiting PriorityFans 5.3 in. wg 0.0 in. wg 0.0 in. wg 0.0 in. wg 0.0 in. wg 0.0 in. wg 0.0 in. wg LEED Fan Power Adjustment 0.0 in. wg TRACE® 700 v6.2.8 calculated at 01:46 PM on 04/20/2012Project Name:West Valley High School - Energy Audit Alternative - 4 Entered Values Systems page 36 of 40Dataset Name:C:\Users\Ray\Documents\TRACE 700 Projects\WEST VALLEY HS.TRC SYSTEM ENTERED VALUES By RS Consulting SA26 - AUX GYM VAV w/Baseboard Heating- Cooling supply: Leaving cooling coil: Heating supply: Design Air Conditions Max Min Design humidity ratio diff: Min room relative humidity:Reheat Temperature diff: Supply duct temperature diff:0.0 °F 0.0 °F Economizer Max Percent OA:100%"On"Point:Dry BulbType:°F Available (100%)Schedule: Type:Direct efficiency:Indirect efficiency:None 0%0%Available (100%)Available (100%) Evaporative Cooling Reset per worst case room schedule: Night purge schedule: Optimum start schedule: Optimum stop schedule: Available (100%) Off (0%) Off (0%) Supply fan sizing: Supply fan motor location: Return fan motor location: Supply fan cofiguration:Block cooling airflow: Supply duct location: Return air path: Cooling coil sizing method: Cooling coil location: Ventilation deck location: System ventilation flag: PLENUM Supply Return Draw Thru Block Return Air Block System Return/Outdoor Deck Fan mechanical efficiency :70% Sum Room OA Reqs Advanced Options Off (0%) Apply Std62 People Avg:No Std62 Max Vent (Z)Ratio: CO2-based DCV:None Max reset: YesUse system default outside air reset: Supply air path /duct location:Return Air Space convective gains to occupied layer: Underfloor plenum height:0.0 ft Conductive resistance of raised floor:0.8 hr·ft²·°F/Btu Upstream nominal leakage fraction:0 % Downstream constant leakage fraction:0 % Aux cooling coil losses to plenum:0 % Follow Outside Air Reset Schedule None Activate After Primary System Wall Convector No Fan Auxiliary cooling coil Auxiliary heating coil Auxiliary fan Control Method Control Type Capacity Schedule Main cooling: Aux cooling: Main heating: Aux heating: Preheat: Reheat: Humidification: 150 % of Design Capacity Coils 150.0 % of Design Capacity by adjusting airflow 150.0 % of Design minus Aux Capacity 150.0% of Design Capacity 150.0 % of Design Capacity 100.0 % of Design Capacity Off (0%) Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) Diversity People Lights Misc loads 100% 100% 100% Primary Secondary Return System Exhaust Room Exhaust Optional ventilation Auxiliary Type Full Load Energy Rate Schedule Efficiency AF Centrifugal var freq drv None None Propeller fan None None None 0.00022 0.00000 0.00000 0.00025 0.00000 0.00000 0.00000 kW/Cfm-in wg kW kW kW/Cfm kW kW kW FB Fan High School Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) 92 85 90 90 85 90 85 Static Press.Demand Limiting PriorityFans 3.5 in. wg 0.0 in. wg 0.0 in. wg 1.3 in. wg 0.0 in. wg 0.0 in. wg 0.0 in. wg LEED Fan Power Adjustment 0.0 in. wg TRACE® 700 v6.2.8 calculated at 01:46 PM on 04/20/2012Project Name:West Valley High School - Energy Audit Alternative - 4 Entered Values Systems page 37 of 40Dataset Name:C:\Users\Ray\Documents\TRACE 700 Projects\WEST VALLEY HS.TRC SYSTEM ENTERED VALUES By RS Consulting SA09 - LOCKERS VAV w/Baseboard Heating- Cooling supply: Leaving cooling coil: Heating supply: Design Air Conditions Max Min Design humidity ratio diff: Min room relative humidity:Reheat Temperature diff: Supply duct temperature diff:0.0 °F 0.0 °F Economizer Max Percent OA:100%"On"Point:Dry BulbType:°F Available (100%)Schedule: Type:Direct efficiency:Indirect efficiency:None 0%0%Available (100%)Available (100%) Evaporative Cooling Reset per worst case room schedule: Night purge schedule: Optimum start schedule: Optimum stop schedule: Available (100%) Off (0%) Off (0%) Supply fan sizing: Supply fan motor location: Return fan motor location: Supply fan cofiguration:Block cooling airflow: Supply duct location: Return air path: Cooling coil sizing method: Cooling coil location: Ventilation deck location: System ventilation flag: PLENUM Supply Return Draw Thru Block Return Air Block System Return/Outdoor Deck Fan mechanical efficiency :70% Sum Room OA Reqs Advanced Options Off (0%) Apply Std62 People Avg:No Std62 Max Vent (Z)Ratio: CO2-based DCV:None Max reset: YesUse system default outside air reset: Supply air path /duct location:Return Air Space convective gains to occupied layer: Underfloor plenum height:0.0 ft Conductive resistance of raised floor:0.8 hr·ft²·°F/Btu Upstream nominal leakage fraction:0 % Downstream constant leakage fraction:0 % Aux cooling coil losses to plenum:0 % Activate After Primary System None Activate After Primary System Wall Convector No Fan Auxiliary cooling coil Auxiliary heating coil Auxiliary fan Control Method Control Type Capacity Schedule Main cooling: Aux cooling: Main heating: Aux heating: Preheat: Reheat: Humidification: 150 % of Design Capacity Coils 150.0 % of Design Capacity by adjusting airflow 150.0 % of Design minus Aux Capacity 150.0% of Design Capacity 150.0 % of Design Capacity 100.0 % of Design Capacity Off (0%) Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) Diversity People Lights Misc loads 100% 100% 100% Primary Secondary Return System Exhaust Room Exhaust Optional ventilation Auxiliary Type Full Load Energy Rate Schedule Efficiency AF Centrifugal var freq drv None None Propeller fan BI Centrifugal const vol None None 0.00022 0.00000 0.00000 0.00025 0.00024 0.00000 0.00000 kW/Cfm-in wg kW kW kW/Cfm kW/Cfm-in wg kW kW FB Fan High School Available (100%) Available (100%) Available (100%) FB Fan High School Available (100%) Available (100%) 93 85 90 88 84 90 85 Static Press.Demand Limiting PriorityFans 3.5 in. wg 0.0 in. wg 0.0 in. wg 1.3 in. wg 1.3 in. wg 0.0 in. wg 0.0 in. wg LEED Fan Power Adjustment 0.0 in. wg TRACE® 700 v6.2.8 calculated at 01:46 PM on 04/20/2012Project Name:West Valley High School - Energy Audit Alternative - 4 Entered Values Systems page 38 of 40Dataset Name:C:\Users\Ray\Documents\TRACE 700 Projects\WEST VALLEY HS.TRC SYSTEM ENTERED VALUES By RS Consulting SA06 - GYM Variable Temperature Constant Volume- Cooling supply: Leaving cooling coil: Heating supply: Design Air Conditions Max Min Design humidity ratio diff: Min room relative humidity:Reheat Temperature diff: Supply duct temperature diff:0.0 °F 0.0 °F Economizer Max Percent OA:100%"On"Point:Dry BulbType:°F Available (100%)Schedule: Type:Direct efficiency:Indirect efficiency:None 0%0%Available (100%)Available (100%) Evaporative Cooling Reset per worst case room schedule: Night purge schedule: Optimum start schedule: Optimum stop schedule: Available (100%) Off (0%) Off (0%) Supply fan sizing: Supply fan motor location: Return fan motor location: Supply fan cofiguration:Block cooling airflow: Supply duct location: Return air path: Cooling coil sizing method: Cooling coil location: Ventilation deck location: System ventilation flag: PLENUM Supply Return Draw Thru Peak Return Air Peak Zone Return/Outdoor Deck Fan mechanical efficiency :70% Sum Room OA Reqs Advanced Options Off (0%) Apply Std62 People Avg:No Std62 Max Vent (Z)Ratio: CO2-based DCV:None Max reset: YesUse system default outside air reset: Supply air path /duct location:Return Air Space convective gains to occupied layer: Underfloor plenum height:0.0 ft Conductive resistance of raised floor:0.8 hr·ft²·°F/Btu Upstream nominal leakage fraction:0 % Downstream constant leakage fraction:0 % Aux cooling coil losses to plenum:0 % Activate After Primary System None Activate After Primary System None No Fan Auxiliary cooling coil Auxiliary heating coil Auxiliary fan Control Method Control Type Capacity Schedule Main cooling: Aux cooling: Main heating: Aux heating: Preheat: Reheat: Humidification: Coils 100.0 % of Design Capacity by adjusting airflow 100.0 % of Design Capacity 100.0% of Design Capacity 100.0 % of Design Capacity 100.0 % of Design Capacity Off (0%) Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) Diversity People Lights Misc loads 100% 100% 100% Primary Secondary Return System Exhaust Room Exhaust Optional ventilation Auxiliary Type Full Load Energy Rate Schedule Efficiency AF Centrifugal const vol None Propeller fan None None None None 0.00020 0.00000 0.00025 0.00000 0.00000 0.00000 0.00000 kW/Cfm-in wg kW kW/Cfm kW kW kW kW FB Fan High School Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) 90 85 90 90 85 90 85 Static Press.Demand Limiting PriorityFans 3.5 in. wg 0.0 in. wg 1.3 in. wg 0.0 in. wg 0.0 in. wg 0.0 in. wg 0.0 in. wg LEED Fan Power Adjustment 0.0 in. wg TRACE® 700 v6.2.8 calculated at 01:46 PM on 04/20/2012Project Name:West Valley High School - Energy Audit Alternative - 4 Entered Values Systems page 39 of 40Dataset Name:C:\Users\Ray\Documents\TRACE 700 Projects\WEST VALLEY HS.TRC SYSTEM ENTERED VALUES By RS Consulting CH Unit Heaters- Cooling supply: Leaving cooling coil: Heating supply: Design Air Conditions Max Min Design humidity ratio diff: Min room relative humidity:Reheat Temperature diff: Supply duct temperature diff:0.0 °F 0.0 °F Reset per worst case room schedule: Night purge schedule: Optimum start schedule: Optimum stop schedule: Off (0%) Off (0%) Off (0%) Supply fan sizing: Supply fan motor location: Return fan motor location: Supply fan cofiguration:Block cooling airflow: Supply duct location: Return air path: Cooling coil sizing method: Cooling coil location: Ventilation deck location: System ventilation flag: ROOMDK Supply Return Draw Thru No Fan Return Air No Coil Room Return/Outdoor Deck Fan mechanical efficiency :75% Sum Room OA Reqs Advanced Options Off (0%) Apply Std62 People Avg:No Std62 Max Vent (Z)Ratio: CO2-based DCV:None Max reset: YesUse system default outside air reset: Supply air path /duct location:Return Air Space convective gains to occupied layer:100 % Underfloor plenum height:0.0 ft Conductive resistance of raised floor:0.8 hr·ft²·°F/Btu Upstream nominal leakage fraction:0 % Downstream constant leakage fraction:0 % Aux cooling coil losses to plenum:0 % Activate After Primary System None Activate After Primary System None No Fan Auxiliary cooling coil Auxiliary heating coil Auxiliary fan Control Method Control Type Capacity Schedule Main cooling: Aux cooling: Main heating: Aux heating: Preheat: Reheat: Humidification: Coils 0.0 % of Design Capacity by adjusting airflow 100.0 % of Design Capacity 100.0% of Design Capacity 100.0 % of Design Capacity 100.0 % of Design Capacity Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) Diversity People Lights Misc loads 100% 100% 100% Primary Secondary Return System Exhaust Room Exhaust Optional ventilation Auxiliary Type Full Load Energy Rate Schedule Efficiency None BI Centrifugal const vol None None None None None 0.00000 0.00024 0.00000 0.00000 0.00000 0.00000 0.00000 kW kW/Cfm-in wg kW kW kW kW kW Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) Available (100%) 90 85 90 90 85 90 85 Static Press.Demand Limiting PriorityFans 0.0 in. wg 0.3 in. wg 0.0 in. wg 0.0 in. wg 0.0 in. wg 0.0 in. wg 0.0 in. wg LEED Fan Power Adjustment 0.0 in. wg TRACE® 700 v6.2.8 calculated at 01:46 PM on 04/20/2012Project Name:West Valley High School - Energy Audit Alternative - 4 Entered Values Systems page 40 of 40Dataset Name:C:\Users\Ray\Documents\TRACE 700 Projects\WEST VALLEY HS.TRC Library Members Schedules FB School Misc Loads Simulation type:Reduced year Start time End time PercentageJanuary - December Cooling design Utilization Midnight 7 a.m.0.0 7 a.m.8 a.m.50.0 8 a.m.11 a.m.100.0 11 a.m.noon 80.0 noon 1 p.m.20.0 1 p.m.3 p.m.100.0 3 p.m.5 p.m.30.0 5 p.m.Midnight 0.0 Start time End time PercentageHeating Design Utilization Midnight Midnight 0.0 Start time End time PercentageJanuary - May Weekday Utilization Midnight 7 a.m.0.0 7 a.m.8 a.m.50.0 8 a.m.11 a.m.100.0 11 a.m.noon 80.0 noon 1 p.m.20.0 1 p.m.3 p.m.100.0 3 p.m.5 p.m.30.0 5 p.m.Midnight 0.0 Start time End time PercentageJune - August Weekday Utilization Midnight 7 a.m.0.0 7 a.m.8 a.m.5.0 8 a.m.3 p.m.5.0 3 p.m.5 p.m.5.0 5 p.m.Midnight 0.0 Start time End time PercentageSeptember - December Weekday Utilization TRACE® 700 v6.2.8Project Name:West Valley High School - Energy Audit Page 6 of 29Dataset Name:WEST VALLEY HS.TRC Library Members Schedules Midnight 7 a.m.0.0 7 a.m.8 a.m.50.0 8 a.m.11 a.m.100.0 11 a.m.noon 80.0 noon 1 p.m.20.0 1 p.m.3 p.m.100.0 3 p.m.5 p.m.30.0 5 p.m.Midnight 0.0 Start time End time PercentageJanuary - December Saturday to Sunday Utilization Midnight Midnight 0.0 TRACE® 700 v6.2.8Project Name:West Valley High School - Energy Audit Page 7 of 29Dataset Name:WEST VALLEY HS.TRC Library Members Schedules FB Dom Hot Water Simulation type:Reduced year Start time End time PercentageJanuary - May Cooling design to Weekday Utilization Midnight 7 a.m.5.0 7 a.m.8 a.m.50.0 8 a.m.11 a.m.100.0 11 a.m.noon 80.0 noon 1 p.m.20.0 1 p.m.3 p.m.100.0 3 p.m.5 p.m.30.0 5 p.m.Midnight 5.0 Start time End time PercentageJanuary - May Saturday Utilization Midnight Midnight 5.0 Start time End time PercentageJanuary - May Sunday Utilization Midnight Midnight 5.0 Start time End time PercentageJune - August Cooling design to Weekday Utilization Midnight 7 a.m.5.0 7 a.m.8 a.m.10.0 8 a.m.3 p.m.30.0 3 p.m.5 p.m.10.0 5 p.m.Midnight 5.0 Start time End time PercentageJune - August Saturday Utilization Midnight Midnight 5.0 Start time End time PercentageJune - August Sunday Utilization Midnight Midnight 5.0 Start time End time PercentageSeptember - December Cooling design to Weekday Utilization Midnight 7 a.m.5.0 7 a.m.8 a.m.50.0 8 a.m.11 a.m.100.0 TRACE® 700 v6.2.8Project Name:West Valley High School - Energy Audit Page 8 of 29Dataset Name:WEST VALLEY HS.TRC Library Members Schedules 11 a.m.noon 80.0 noon 1 p.m.20.0 1 p.m.3 p.m.100.0 3 p.m.5 p.m.30.0 5 p.m.Midnight 5.0 Start time End time PercentageSeptember - December Saturday Utilization Midnight Midnight 5.0 Start time End time PercentageSeptember - December Sunday Utilization Midnight Midnight 5.0 Start time End time PercentageHeating Design Utilization Midnight Midnight 0.0 TRACE® 700 v6.2.8Project Name:West Valley High School - Energy Audit Page 9 of 29Dataset Name:WEST VALLEY HS.TRC Library Members Schedules FB School Lights Simulation type:Reduced year Start time End time PercentageJanuary - December Cooling design Utilization Midnight 7 a.m.0.0 7 a.m.9 a.m.50.0 9 a.m.3 p.m.100.0 3 p.m.5 p.m.50.0 5 p.m.Midnight 0.0 Start time End time PercentageHeating Design Utilization Midnight Midnight 0.0 Start time End time PercentageJanuary - May Weekday Utilization Midnight 7 a.m.0.0 7 a.m.9 a.m.50.0 9 a.m.3 p.m.100.0 3 p.m.5 p.m.50.0 5 p.m.Midnight 0.0 Start time End time PercentageJune - August Weekday Utilization Midnight 7 a.m.0.0 7 a.m.8 a.m.20.0 8 a.m.3 p.m.50.0 3 p.m.5 p.m.20.0 5 p.m.Midnight 0.0 Start time End time PercentageSeptember - December Weekday Utilization Midnight 7 a.m.0.0 7 a.m.9 a.m.50.0 9 a.m.3 p.m.100.0 3 p.m.5 p.m.50.0 5 p.m.Midnight 0.0 Start time End time PercentageJanuary - December Saturday to Sunday Utilization TRACE® 700 v6.2.8Project Name:West Valley High School - Energy Audit Page 10 of 29Dataset Name:WEST VALLEY HS.TRC Library Members Schedules Midnight Midnight 0.0 TRACE® 700 v6.2.8Project Name:West Valley High School - Energy Audit Page 11 of 29Dataset Name:WEST VALLEY HS.TRC Library Members Schedules fb school htg tstat Simulation type:Reduced year Start time End time Setpoint °FJanuary - May Cooling design to Weekday Thermostat Midnight 5 a.m.65.0 5 a.m.6 a.m.66.0 6 a.m.7 a.m.67.0 7 a.m.8 a.m.68.0 8 a.m.9 a.m.69.0 9 a.m.5 p.m.70.0 5 p.m.Midnight 65.0 Start time End time Setpoint °FSeptember - December Cooling design to Weekday Thermostat Midnight 5 a.m.65.0 5 a.m.6 a.m.66.0 6 a.m.7 a.m.67.0 7 a.m.8 a.m.68.0 8 a.m.9 a.m.69.0 9 a.m.5 p.m.70.0 5 p.m.Midnight 65.0 Start time End time Setpoint °FJune - August Cooling design to Weekday Thermostat Midnight 7 a.m.65.0 7 a.m.6 p.m.65.0 6 p.m.Midnight 65.0 Start time End time Setpoint °FJanuary - December Saturday to Sunday Thermostat Midnight 7 a.m.65.0 7 a.m.8 a.m.65.0 8 a.m.5 p.m.65.0 5 p.m.6 p.m.65.0 6 p.m.Midnight 65.0 TRACE® 700 v6.2.8Project Name:West Valley High School - Energy Audit Page 12 of 29Dataset Name:WEST VALLEY HS.TRC Library Members Schedules FB People Common Areas Simulation type:Reduced year Start time End time PercentageJanuary - December Cooling design Utilization Midnight Midnight 100.0 Start time End time PercentageHeating Design Utilization Midnight Midnight 0.0 Start time End time PercentageJanuary - May Weekday Utilization Midnight 8 a.m.0.0 8 a.m.10 a.m.100.0 10 a.m.noon 25.0 noon 1 p.m.100.0 1 p.m.3 p.m.25.0 3 p.m.4 p.m.100.0 4 p.m.5 p.m.25.0 5 p.m.Midnight 0.0 Start time End time PercentageJune - August Weekday Utilization Midnight 10 a.m.0.0 10 a.m.3 p.m.25.0 3 p.m.Midnight 0.0 Start time End time PercentageSeptember - December Weekday Utilization Midnight 8 a.m.0.0 8 a.m.10 a.m.100.0 10 a.m.noon 25.0 noon 1 p.m.100.0 1 p.m.3 p.m.25.0 3 p.m.4 p.m.100.0 4 p.m.5 p.m.25.0 5 p.m.Midnight 0.0 Start time End time PercentageJanuary - December Saturday to Sunday Utilization TRACE® 700 v6.2.8Project Name:West Valley High School - Energy Audit Page 13 of 29Dataset Name:WEST VALLEY HS.TRC Library Members Schedules Midnight Midnight 0.0 FB WVHS Fan Schedule Simulation type:Reduced year Start time End time PercentageJanuary - May Cooling design to Weekday Utilization Midnight 5 a.m.0.0 5 a.m.4 p.m.100.0 4 p.m.Midnight 0.0 Start time End time PercentageHeating Design Utilization Midnight Midnight 100.0 Start time End time PercentageJanuary - December Saturday to Sunday Utilization Midnight 11 a.m.0.0 11 a.m.2 p.m.100.0 2 p.m.Midnight 0.0 Start time End time PercentageJune - August Cooling design to Weekday Utilization Midnight 10 a.m.0.0 10 a.m.2 p.m.100.0 2 p.m.Midnight 0.0 Start time End time PercentageSeptember - December Cooling design to Weekday Utilization Midnight 5 a.m.0.0 5 a.m.4 p.m.100.0 4 p.m.Midnight 0.0 Reset / Lockout 100 -20.00 ░F 100.00Outdr DB <% if + TRACE® 700 v6.2.8Project Name:West Valley High School - Energy Audit Page 14 of 29Dataset Name:WEST VALLEY HS.TRC Library Members Schedules FB Fan High School Simulation type:Reduced year Start time End time PercentageJanuary - May Cooling design to Weekday Utilization Midnight 6 a.m.0.0 6 a.m.5 p.m.100.0 5 p.m.Midnight 0.0 Start time End time PercentageHeating Design Utilization Midnight Midnight 100.0 Start time End time PercentageJanuary - December Saturday to Sunday Utilization Midnight 11 a.m.0.0 11 a.m.2 p.m.0.0 2 p.m.Midnight 0.0 Start time End time PercentageJune - August Cooling design to Weekday Utilization Midnight 10 a.m.0.0 10 a.m.2 p.m.100.0 2 p.m.Midnight 0.0 Start time End time PercentageSeptember - December Cooling design to Weekday Utilization Midnight 6 a.m.0.0 6 a.m.5 p.m.100.0 5 p.m.Midnight 0.0 TRACE® 700 v6.2.8Project Name:West Valley High School - Energy Audit Page 15 of 29Dataset Name:WEST VALLEY HS.TRC Library Members Schedules FB People Classroom Simulation type:Reduced year Start time End time PercentageJanuary - December Cooling design Utilization Midnight Midnight 100.0 Start time End time PercentageHeating Design Utilization Midnight Midnight 0.0 Start time End time PercentageJanuary - May Weekday Utilization Midnight 7 a.m.0.0 7 a.m.8 a.m.20.0 8 a.m.9 a.m.50.0 9 a.m.noon 100.0 noon 1 p.m.20.0 1 p.m.3 p.m.100.0 3 p.m.4 p.m.50.0 4 p.m.5 p.m.20.0 5 p.m.Midnight 0.0 Start time End time PercentageJune - August Weekday Utilization Midnight 8 a.m.0.0 8 a.m.3 p.m.30.0 3 p.m.Midnight 0.0 Start time End time PercentageSeptember - December Weekday Utilization Midnight 7 a.m.0.0 7 a.m.8 a.m.20.0 8 a.m.9 a.m.50.0 9 a.m.noon 100.0 noon 1 p.m.20.0 1 p.m.3 p.m.100.0 3 p.m.4 p.m.50.0 4 p.m.5 p.m.20.0 TRACE® 700 v6.2.8Project Name:West Valley High School - Energy Audit Page 16 of 29Dataset Name:WEST VALLEY HS.TRC Library Members Schedules 5 p.m.Midnight 0.0 Start time End time PercentageJanuary - December Saturday to Sunday Utilization Midnight Midnight 0.0 fb school vest tstat Simulation type:Reduced year Start time End time Setpoint °FJanuary - December Cooling design to Sunday Thermostat Midnight Midnight 70.0 Off (0%)Simulation type:Reduced year Start time End time StatusJanuary - December Cooling design to Sunday Equipment operation Midnight Midnight Off TRACE® 700 v6.2.8Project Name:West Valley High School - Energy Audit Page 17 of 29Dataset Name:WEST VALLEY HS.TRC Library Members Schedules FB People Office Simulation type:Reduced year Start time End time PercentageJanuary - December Cooling design Utilization Midnight Midnight 100.0 Start time End time PercentageHeating Design Utilization Midnight Midnight 0.0 Start time End time PercentageJanuary - May Weekday Utilization Midnight 8 a.m.0.0 8 a.m.9 a.m.50.0 9 a.m.3 p.m.100.0 3 p.m.4 p.m.50.0 4 p.m.5 p.m.20.0 5 p.m.Midnight 0.0 Start time End time PercentageJune - August Weekday Utilization Midnight 10 a.m.0.0 10 a.m.2 p.m.30.0 2 p.m.Midnight 0.0 Start time End time PercentageSeptember - December Weekday Utilization Midnight 8 a.m.0.0 8 a.m.9 a.m.50.0 9 a.m.3 p.m.100.0 3 p.m.4 p.m.50.0 4 p.m.5 p.m.20.0 5 p.m.Midnight 0.0 Start time End time PercentageJanuary - December Saturday to Sunday Utilization Midnight Midnight 0.0 TRACE® 700 v6.2.8Project Name:West Valley High School - Energy Audit Page 18 of 29Dataset Name:WEST VALLEY HS.TRC Library Members Schedules FB School Infiltration Simulation type:Reduced year Start time End time PercentageJanuary - May Cooling design to Weekday Utilization Midnight 8 a.m.100.0 8 a.m.4 p.m.25.0 4 p.m.Midnight 100.0 Start time End time PercentageJanuary - May Saturday Utilization Midnight Midnight 100.0 Start time End time PercentageJanuary - May Sunday Utilization Midnight Midnight 100.0 Start time End time PercentageJune - August Cooling design to Weekday Utilization Midnight Midnight 100.0 Start time End time PercentageJune - August Saturday Utilization Midnight Midnight 100.0 Start time End time PercentageJune - August Sunday Utilization Midnight Midnight 100.0 Start time End time PercentageSeptember - December Cooling design to Weekday Utilization Midnight 8 a.m.100.0 8 a.m.4 p.m.25.0 4 p.m.Midnight 100.0 Start time End time PercentageSeptember - December Saturday Utilization Midnight Midnight 100.0 Start time End time PercentageSeptember - December Sunday Utilization Midnight Midnight 100.0 Start time End time PercentageHeating Design Utilization Midnight Midnight 100.0 TRACE® 700 v6.2.8Project Name:West Valley High School - Energy Audit Page 19 of 29Dataset Name:WEST VALLEY HS.TRC Library Members Schedules FB School Vestibule Infiltration Simulation type:Reduced year Start time End time PercentageHeating Design Utilization Midnight Midnight 100.0 Start time End time PercentageJanuary - December Cooling design to Sunday Utilization Midnight 8 a.m.75.0 8 a.m.5 p.m.100.0 5 p.m.Midnight 75.0 fb school clg tstat Simulation type:Reduced year Start time End time Setpoint °FJanuary - May Cooling design to Weekday Thermostat Midnight 9 a.m.95.0 9 a.m.4 p.m.80.0 4 p.m.Midnight 95.0 Start time End time Setpoint °FSeptember - December Cooling design to Weekday Thermostat Midnight 9 a.m.95.0 9 a.m.4 p.m.80.0 4 p.m.Midnight 95.0 Start time End time Setpoint °FJune - August Cooling design to Weekday Thermostat Midnight 7 a.m.95.0 7 a.m.6 p.m.95.0 6 p.m.Midnight 95.0 Start time End time Setpoint °FJanuary - December Saturday to Sunday Thermostat Midnight 9 a.m.95.0 8 a.m.5 p.m.75.0 4 p.m.Midnight 95.0 TRACE® 700 v6.2.8Project Name:West Valley High School - Energy Audit Page 20 of 29Dataset Name:WEST VALLEY HS.TRC Library Members Schedules FB School Parking Lot Lights Simulation type:Reduced year Start time End time PercentageJanuary - March Cooling design to Sunday Utilization Midnight 9 a.m.100.0 9 a.m.4 p.m.0.0 4 p.m.Midnight 100.0 Start time End time PercentageHeating Design Utilization Midnight 7 a.m.100.0 7 a.m.6 p.m.0.0 6 p.m.Midnight 100.0 Start time End time PercentageApril - September Cooling design to Sunday Utilization Midnight 5 a.m.100.0 5 a.m.8 p.m.0.0 8 p.m.Midnight 100.0 Start time End time PercentageOctober - December Cooling design to Sunday Utilization Midnight 8 a.m.100.0 8 a.m.6 p.m.0.0 6 p.m.Midnight 100.0 TRACE® 700 v6.2.8Project Name:West Valley High School - Energy Audit Page 21 of 29Dataset Name:WEST VALLEY HS.TRC Library Members Schedules FB School Vent WVHSSF01 Simulation type:Reduced year Start time End time PercentageJanuary - May Cooling design to Weekday Utilization Midnight 5 a.m.0.0 5 a.m.4 p.m.100.0 4 p.m.Midnight 0.0 Start time End time PercentageHeating Design Utilization Midnight Midnight 100.0 Start time End time PercentageJanuary - December Saturday to Sunday Utilization Midnight 11 a.m.0.0 11 a.m.2 p.m.100.0 2 p.m.Midnight 0.0 Start time End time PercentageJune - August Cooling design to Weekday Utilization Midnight 10 a.m.0.0 10 a.m.2 p.m.100.0 2 p.m.Midnight 0.0 Start time End time PercentageSeptember - December Cooling design to Weekday Utilization Midnight 5 a.m.0.0 5 a.m.4 p.m.100.0 4 p.m.Midnight 0.0 Reset / Lockout 100 -20.00 ░FOutdr DB <% if TRACE® 700 v6.2.8Project Name:West Valley High School - Energy Audit Page 22 of 29Dataset Name:WEST VALLEY HS.TRC Library Members Schedules FB School Vent Simulation type:Reduced year Start time End time PercentageJanuary - May Weekday Utilization Midnight 8 a.m.0.0 8 a.m.9 a.m.50.0 9 a.m.5 p.m.100.0 5 p.m.Midnight 0.0 Start time End time PercentageHeating Design Utilization Midnight Midnight 100.0 Start time End time PercentageJune - August Weekday Utilization Midnight 10 a.m.0.0 10 a.m.3 p.m.100.0 3 p.m.Midnight 0.0 Start time End time PercentageSeptember - December Weekday Utilization Midnight 8 a.m.0.0 8 a.m.9 a.m.50.0 9 a.m.5 p.m.100.0 5 p.m.Midnight 0.0 Start time End time PercentageJanuary - December Saturday to Sunday Utilization Midnight Midnight 0.0 Start time End time PercentageJanuary - December Cooling design Utilization Midnight Midnight 100.0 TRACE® 700 v6.2.8Project Name:West Valley High School - Energy Audit Page 23 of 29Dataset Name:WEST VALLEY HS.TRC Library Members Schedules FB Fan Middle School Simulation type:Reduced year Start time End time PercentageJanuary - May Cooling design to Weekday Utilization Midnight 6 a.m.0.0 6 a.m.5 p.m.100.0 5 p.m.Midnight 0.0 Start time End time PercentageHeating Design Utilization Midnight Midnight 100.0 Start time End time PercentageJanuary - December Saturday to Sunday Utilization Midnight 11 a.m.0.0 11 a.m.2 p.m.0.0 2 p.m.Midnight 0.0 Start time End time PercentageJune - August Cooling design to Weekday Utilization Midnight 10 a.m.0.0 10 a.m.2 p.m.100.0 2 p.m.Midnight 0.0 Start time End time PercentageSeptember - December Cooling design to Weekday Utilization Midnight 6 a.m.0.0 6 a.m.5 p.m.100.0 5 p.m.Midnight 0.0 TRACE® 700 v6.2.8Project Name:West Valley High School - Energy Audit Page 24 of 29Dataset Name:WEST VALLEY HS.TRC APPENDIX H –TRACE 700 OUPUT DATA Total Building Consumption ElectricityStand-alone Base Utilities ElectricityReceptacles-Conditioned ElectricityFans-Conditioned ElectricityPumps Oil Space Heating Electricity ElectricityLighting-Conditioned Alt-4 VSD on SA01-02 and SA09Alt-3 Mods to SA01-02 OSA DamAlt-2 Lighting Upgrades*Alt-1 Existing System Energy 10^6 Btu/yr Proposed /Base % Peak kBtuh Energy 10^6 Btu/yr Proposed /Base % Peak kBtuh Energy 10^6 Btu/yr Proposed /Base % Peak kBtuh Energy 10^6 Btu/yr Proposed /Base % Peak kBtuh 2,038.6 12 1,151 1,501.9 74 848 1,501.9 74 848 1,501.9 74 848 1,078.5 6 123 1,078.5 100 123 1,008.9 94 115 1,008.4 93 115 9,523.8 56 10,341 9,815.6 103 10,439 9,146.5 96 8,911 9,178.8 96 8,929 1,025.3 6 178 1,022.2 100 173 954.2 93 153 953.8 93 153 1,932.4 11 885 1,926.5 100 889 1,928.6 100 889 1,151.1 60 780 870.1 5 636 870.1 100 636 870.1 100 636 870.1 100 636 548.6 3 123 423.6 77 95 423.6 77 95 423.6 77 95 17,017.3 16,638.5 15,833.9 15,087.9 Energy Cost Budget /PRM Summary By RS Consulting Project Name: West Valley High School - Energy Audit Weather Data: Fairbanks, AlaskaCity: Fairbanks, AK May 21, 2012Date: Note:The percentage displayed for the "Proposed/Base %" column of the base case is actually the percentage of the total energy consumption. *Denotes the base alternative for the ECB study. Total Oil Electricity Alt-4 VSD on SA01-02 and SA09Alt-3 Mods to SA01-02 OSA DamAlt-2 Lighting Upgrades*Alt-1 Existing System Energy 10^6 Btu/yr Cost/yr $/yr Energy 10^6 Btu/yr Cost/yr $/yr Energy 10^6 Btu/yr Cost/yr $/yr Energy 10^6 Btu/yr Cost/yr $/yr 7,493.5 450,526 6,822.9 406,777 6,687.4 399,674 5,909.1 356,587 9,523.8 231,427 9,815.6 238,520 9,146.5 222,260 9,178.8 223,045 17,017 681,954 16,639 645,296 15,834 621,934 15,088 579,632 Total Alt-4 VSD on SA01-02 and SA09Alt-3 Mods to SA01-02 OSA DamAlt-2 Lighting Upgrades*Alt-1 Existing System Number of hours heating load not met Number of hours cooling load not met 18 0 25 0 25 0 25 0 West Valley High School - Energy Audit Dataset Name: Project Name: Energy Cost Budget Report Page 1 of 1 TRACE® 700 v6.2.8 calculated at 09:58 AM on 05/21/2012 WEST VALLEY HS.TRC MONTHLY ENERGY CONSUMPTION By RS Consulting Jan Feb Mar Apr May June July Aug Sept Oct Nov Dec TotalUtility -------Monthly Energy Consumption ------- Alternative: 1 Existing System Electric 2,195,576236,743201,089200,942184,632127,247120,745119,256197,084183,242217,091187,374220,130On-Pk Cons. (kWh) 822758754756822766796758766757754753756On-Pk Demand (kW) Oil 95,23821,77811,2455,4323,1849458278604,6585,95412,62210,71517,019Cons. (therms) Building Source Floor Area 78,486 149,930 ft2 Btu/(ft2-year) 216,820 CO2 SO2 NOX Energy Consumption Environmental Impact Analysis 158,271,952 lbm/year 163,249 gm/year 515,815 gm/year Btu/(ft2-year) Alternative: 2 Lighting Upgrades Electric 1,999,091218,826182,713182,135167,613115,153108,873107,896180,038167,941196,912170,254200,735On-Pk Cons. (kWh) 714669664666714664681664672666665664667On-Pk Demand (kW) Oil 98,15622,12311,6045,8703,2859618278584,9406,30812,95610,99817,427Cons. (therms) Building Source Floor Area 76,739 142,067 ft2 Btu/(ft2-year) 216,820 CO2 SO2 NOX Energy Consumption Environmental Impact Analysis 144,107,968 lbm/year 148,639 gm/year 469,654 gm/year Btu/(ft2-year) Project Name:TRACE® 700 v6.2.8 calculated at 09:58 AM on 05/21/2012West Valley High School - Energy Audit Dataset Name:WEST VALLEY HS.TRC Alternative - 2 Monthly Energy Consumption report Page 1 of 2 MONTHLY ENERGY CONSUMPTION By RS Consulting Jan Feb Mar Apr May June July Aug Sept Oct Nov Dec TotalUtility -------Monthly Energy Consumption ------- Alternative: 3 Mods to SA01-02 OSA Dampers Electric 1,959,387214,819179,428178,822164,391111,953105,834104,936176,721164,804193,486167,173197,019On-Pk Cons. (kWh) 709655659661709659677660668661659659659On-Pk Demand (kW) Oil 91,46517,66311,5295,8843,2799638278584,9266,28712,83210,90115,516Cons. (therms) Building Source Floor Area 73,028 136,943 ft2 Btu/(ft2-year) 216,820 CO2 SO2 NOX Energy Consumption Environmental Impact Analysis 141,245,872 lbm/year 145,687 gm/year 460,326 gm/year Btu/(ft2-year) Alternative: 4 VSD on SA01-02 and SA09 Electric 1,731,339181,934157,187159,312146,969101,46496,56295,622156,439145,797170,302146,706173,046On-Pk Cons. (kWh) 674602606610674608626607618610605605606On-Pk Demand (kW) Oil 91,78817,73211,5655,9173,2959648278584,9406,31812,86810,93415,570Cons. (therms) Building Source Floor Area 69,587 126,330 ft2 Btu/(ft2-year) 216,820 CO2 SO2 NOX Energy Consumption Environmental Impact Analysis 124,806,624 lbm/year 128,731 gm/year 406,750 gm/year Btu/(ft2-year) Project Name:TRACE® 700 v6.2.8 calculated at 09:58 AM on 05/21/2012West Valley High School - Energy Audit Dataset Name:WEST VALLEY HS.TRC Alternative - 4 Monthly Energy Consumption report Page 2 of 2 EQUIPMENT ENERGY CONSUMPTION By RS Consulting Alternative: 1 Existing System Jan Feb Mar Apr May June July Aug Sept Oct Nov Dec TotalEquipment-Utility -------Monthly Consumption ------- Lights 51,280.0 62,075.7 53,978.9 59,376.8 30,430.6 27,664.2 31,813.8 53,978.9 59,376.8 56,677.8 597,310.156,677.8 53,978.9Electric (kWh) 337.4 337.4 337.4 337.4 337.4 337.4 337.4 337.4 337.4 337.4 337.4 337.4 337.4Peak (kW) Misc. Ld 25,152.4 30,447.7 26,476.3 29,123.9 2,051.0 1,864.5 2,144.2 26,476.3 29,123.9 27,800.1 254,936.527,800.1 26,476.3Electric (kWh) 186.5 186.5 186.5 186.5 186.5 186.5 186.5 186.5 186.5 186.5 186.5 186.5 186.5Peak (kW) Cooling Coil Condensate 0.0 0.0 0.0 0.0 0.0 0.1 0.0 0.0 0.0 0.0 0.30.0 0.0Recoverable Water (1000gal) 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0Peak (1000gal/Hr) Bsu 1: Parking lot lights 17,136.0 18,972.0 9,720.0 10,044.0 9,720.0 10,044.0 10,044.0 9,720.0 15,624.0 15,120.0 160,740.018,972.0 15,624.0Electric (kWh) 36.0 36.0 36.0 36.0 36.0 36.0 36.0 36.0 36.0 36.0 36.0 36.0 36.0Peak (kW) Bsu 2: Domestic Hot Water Load 1,399.2 1,663.2 1,478.4 1,605.1 684.6 661.8 711.9 1,478.4 1,605.1 1,536.5 15,860.21,547.0 1,489.0Proc. Hot Water (therms) 8.8 8.8 8.8 8.8 8.8 2.6 2.6 2.6 8.8 8.8 8.8 8.8 8.8Peak (therms/Hr) Cpl 1: Cooling plant - 001 [Sum of dsn coil capacities=536.6 tons] Hpl 1: Boiler Plant [Sum of dsn coil capacities=16,756 mbh] Boiler - 001 [Nominal Capacity/F.L.Rate=16,756 mbh / 209.5 Therms] (Heating Equipment) 10,714.8 12,621.8 5,954.0 4,657.8 859.9 827.2 944.5 3,183.7 5,431.7 11,244.9 95,237.517,018.8 21,778.4Oil (therms) 88.0 67.8 73.4 35.7 27.0 3.3 3.3 5.1 22.4 31.1 63.8 103.4 103.4Peak (therms/Hr) Heating water circ pump (Misc Accessory Equipment) 22,014.1 24,372.8 23,586.6 24,372.8 23,586.6 24,372.8 24,372.8 23,586.5 24,372.7 23,586.5 286,969.824,372.8 24,372.8Electric (kWh) 32.8 32.8 32.8 32.8 32.8 32.8 32.8 32.8 32.8 32.8 32.8 32.8 32.8Peak (kW) Boiler forced draft fan (Misc Accessory Equipment) 11,260.4 12,466.9 12,064.7 12,466.9 12,064.7 12,466.9 12,466.9 12,064.7 12,466.9 12,064.7 146,787.612,466.9 12,466.9Electric (kWh) 16.8 16.8 16.8 16.8 16.8 16.8 16.8 16.8 16.8 16.8 16.8 16.8 16.8Peak (kW) Cntl panel & interlocks - 0.5 KW (Misc Accessory Equipment) 336.0 372.0 360.0 372.0 360.0 372.0 372.0 360.0 372.0 360.0 4,380.0372.0 372.0Electric (kWh) 0.5 0.5 0.5 0.5 0.5 0.5 0.5 0.5 0.5 0.5 0.5 0.5 0.5Peak (kW) Project Name:TRACE® 700 v6.2.8 calculated at 09:58 AM on 05/21/2012West Valley High School - Energy Audit Dataset Name:WEST VALLEY HS.TRC Alternative - 1 Equipment Energy Consumption report page 1 of 16 EQUIPMENT ENERGY CONSUMPTION By RS Consulting Alternative: 1 Existing System Jan Feb Mar Apr May June July Aug Sept Oct Nov Dec TotalEquipment-Utility -------Monthly Consumption ------- Hpl 1: Boiler Plant [Sum of dsn coil capacities=16,756 mbh] Fuel oil circulation pump (Misc Accessory Equipment) 12,645.4 14,000.3 13,548.7 14,000.3 13,548.7 14,000.3 14,000.3 13,548.7 14,000.3 13,548.7 164,842.314,000.3 14,000.3Electric (kWh) 18.8 18.8 18.8 18.8 18.8 18.8 18.8 18.8 18.8 18.8 18.8 18.8 18.8Peak (kW) Variable Volume Heating Water Pump (Misc Accessory Equipment) 1,467.6 1,695.0 638.0 581.8 223.5 219.1 225.1 448.8 536.7 1,528.2 13,433.32,510.7 3,358.7Electric (kWh) 15.2 10.6 11.9 5.4 4.7 0.8 0.8 0.8 3.9 4.7 10.0 19.4 19.4Peak (kW) Sys 1: SA22 - BLOCK B LOWER AF Centrifugal var freq drv [DsnAirflow/F.L.Rate=42,380 cfm / 35.59 kW] (Main Clg Fan) 1,861.7 2,169.6 1,877.8 1,962.4 1,292.9 1,920.9 1,142.9 1,968.0 2,033.6 2,017.7 26,841.33,523.1 5,070.7Electric (kWh) 8.3 8.3 8.3 8.3 14.8 19.2 29.0 19.9 28.8 8.3 8.3 8.3 29.0Peak (kW) Propeller fan [DsnAirflow/F.L.Rate=42,380 cfm / 11.77 kW] (System Exhaust Fan) 540.2 622.2 651.9 1,100.7 641.9 519.4 574.1 1,016.3 628.7 565.3 8,197.1622.5 714.1Electric (kWh) 3.4 3.4 3.4 3.4 4.5 3.4 3.4 3.4 5.1 3.4 3.4 3.4 5.1Peak (kW) Sys 10: CH BI Centrifugal const vol [DsnAirflow/F.L.Rate=11,140 cfm / 0.79 kW] (Main Htg Fan) 54.9 59.1 40.1 27.5 0.0 0.0 1.1 14.4 30.9 55.6 410.257.3 69.4Electric (kWh) 0.6 0.5 0.5 0.3 0.2 0.0 0.0 0.0 0.2 0.3 0.5 0.7 0.7Peak (kW) Sys 2: SA23 - BLOCK B UPPER AF Centrifugal var freq drv [DsnAirflow/F.L.Rate=30,895 cfm / 25.94 kW] (Main Clg Fan) 1,556.8 1,820.0 1,475.5 1,611.8 1,060.1 1,780.2 1,026.3 1,727.6 1,593.6 1,728.5 21,843.72,630.1 3,833.2Electric (kWh) 6.3 6.3 6.3 6.3 8.0 17.9 26.0 16.6 26.0 6.3 6.3 6.3 26.0Peak (kW) Propeller fan [DsnAirflow/F.L.Rate=30,895 cfm / 8.58 kW] (System Exhaust Fan) 484.5 566.4 560.4 809.7 445.4 377.8 418.1 799.7 566.3 519.6 6,636.6518.0 570.9Electric (kWh) 2.8 2.8 2.8 2.8 3.4 2.8 2.8 2.8 4.0 2.8 2.8 2.8 4.0Peak (kW) Sys 3: SA24 - COMMONS AF Centrifugal var freq drv [DsnAirflow/F.L.Rate=18,485 cfm / 15.52 kW] (Main Clg Fan) 711.4 788.0 722.0 806.1 763.0 553.9 675.6 1,180.4 775.2 836.2 10,915.41,295.3 1,808.4Electric (kWh) 2.8 2.8 3.6 6.6 6.9 15.6 15.6 15.6 15.6 5.9 2.8 2.8 15.6Peak (kW) Project Name:TRACE® 700 v6.2.8 calculated at 09:58 AM on 05/21/2012West Valley High School - Energy Audit Dataset Name:WEST VALLEY HS.TRC Alternative - 1 Equipment Energy Consumption report page 2 of 16 EQUIPMENT ENERGY CONSUMPTION By RS Consulting Alternative: 1 Existing System Jan Feb Mar Apr May June July Aug Sept Oct Nov Dec TotalEquipment-Utility -------Monthly Consumption ------- Sys 3: SA24 - COMMONS Propeller fan [DsnAirflow/F.L.Rate=18,485 cfm / 5.13 kW] (System Exhaust Fan) 273.1 319.9 335.4 500.3 338.9 352.4 415.1 461.9 324.0 286.4 4,152.2270.0 274.9Electric (kWh) 1.9 1.9 1.9 1.9 2.9 1.9 5.1 5.1 3.3 1.9 1.9 1.9 5.1Peak (kW) Sys 4: SA30 - AUDITORIUM AF Centrifugal var freq drv [DsnAirflow/F.L.Rate=11,200 cfm / 9.58 kW] (Main Clg Fan) 810.2 954.7 729.9 821.5 453.7 503.2 475.2 826.9 797.7 880.6 9,211.5950.9 1,007.0Electric (kWh) 4.8 4.8 4.8 4.8 4.8 4.8 4.8 4.8 4.8 4.8 4.8 1.8 4.8Peak (kW) AF Centrifugal var freq drv [DsnAirflow/F.L.Rate=12,444 cfm / 7.60 kW] (Main Return Fan) 623.3 723.1 614.0 825.8 571.4 543.3 535.0 728.9 619.6 659.7 7,901.0697.0 760.0Electric (kWh) 3.3 3.4 3.3 3.4 3.7 3.9 4.1 3.7 3.5 3.4 3.3 1.6 4.1Peak (kW) Sys 5: SA31 - LOBBY AF Centrifugal var freq drv [DsnAirflow/F.L.Rate=7,600 cfm / 6.50 kW] (Main Clg Fan) 407.8 482.3 450.4 469.0 340.1 317.3 255.8 456.9 491.6 444.9 4,968.8440.5 412.4Electric (kWh) 5.7 5.7 5.7 5.7 5.7 5.7 5.7 4.0 5.7 5.7 5.7 5.7 5.7Peak (kW) FC Centrifugal const vol [DsnAirflow/F.L.Rate=1,200 cfm / 0.57 kW] (Room Exhaust Fan) 101.9 123.8 109.7 129.0 49.9 45.3 52.1 119.5 118.3 111.7 1,176.8110.4 105.3Electric (kWh) 0.6 0.6 0.6 0.6 0.6 0.6 0.6 0.6 0.6 0.6 0.6 0.6 0.6Peak (kW) AF Centrifugal var freq drv [DsnAirflow/F.L.Rate=7,919 cfm / 2.90 kW] (Main Return Fan) 175.7 206.0 199.0 227.5 177.4 159.0 136.1 208.8 209.6 188.9 2,244.1183.5 172.7Electric (kWh) 2.2 2.2 2.2 2.2 2.2 2.5 2.5 1.8 2.2 2.2 2.2 2.2 2.5Peak (kW) Sys 6: SA01 - BLOCK A AF Centrifugal vav/inlet v [DsnAirflow/F.L.Rate=82,330 cfm / 127.4 kW] (Main Clg Fan) 27,022.6 30,520.0 24,793.0 26,076.4 12,307.2 14,182.1 16,789.2 23,886.3 25,799.8 29,725.8 310,999.933,347.8 46,549.7Electric (kWh) 74.2 73.6 74.4 75.9 76.2 81.3 89.7 99.5 95.8 75.5 73.9 74.2 99.5Peak (kW) Sys 7: SA26 - AUX GYM AF Centrifugal var freq drv [DsnAirflow/F.L.Rate=9,100 cfm / 7.64 kW] (Main Clg Fan) 476.5 565.2 430.2 398.0 207.1 247.8 295.9 331.4 460.7 522.2 5,640.8712.0 994.0Electric (kWh) 1.6 1.6 1.6 1.6 1.6 1.6 3.3 3.0 1.7 1.6 1.6 1.6 3.3Peak (kW) Project Name:TRACE® 700 v6.2.8 calculated at 09:58 AM on 05/21/2012West Valley High School - Energy Audit Dataset Name:WEST VALLEY HS.TRC Alternative - 1 Equipment Energy Consumption report page 3 of 16 EQUIPMENT ENERGY CONSUMPTION By RS Consulting Alternative: 1 Existing System Jan Feb Mar Apr May June July Aug Sept Oct Nov Dec TotalEquipment-Utility -------Monthly Consumption ------- Sys 7: SA26 - AUX GYM Propeller fan [DsnAirflow/F.L.Rate=9,100 cfm / 2.53 kW] (System Exhaust Fan) 95.6 109.1 121.6 220.9 156.1 122.4 170.9 182.9 109.8 97.5 1,586.492.7 106.9Electric (kWh) 0.7 0.7 0.7 0.7 0.9 0.7 0.7 1.6 1.0 0.7 0.7 0.7 1.6Peak (kW) Sys 8: SA09 - LOCKERS AF Centrifugal vav/inlet v [DsnAirflow/F.L.Rate=12,205 cfm / 12.60 kW] (Main Clg Fan) 2,123.3 2,510.4 2,212.2 2,340.4 1,923.4 1,837.0 1,971.6 2,015.7 2,422.4 2,322.1 26,586.92,464.4 2,444.1Electric (kWh) 7.8 7.8 7.8 7.8 7.8 11.1 11.1 7.8 11.1 7.8 7.8 7.8 11.1Peak (kW) BI Centrifugal const vol [DsnAirflow/F.L.Rate=3,000 cfm / 1.07 kW] (Room Exhaust Fan) 38.1 47.0 65.5 106.3 19.4 16.9 56.3 118.4 74.8 42.1 651.634.5 32.3Electric (kWh) 0.3 0.3 0.4 0.6 0.9 0.2 0.2 1.1 1.1 0.6 0.3 0.2 1.1Peak (kW) Propeller fan [DsnAirflow/F.L.Rate=12,205 cfm / 3.49 kW] (System Exhaust Fan) 60.5 69.7 106.9 190.3 265.9 224.8 238.0 193.0 106.6 61.8 1,607.845.9 44.5Electric (kWh) 0.5 0.6 0.6 1.0 1.5 2.8 2.8 2.2 2.1 1.0 0.6 0.5 2.8Peak (kW) Sys 9: SA06 - GYM AF Centrifugal const vol [DsnAirflow/F.L.Rate=34,110 cfm / 26.53 kW] (Main Clg Fan) 6,340.7 7,348.8 5,359.1 5,798.4 4,423.8 4,306.5 4,695.8 5,939.4 5,783.5 6,844.7 83,397.211,010.0 15,546.6Electric (kWh) 26.5 26.5 26.5 26.5 26.5 26.5 26.5 26.5 26.5 26.5 26.5 26.5 26.5Peak (kW) Propeller fan [DsnAirflow/F.L.Rate=36,115 cfm / 10.03 kW] (Main Return Fan) 2,323.8 2,683.7 2,013.9 2,323.9 1,833.6 1,731.8 1,882.9 2,271.7 2,122.6 2,491.7 31,207.63,951.5 5,576.5Electric (kWh) 10.0 10.0 10.0 10.0 10.0 10.0 10.0 10.0 10.0 10.0 10.0 10.0 10.0Peak (kW) Project Name:TRACE® 700 v6.2.8 calculated at 09:58 AM on 05/21/2012West Valley High School - Energy Audit Dataset Name:WEST VALLEY HS.TRC Alternative - 1 Equipment Energy Consumption report page 4 of 16 EQUIPMENT ENERGY CONSUMPTION By RS Consulting Alternative: 2 Lighting Upgrades Jan Feb Mar Apr May June July Aug Sept Oct Nov Dec TotalEquipment-Utility -------Monthly Consumption ------- Lights 37,780.0 45,733.7 39,768.4 43,745.3 22,419.5 20,381.3 23,438.5 39,768.4 43,745.3 41,756.8 440,062.341,756.8 39,768.4Electric (kWh) 248.6 248.6 248.6 248.6 248.6 248.6 248.6 248.6 248.6 248.6 248.6 248.6 248.6Peak (kW) Misc. Ld 25,152.4 30,447.7 26,476.3 29,123.9 2,051.0 1,864.5 2,144.2 26,476.3 29,123.9 27,800.1 254,936.527,800.1 26,476.3Electric (kWh) 186.5 186.5 186.5 186.5 186.5 186.5 186.5 186.5 186.5 186.5 186.5 186.5 186.5Peak (kW) Cooling Coil Condensate 0.0 0.0 0.0 0.1 0.0 0.0 0.0 0.0 0.0 0.0 0.20.0 0.0Recoverable Water (1000gal) Bsu 1: Parking lot lights 13,232.8 14,650.6 7,506.0 7,756.2 7,506.0 7,756.2 7,756.2 7,506.0 12,065.2 11,676.0 124,127.114,650.6 12,065.2Electric (kWh) 27.8 27.8 27.8 27.8 27.8 27.8 27.8 27.8 27.8 27.8 27.8 27.8 27.8Peak (kW) Bsu 2: Domestic Hot Water Load 1,399.2 1,663.2 1,478.4 1,605.1 684.6 661.8 711.9 1,478.4 1,605.1 1,536.5 15,860.21,547.0 1,489.0Proc. Hot Water (therms) 8.8 8.8 8.8 8.8 8.8 2.6 2.6 2.6 8.8 8.8 8.8 8.8 8.8Peak (therms/Hr) Cpl 1: Cooling plant - 001 [Sum of dsn coil capacities=505.4 tons] Hpl 1: Boiler Plant [Sum of dsn coil capacities=16,756 mbh] Boiler - 001 [Nominal Capacity/F.L.Rate=16,756 mbh / 209.5 Therms] (Heating Equipment) 10,998.1 12,955.7 6,308.1 4,939.8 857.6 827.2 960.7 3,285.2 5,869.7 11,604.0 98,156.217,427.4 22,122.8Oil (therms) 89.1 69.5 75.1 36.9 27.5 3.3 3.3 6.8 23.8 32.6 65.7 104.4 104.4Peak (therms/Hr) Heating water circ pump (Misc Accessory Equipment) 22,013.8 24,372.5 23,586.3 24,372.5 23,586.3 24,372.5 24,372.5 23,586.3 24,372.5 23,586.3 286,966.424,372.5 24,372.5Electric (kWh) 32.8 32.8 32.8 32.8 32.8 32.8 32.8 32.8 32.8 32.8 32.8 32.8 32.8Peak (kW) Boiler forced draft fan (Misc Accessory Equipment) 11,260.3 12,466.7 12,064.6 12,466.8 12,064.6 12,466.8 12,466.7 12,064.6 12,466.8 12,064.6 146,785.912,466.7 12,466.8Electric (kWh) 16.8 16.8 16.8 16.8 16.8 16.8 16.8 16.8 16.8 16.8 16.8 16.8 16.8Peak (kW) Cntl panel & interlocks - 0.5 KW (Misc Accessory Equipment) 336.0 372.0 360.0 372.0 360.0 372.0 372.0 360.0 372.0 360.0 4,380.0372.0 372.0Electric (kWh) 0.5 0.5 0.5 0.5 0.5 0.5 0.5 0.5 0.5 0.5 0.5 0.5 0.5Peak (kW) Project Name:TRACE® 700 v6.2.8 calculated at 09:58 AM on 05/21/2012West Valley High School - Energy Audit Dataset Name:WEST VALLEY HS.TRC Alternative - 2 Equipment Energy Consumption report page 5 of 16 EQUIPMENT ENERGY CONSUMPTION By RS Consulting Alternative: 2 Lighting Upgrades Jan Feb Mar Apr May June July Aug Sept Oct Nov Dec TotalEquipment-Utility -------Monthly Consumption ------- Hpl 1: Boiler Plant [Sum of dsn coil capacities=16,756 mbh] Fuel oil circulation pump (Misc Accessory Equipment) 12,645.3 14,000.2 13,548.5 14,000.2 13,548.5 14,000.1 14,000.2 13,548.5 14,000.2 13,548.5 164,840.414,000.2 14,000.2Electric (kWh) 18.8 18.8 18.8 18.8 18.8 18.8 18.8 18.8 18.8 18.8 18.8 18.8 18.8Peak (kW) Variable Volume Heating Water Pump (Misc Accessory Equipment) 1,376.7 1,590.9 618.4 529.3 203.7 199.2 203.6 401.7 524.9 1,442.6 12,530.82,338.3 3,101.7Electric (kWh) 13.8 9.8 11.0 5.0 4.3 0.7 0.7 0.7 4.0 4.3 9.1 17.9 17.9Peak (kW) Sys 1: SA22 - BLOCK B LOWER AF Centrifugal var freq drv [DsnAirflow/F.L.Rate=42,380 cfm / 35.59 kW] (Main Clg Fan) 1,847.6 2,170.9 1,871.4 1,961.2 1,099.2 1,391.8 1,238.1 1,925.6 2,020.2 2,023.2 26,206.93,584.6 5,073.1Electric (kWh) 8.3 8.3 8.3 8.3 10.3 14.7 19.9 13.7 26.3 8.3 8.3 8.2 26.3Peak (kW) Propeller fan [DsnAirflow/F.L.Rate=42,380 cfm / 11.77 kW] (System Exhaust Fan) 539.5 623.1 651.0 1,087.5 636.6 518.8 651.6 989.4 625.0 565.0 8,227.8627.9 712.4Electric (kWh) 3.4 3.4 3.4 3.4 4.3 3.4 3.4 4.4 5.1 3.4 3.4 3.4 5.1Peak (kW) Sys 10: CH BI Centrifugal const vol [DsnAirflow/F.L.Rate=11,140 cfm / 0.79 kW] (Main Htg Fan) 56.6 60.9 41.9 29.4 0.0 0.0 1.2 15.8 32.3 57.3 425.659.0 71.2Electric (kWh) 0.6 0.5 0.5 0.3 0.2 0.0 0.0 0.0 0.2 0.3 0.5 0.7 0.7Peak (kW) Sys 2: SA23 - BLOCK B UPPER AF Centrifugal var freq drv [DsnAirflow/F.L.Rate=30,895 cfm / 25.94 kW] (Main Clg Fan) 1,515.2 1,793.4 1,453.7 1,602.2 978.0 1,455.2 864.8 1,665.7 1,586.2 1,711.7 21,067.02,632.8 3,808.1Electric (kWh) 6.3 6.3 6.3 6.3 7.2 16.4 26.0 10.3 15.8 6.3 6.3 6.3 26.0Peak (kW) Propeller fan [DsnAirflow/F.L.Rate=30,895 cfm / 8.58 kW] (System Exhaust Fan) 465.2 563.1 556.2 803.6 445.4 372.8 417.2 781.5 562.1 517.5 6,571.2518.2 568.4Electric (kWh) 2.8 2.8 2.8 2.8 3.4 2.8 2.8 2.8 3.8 2.8 2.8 2.8 3.8Peak (kW) Sys 3: SA24 - COMMONS AF Centrifugal var freq drv [DsnAirflow/F.L.Rate=18,485 cfm / 15.52 kW] (Main Clg Fan) 756.8 841.8 700.3 800.6 318.4 553.9 675.6 1,160.4 752.8 884.3 10,548.51,295.3 1,808.4Electric (kWh) 2.8 2.8 2.8 6.4 6.9 2.9 15.6 15.6 15.6 5.6 2.8 2.8 15.6Peak (kW) Project Name:TRACE® 700 v6.2.8 calculated at 09:58 AM on 05/21/2012West Valley High School - Energy Audit Dataset Name:WEST VALLEY HS.TRC Alternative - 2 Equipment Energy Consumption report page 6 of 16 EQUIPMENT ENERGY CONSUMPTION By RS Consulting Alternative: 2 Lighting Upgrades Jan Feb Mar Apr May June July Aug Sept Oct Nov Dec TotalEquipment-Utility -------Monthly Consumption ------- Sys 3: SA24 - COMMONS Propeller fan [DsnAirflow/F.L.Rate=18,485 cfm / 5.13 kW] (System Exhaust Fan) 272.6 319.4 333.4 499.0 338.9 352.4 411.9 450.5 321.9 285.9 4,124.6267.9 271.0Electric (kWh) 1.9 1.9 1.9 1.9 2.8 1.9 5.1 5.1 2.7 1.9 1.9 1.9 5.1Peak (kW) Sys 4: SA30 - AUDITORIUM AF Centrifugal var freq drv [DsnAirflow/F.L.Rate=11,200 cfm / 9.58 kW] (Main Clg Fan) 789.8 929.1 713.8 803.8 437.6 503.2 457.2 809.2 780.2 860.8 8,997.8906.2 1,007.0Electric (kWh) 4.8 4.8 4.8 4.8 4.8 4.8 4.8 4.8 4.8 4.8 4.8 1.8 4.8Peak (kW) AF Centrifugal var freq drv [DsnAirflow/F.L.Rate=12,444 cfm / 7.60 kW] (Main Return Fan) 610.4 707.0 603.4 813.7 559.0 543.3 522.4 716.3 608.2 647.0 7,758.8668.2 760.0Electric (kWh) 3.3 3.4 3.3 3.4 3.7 3.9 3.8 3.7 3.4 3.4 3.3 1.6 3.9Peak (kW) Sys 5: SA31 - LOBBY AF Centrifugal var freq drv [DsnAirflow/F.L.Rate=7,600 cfm / 6.50 kW] (Main Clg Fan) 395.3 467.4 437.7 454.9 341.8 317.3 256.1 444.1 477.5 431.3 4,849.5426.7 399.4Electric (kWh) 5.7 5.7 5.7 5.7 5.7 5.7 5.7 3.8 5.9 5.7 5.7 5.7 5.9Peak (kW) FC Centrifugal const vol [DsnAirflow/F.L.Rate=1,200 cfm / 0.57 kW] (Room Exhaust Fan) 101.9 123.8 109.7 129.0 49.9 45.3 52.1 119.5 118.3 111.7 1,176.8110.4 105.3Electric (kWh) 0.6 0.6 0.6 0.6 0.6 0.6 0.6 0.6 0.6 0.6 0.6 0.6 0.6Peak (kW) AF Centrifugal var freq drv [DsnAirflow/F.L.Rate=7,919 cfm / 2.90 kW] (Main Return Fan) 170.9 200.2 194.1 222.0 178.1 159.0 136.2 203.8 204.2 183.7 2,197.8178.2 167.7Electric (kWh) 2.2 2.2 2.2 2.2 2.2 2.5 2.5 1.7 2.2 2.2 2.2 2.2 2.5Peak (kW) Sys 6: SA01 - BLOCK A AF Centrifugal vav/inlet v [DsnAirflow/F.L.Rate=82,330 cfm / 127.4 kW] (Main Clg Fan) 27,411.9 31,067.4 25,425.2 27,152.9 12,071.1 12,897.9 15,420.2 23,509.4 26,282.8 29,821.2 310,906.133,320.6 46,525.7Electric (kWh) 74.2 73.3 74.1 74.4 75.3 81.3 81.3 102.5 92.2 74.7 73.2 74.2 102.5Peak (kW) Sys 7: SA26 - AUX GYM AF Centrifugal var freq drv [DsnAirflow/F.L.Rate=9,100 cfm / 7.64 kW] (Main Clg Fan) 476.5 565.2 449.3 417.6 196.8 194.0 310.6 331.4 481.0 522.2 5,650.6712.0 994.0Electric (kWh) 1.6 1.6 1.6 1.6 1.6 1.6 1.6 4.3 1.6 1.6 1.6 1.6 4.3Peak (kW) Project Name:TRACE® 700 v6.2.8 calculated at 09:58 AM on 05/21/2012West Valley High School - Energy Audit Dataset Name:WEST VALLEY HS.TRC Alternative - 2 Equipment Energy Consumption report page 7 of 16 EQUIPMENT ENERGY CONSUMPTION By RS Consulting Alternative: 2 Lighting Upgrades Jan Feb Mar Apr May June July Aug Sept Oct Nov Dec TotalEquipment-Utility -------Monthly Consumption ------- Sys 7: SA26 - AUX GYM Propeller fan [DsnAirflow/F.L.Rate=9,100 cfm / 2.53 kW] (System Exhaust Fan) 95.6 109.1 121.4 220.1 156.1 125.1 174.0 181.4 109.7 97.4 1,589.192.5 106.6Electric (kWh) 0.7 0.7 0.7 0.7 0.9 0.7 0.7 2.0 1.0 0.7 0.7 0.7 2.0Peak (kW) Sys 8: SA09 - LOCKERS AF Centrifugal vav/inlet v [DsnAirflow/F.L.Rate=12,205 cfm / 12.60 kW] (Main Clg Fan) 2,191.9 2,591.8 2,234.9 2,391.6 1,855.5 1,716.2 1,957.4 2,030.1 2,422.4 2,322.1 26,768.12,537.3 2,516.9Electric (kWh) 7.8 7.8 7.8 7.8 7.8 8.7 8.7 7.8 11.1 7.8 7.8 7.8 11.1Peak (kW) BI Centrifugal const vol [DsnAirflow/F.L.Rate=3,000 cfm / 1.07 kW] (Room Exhaust Fan) 36.3 45.0 62.6 102.8 19.4 16.9 56.2 115.3 71.4 40.1 632.333.9 32.3Electric (kWh) 0.2 0.3 0.3 0.6 0.9 0.2 0.2 1.1 1.1 0.5 0.3 0.2 1.1Peak (kW) Propeller fan [DsnAirflow/F.L.Rate=12,205 cfm / 3.49 kW] (System Exhaust Fan) 58.4 67.3 103.2 186.3 227.6 192.2 217.9 189.4 102.4 59.4 1,493.645.1 44.4Electric (kWh) 0.5 0.6 0.6 1.0 1.5 2.6 2.7 2.2 2.1 1.0 0.6 0.5 2.7Peak (kW) Sys 9: SA06 - GYM AF Centrifugal const vol [DsnAirflow/F.L.Rate=34,110 cfm / 26.53 kW] (Main Clg Fan) 6,340.7 7,348.8 5,783.5 5,704.0 4,416.6 4,355.7 4,695.8 5,977.2 5,783.5 6,844.7 83,886.711,010.0 15,626.2Electric (kWh) 26.5 26.5 26.5 26.5 26.5 26.5 26.5 26.5 26.5 26.5 26.5 26.5 26.5Peak (kW) Propeller fan [DsnAirflow/F.L.Rate=36,115 cfm / 10.03 kW] (Main Return Fan) 2,323.8 2,683.7 2,165.5 2,290.2 1,831.0 1,749.4 1,882.9 2,285.2 2,122.6 2,491.7 31,382.43,951.5 5,604.9Electric (kWh) 10.0 10.0 10.0 10.0 10.0 10.0 10.0 10.0 10.0 10.0 10.0 10.0 10.0Peak (kW) Project Name:TRACE® 700 v6.2.8 calculated at 09:58 AM on 05/21/2012West Valley High School - Energy Audit Dataset Name:WEST VALLEY HS.TRC Alternative - 2 Equipment Energy Consumption report page 8 of 16 EQUIPMENT ENERGY CONSUMPTION By RS Consulting Alternative: 3 Mods to SA01-02 OSA Dampers Jan Feb Mar Apr May June July Aug Sept Oct Nov Dec TotalEquipment-Utility -------Monthly Consumption ------- Lights 37,780.0 45,733.7 39,768.4 43,745.3 22,419.5 20,381.3 23,438.5 39,768.4 43,745.3 41,756.8 440,062.341,756.8 39,768.4Electric (kWh) 248.6 248.6 248.6 248.6 248.6 248.6 248.6 248.6 248.6 248.6 248.6 248.6 248.6Peak (kW) Misc. Ld 25,152.4 30,447.7 26,476.3 29,123.9 2,051.0 1,864.5 2,144.2 26,476.3 29,123.9 27,800.1 254,936.527,800.1 26,476.3Electric (kWh) 186.5 186.5 186.5 186.5 186.5 186.5 186.5 186.5 186.5 186.5 186.5 186.5 186.5Peak (kW) Cooling Coil Condensate 0.0 0.0 0.0 0.1 0.0 0.0 0.0 0.0 0.0 0.0 0.20.0 0.0Recoverable Water (1000gal) Bsu 1: Parking lot lights 13,232.8 14,650.6 7,506.0 7,756.2 7,506.0 7,756.2 7,756.2 7,506.0 12,065.2 11,676.0 124,127.114,650.6 12,065.2Electric (kWh) 27.8 27.8 27.8 27.8 27.8 27.8 27.8 27.8 27.8 27.8 27.8 27.8 27.8Peak (kW) Bsu 2: Domestic Hot Water Load 1,399.2 1,663.2 1,478.4 1,605.1 684.6 661.8 711.9 1,478.4 1,605.1 1,536.5 15,860.21,547.0 1,489.0Proc. Hot Water (therms) 8.8 8.8 8.8 8.8 8.8 2.6 2.6 2.6 8.8 8.8 8.8 8.8 8.8Peak (therms/Hr) Cpl 1: Cooling plant - 001 [Sum of dsn coil capacities=506.4 tons] Hpl 1: Boiler Plant [Sum of dsn coil capacities=15,659 mbh] Boiler - 001 [Nominal Capacity/F.L.Rate=15,659 mbh / 195.7 Therms] (Heating Equipment) 10,901.3 12,831.9 6,286.7 4,925.8 858.0 827.2 963.5 3,278.5 5,883.8 11,529.2 91,465.215,516.2 17,663.2Oil (therms) 89.1 69.5 75.1 37.8 28.2 3.4 3.3 6.2 24.1 32.6 65.7 83.6 89.1Peak (therms/Hr) Heating water circ pump (Misc Accessory Equipment) 20,573.5 22,777.8 22,043.0 22,777.8 22,043.0 22,777.7 22,777.8 22,043.0 22,777.8 22,043.0 268,189.622,777.8 22,777.8Electric (kWh) 30.6 30.6 30.6 30.6 30.6 30.6 30.6 30.6 30.6 30.6 30.6 30.6 30.6Peak (kW) Boiler forced draft fan (Misc Accessory Equipment) 10,523.5 11,651.0 11,275.2 11,651.0 11,275.2 11,651.0 11,651.0 11,275.2 11,651.0 11,275.2 137,181.311,651.0 11,651.0Electric (kWh) 15.7 15.7 15.7 15.7 15.7 15.7 15.7 15.7 15.7 15.7 15.7 15.7 15.7Peak (kW) Cntl panel & interlocks - 0.5 KW (Misc Accessory Equipment) 336.0 372.0 360.0 372.0 360.0 372.0 372.0 360.0 372.0 360.0 4,380.0372.0 372.0Electric (kWh) 0.5 0.5 0.5 0.5 0.5 0.5 0.5 0.5 0.5 0.5 0.5 0.5 0.5Peak (kW) Project Name:TRACE® 700 v6.2.8 calculated at 09:58 AM on 05/21/2012West Valley High School - Energy Audit Dataset Name:WEST VALLEY HS.TRC Alternative - 3 Equipment Energy Consumption report page 9 of 16 EQUIPMENT ENERGY CONSUMPTION By RS Consulting Alternative: 3 Mods to SA01-02 OSA Dampers Jan Feb Mar Apr May June July Aug Sept Oct Nov Dec TotalEquipment-Utility -------Monthly Consumption ------- Hpl 1: Boiler Plant [Sum of dsn coil capacities=15,659 mbh] Fuel oil circulation pump (Misc Accessory Equipment) 11,817.9 13,084.1 12,662.0 13,084.1 12,662.0 13,084.1 13,084.1 12,662.0 13,084.1 12,662.0 154,054.813,084.1 13,084.1Electric (kWh) 17.6 17.6 17.6 17.6 17.6 17.6 17.6 17.6 17.6 17.6 17.6 17.6 17.6Peak (kW) Variable Volume Heating Water Pump (Misc Accessory Equipment) 1,348.4 1,556.8 607.7 521.3 201.5 197.1 202.0 394.3 520.2 1,416.5 11,382.72,019.4 2,397.4Electric (kWh) 14.2 9.8 11.1 4.9 4.1 0.7 0.7 0.7 3.8 4.1 9.1 13.3 14.2Peak (kW) Sys 1: SA22 - BLOCK B LOWER AF Centrifugal var freq drv [DsnAirflow/F.L.Rate=42,380 cfm / 35.59 kW] (Main Clg Fan) 1,847.6 2,170.9 1,923.6 1,979.9 1,099.2 1,392.1 1,238.1 1,941.4 1,985.1 2,023.2 26,258.63,584.6 5,073.1Electric (kWh) 8.3 8.3 8.3 8.8 10.3 14.7 19.9 13.7 26.3 8.3 8.3 8.2 26.3Peak (kW) Propeller fan [DsnAirflow/F.L.Rate=42,380 cfm / 11.77 kW] (System Exhaust Fan) 539.5 623.1 651.0 1,092.5 636.6 518.8 651.6 994.6 635.9 565.0 8,245.8627.9 709.4Electric (kWh) 3.4 3.4 3.4 3.4 4.3 3.4 3.4 4.4 5.1 3.4 3.4 3.2 5.1Peak (kW) Sys 10: CH BI Centrifugal const vol [DsnAirflow/F.L.Rate=11,140 cfm / 0.79 kW] (Main Htg Fan) 56.6 60.9 41.9 29.4 0.0 0.0 1.2 15.8 32.3 57.3 425.659.0 71.2Electric (kWh) 0.6 0.5 0.5 0.3 0.2 0.0 0.0 0.0 0.2 0.3 0.5 0.7 0.7Peak (kW) Sys 2: SA23 - BLOCK B UPPER AF Centrifugal var freq drv [DsnAirflow/F.L.Rate=30,895 cfm / 25.94 kW] (Main Clg Fan) 1,515.2 1,793.4 1,453.7 1,602.2 978.0 1,455.2 864.8 1,665.7 1,586.2 1,711.7 21,067.02,632.8 3,808.1Electric (kWh) 6.3 6.3 6.3 6.3 7.2 16.4 26.0 10.3 15.8 6.3 6.3 6.3 26.0Peak (kW) Propeller fan [DsnAirflow/F.L.Rate=30,895 cfm / 8.58 kW] (System Exhaust Fan) 465.2 563.1 556.2 803.6 445.4 372.8 417.2 781.5 562.1 517.5 6,571.2518.2 568.4Electric (kWh) 2.8 2.8 2.8 2.8 3.4 2.8 2.8 2.8 3.8 2.8 2.8 2.8 3.8Peak (kW) Sys 3: SA24 - COMMONS AF Centrifugal var freq drv [DsnAirflow/F.L.Rate=18,485 cfm / 15.52 kW] (Main Clg Fan) 756.8 841.8 700.3 800.6 318.4 553.9 675.6 1,160.4 752.8 884.3 10,548.51,295.3 1,808.4Electric (kWh) 2.8 2.8 2.8 6.4 6.9 2.9 15.6 15.6 15.6 5.6 2.8 2.8 15.6Peak (kW) Project Name:TRACE® 700 v6.2.8 calculated at 09:58 AM on 05/21/2012West Valley High School - Energy Audit Dataset Name:WEST VALLEY HS.TRC Alternative - 3 Equipment Energy Consumption report page 10 of 16 EQUIPMENT ENERGY CONSUMPTION By RS Consulting Alternative: 3 Mods to SA01-02 OSA Dampers Jan Feb Mar Apr May June July Aug Sept Oct Nov Dec TotalEquipment-Utility -------Monthly Consumption ------- Sys 3: SA24 - COMMONS Propeller fan [DsnAirflow/F.L.Rate=18,485 cfm / 5.13 kW] (System Exhaust Fan) 272.6 319.4 333.4 499.0 338.9 352.4 411.9 450.5 321.9 285.9 4,110.0267.9 256.4Electric (kWh) 1.9 1.9 1.9 1.9 2.8 1.9 5.1 5.1 2.7 1.9 1.9 1.6 5.1Peak (kW) Sys 4: SA30 - AUDITORIUM AF Centrifugal var freq drv [DsnAirflow/F.L.Rate=11,200 cfm / 9.58 kW] (Main Clg Fan) 752.0 879.7 713.8 803.8 437.6 503.2 457.2 809.2 780.2 826.8 8,850.4880.0 1,007.0Electric (kWh) 4.8 4.8 4.8 4.8 4.8 4.8 4.8 4.8 4.8 4.8 4.8 1.8 4.8Peak (kW) AF Centrifugal var freq drv [DsnAirflow/F.L.Rate=12,444 cfm / 7.60 kW] (Main Return Fan) 586.4 675.5 603.4 813.7 559.0 543.3 522.4 716.3 608.2 625.6 7,665.1651.3 760.0Electric (kWh) 3.3 3.4 3.3 3.4 3.7 3.9 3.8 3.7 3.4 3.4 3.3 1.6 3.9Peak (kW) Sys 5: SA31 - LOBBY AF Centrifugal var freq drv [DsnAirflow/F.L.Rate=7,600 cfm / 6.50 kW] (Main Clg Fan) 394.5 465.7 437.7 454.9 350.7 327.4 262.8 444.1 477.5 430.6 4,902.3413.3 443.1Electric (kWh) 3.6 5.1 4.7 5.7 5.7 5.7 5.9 5.7 5.9 5.7 5.2 5.7 5.9Peak (kW) FC Centrifugal const vol [DsnAirflow/F.L.Rate=1,200 cfm / 0.57 kW] (Room Exhaust Fan) 101.9 123.8 109.7 129.0 49.9 45.3 52.1 119.5 118.3 111.7 1,176.6110.4 105.0Electric (kWh) 0.6 0.6 0.6 0.6 0.6 0.6 0.6 0.6 0.6 0.6 0.6 0.6 0.6Peak (kW) AF Centrifugal var freq drv [DsnAirflow/F.L.Rate=7,919 cfm / 2.90 kW] (Main Return Fan) 170.6 199.5 194.1 222.0 181.7 163.0 139.1 203.8 204.2 183.4 2,219.4173.0 185.1Electric (kWh) 1.4 2.0 1.9 2.2 2.2 2.5 2.5 2.5 2.2 2.2 2.0 2.3 2.5Peak (kW) Sys 6: SA01 - BLOCK A AF Centrifugal vav/inlet v [DsnAirflow/F.L.Rate=82,330 cfm / 127.4 kW] (Main Clg Fan) 27,411.9 31,067.4 25,425.2 27,152.9 12,071.1 12,897.9 15,443.3 23,520.6 26,282.9 29,821.2 310,952.933,322.5 46,536.2Electric (kWh) 74.2 73.3 74.1 74.4 75.3 81.3 81.3 102.5 92.2 74.7 73.2 74.2 102.5Peak (kW) Sys 7: SA26 - AUX GYM AF Centrifugal var freq drv [DsnAirflow/F.L.Rate=9,100 cfm / 7.64 kW] (Main Clg Fan) 495.0 585.7 497.3 442.7 311.2 336.0 358.5 340.1 529.2 542.7 6,144.3712.0 994.0Electric (kWh) 1.6 1.6 1.6 1.6 1.6 4.1 4.3 2.8 1.6 1.6 1.6 1.6 4.3Peak (kW) Project Name:TRACE® 700 v6.2.8 calculated at 09:58 AM on 05/21/2012West Valley High School - Energy Audit Dataset Name:WEST VALLEY HS.TRC Alternative - 3 Equipment Energy Consumption report page 11 of 16 EQUIPMENT ENERGY CONSUMPTION By RS Consulting Alternative: 3 Mods to SA01-02 OSA Dampers Jan Feb Mar Apr May June July Aug Sept Oct Nov Dec TotalEquipment-Utility -------Monthly Consumption ------- Sys 7: SA26 - AUX GYM Propeller fan [DsnAirflow/F.L.Rate=9,100 cfm / 2.53 kW] (System Exhaust Fan) 92.0 105.8 114.7 189.0 194.4 177.5 189.5 145.2 103.0 93.7 1,566.581.9 80.0Electric (kWh) 0.7 0.7 0.7 0.7 0.7 1.8 1.9 1.1 0.8 0.7 0.7 0.5 1.9Peak (kW) Sys 8: SA09 - LOCKERS AF Centrifugal vav/inlet v [DsnAirflow/F.L.Rate=12,205 cfm / 12.60 kW] (Main Clg Fan) 2,191.9 2,591.8 2,234.9 2,391.6 1,920.8 1,772.9 1,978.9 2,030.1 2,422.4 2,322.1 26,911.62,537.3 2,516.9Electric (kWh) 7.8 7.8 7.8 7.8 7.8 10.6 10.8 8.7 11.1 7.8 7.8 7.8 11.1Peak (kW) BI Centrifugal const vol [DsnAirflow/F.L.Rate=3,000 cfm / 1.07 kW] (Room Exhaust Fan) 36.3 45.0 62.5 102.8 19.4 16.9 56.3 115.3 71.4 40.1 630.433.7 30.8Electric (kWh) 0.2 0.3 0.3 0.5 0.9 0.2 0.2 1.1 1.1 0.5 0.3 0.2 1.1Peak (kW) Propeller fan [DsnAirflow/F.L.Rate=12,205 cfm / 3.49 kW] (System Exhaust Fan) 58.4 67.3 103.2 186.3 258.5 216.6 228.4 189.4 102.5 59.4 1,557.744.9 42.7Electric (kWh) 0.5 0.6 0.6 1.0 1.5 2.8 2.8 2.2 2.1 1.0 0.6 0.4 2.8Peak (kW) Sys 9: SA06 - GYM AF Centrifugal const vol [DsnAirflow/F.L.Rate=34,110 cfm / 26.53 kW] (Main Clg Fan) 6,340.7 7,348.8 5,783.5 5,704.0 4,416.6 4,355.7 4,695.8 5,977.2 5,783.5 6,844.7 83,886.711,010.0 15,626.2Electric (kWh) 26.5 26.5 26.5 26.5 26.5 26.5 26.5 26.5 26.5 26.5 26.5 26.5 26.5Peak (kW) Propeller fan [DsnAirflow/F.L.Rate=36,115 cfm / 10.03 kW] (Main Return Fan) 2,323.8 2,683.7 2,165.5 2,290.2 1,831.0 1,749.4 1,882.9 2,285.2 2,122.6 2,491.7 31,382.43,951.5 5,604.9Electric (kWh) 10.0 10.0 10.0 10.0 10.0 10.0 10.0 10.0 10.0 10.0 10.0 10.0 10.0Peak (kW) Project Name:TRACE® 700 v6.2.8 calculated at 09:58 AM on 05/21/2012West Valley High School - Energy Audit Dataset Name:WEST VALLEY HS.TRC Alternative - 3 Equipment Energy Consumption report page 12 of 16 EQUIPMENT ENERGY CONSUMPTION By RS Consulting Alternative: 4 VSD on SA01-02 and SA09 Jan Feb Mar Apr May June July Aug Sept Oct Nov Dec TotalEquipment-Utility -------Monthly Consumption ------- Lights 37,780.0 45,733.7 39,768.4 43,745.3 22,419.5 20,381.3 23,438.5 39,768.4 43,745.3 41,756.8 440,062.341,756.8 39,768.4Electric (kWh) 248.6 248.6 248.6 248.6 248.6 248.6 248.6 248.6 248.6 248.6 248.6 248.6 248.6Peak (kW) Misc. Ld 25,152.4 30,447.7 26,476.3 29,123.9 2,051.0 1,864.5 2,144.2 26,476.3 29,123.9 27,800.1 254,936.527,800.1 26,476.3Electric (kWh) 186.5 186.5 186.5 186.5 186.5 186.5 186.5 186.5 186.5 186.5 186.5 186.5 186.5Peak (kW) Cooling Coil Condensate 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.20.0 0.0Recoverable Water (1000gal) Bsu 1: Parking lot lights 13,232.8 14,650.6 7,506.0 7,756.2 7,506.0 7,756.2 7,756.2 7,506.0 12,065.2 11,676.0 124,127.114,650.6 12,065.2Electric (kWh) 27.8 27.8 27.8 27.8 27.8 27.8 27.8 27.8 27.8 27.8 27.8 27.8 27.8Peak (kW) Bsu 2: Domestic Hot Water Load 1,399.2 1,663.2 1,478.4 1,605.1 684.6 661.8 711.9 1,478.4 1,605.1 1,536.5 15,860.21,547.0 1,489.0Proc. Hot Water (therms) 8.8 8.8 8.8 8.8 8.8 2.6 2.6 2.6 8.8 8.8 8.8 8.8 8.8Peak (therms/Hr) Cpl 1: Cooling plant - 001 [Sum of dsn coil capacities=503.5 tons] Hpl 1: Boiler Plant [Sum of dsn coil capacities=15,651 mbh] Boiler - 001 [Nominal Capacity/F.L.Rate=15,651 mbh / 195.6 Therms] (Heating Equipment) 10,934.2 12,867.7 6,317.7 4,939.7 858.0 827.2 963.9 3,295.2 5,916.9 11,565.3 91,788.115,570.5 17,732.0Oil (therms) 89.3 69.6 75.2 37.9 28.3 3.4 3.3 6.2 24.2 32.7 65.8 83.7 89.3Peak (therms/Hr) Heating water circ pump (Misc Accessory Equipment) 20,562.6 22,765.7 22,031.3 22,765.7 22,031.3 22,765.7 22,765.7 22,031.3 22,765.7 22,031.4 268,048.022,765.7 22,765.7Electric (kWh) 30.6 30.6 30.6 30.6 30.6 30.6 30.6 30.6 30.6 30.6 30.6 30.6 30.6Peak (kW) Boiler forced draft fan (Misc Accessory Equipment) 10,518.0 11,644.9 11,269.2 11,644.9 11,269.2 11,644.9 11,644.9 11,269.2 11,644.9 11,269.2 137,108.811,644.9 11,644.9Electric (kWh) 15.7 15.7 15.7 15.7 15.7 15.7 15.7 15.7 15.7 15.7 15.7 15.7 15.7Peak (kW) Cntl panel & interlocks - 0.5 KW (Misc Accessory Equipment) 336.0 372.0 360.0 372.0 360.0 372.0 372.0 360.0 372.0 360.0 4,380.0372.0 372.0Electric (kWh) 0.5 0.5 0.5 0.5 0.5 0.5 0.5 0.5 0.5 0.5 0.5 0.5 0.5Peak (kW) Project Name:TRACE® 700 v6.2.8 calculated at 09:58 AM on 05/21/2012West Valley High School - Energy Audit Dataset Name:WEST VALLEY HS.TRC Alternative - 4 Equipment Energy Consumption report page 13 of 16 EQUIPMENT ENERGY CONSUMPTION By RS Consulting Alternative: 4 VSD on SA01-02 and SA09 Jan Feb Mar Apr May June July Aug Sept Oct Nov Dec TotalEquipment-Utility -------Monthly Consumption ------- Hpl 1: Boiler Plant [Sum of dsn coil capacities=15,651 mbh] Fuel oil circulation pump (Misc Accessory Equipment) 11,811.6 13,077.2 12,655.3 13,077.2 12,655.4 13,077.2 13,077.2 12,655.3 13,077.2 12,655.3 153,973.213,077.2 13,077.2Electric (kWh) 17.6 17.6 17.6 17.6 17.6 17.6 17.6 17.6 17.6 17.6 17.6 17.6 17.6Peak (kW) Variable Volume Heating Water Pump (Misc Accessory Equipment) 1,353.3 1,562.0 611.5 522.0 201.5 197.1 202.0 396.3 523.3 1,421.8 11,425.92,027.3 2,407.7Electric (kWh) 14.3 9.9 11.1 4.9 4.1 0.7 0.7 0.7 3.8 4.1 9.1 13.3 14.3Peak (kW) Sys 1: SA22 - BLOCK B LOWER AF Centrifugal var freq drv [DsnAirflow/F.L.Rate=42,380 cfm / 35.59 kW] (Main Clg Fan) 1,847.6 2,170.9 1,923.6 1,979.9 1,099.2 1,392.1 1,238.1 1,941.4 1,985.1 2,023.2 26,258.63,584.6 5,073.1Electric (kWh) 8.3 8.3 8.3 8.8 10.3 14.7 19.9 13.7 26.3 8.3 8.3 8.2 26.3Peak (kW) Propeller fan [DsnAirflow/F.L.Rate=42,380 cfm / 11.77 kW] (System Exhaust Fan) 539.5 623.1 651.0 1,092.5 636.6 518.8 651.6 994.6 635.9 565.0 8,245.8627.9 709.4Electric (kWh) 3.4 3.4 3.4 3.4 4.3 3.4 3.4 4.4 5.1 3.4 3.4 3.2 5.1Peak (kW) Sys 10: CH BI Centrifugal const vol [DsnAirflow/F.L.Rate=11,140 cfm / 0.79 kW] (Main Htg Fan) 56.6 60.9 41.9 29.4 0.0 0.0 1.2 15.8 32.3 57.3 425.659.0 71.2Electric (kWh) 0.6 0.5 0.5 0.3 0.2 0.0 0.0 0.0 0.2 0.3 0.5 0.7 0.7Peak (kW) Sys 2: SA23 - BLOCK B UPPER AF Centrifugal var freq drv [DsnAirflow/F.L.Rate=30,895 cfm / 25.94 kW] (Main Clg Fan) 1,515.2 1,793.4 1,453.7 1,602.2 978.0 1,455.2 864.8 1,665.7 1,586.2 1,711.7 21,067.02,632.8 3,808.1Electric (kWh) 6.3 6.3 6.3 6.3 7.2 16.4 26.0 10.3 15.8 6.3 6.3 6.3 26.0Peak (kW) Propeller fan [DsnAirflow/F.L.Rate=30,895 cfm / 8.58 kW] (System Exhaust Fan) 465.2 563.1 556.2 803.6 445.4 372.8 417.2 781.5 562.1 517.5 6,571.2518.2 568.4Electric (kWh) 2.8 2.8 2.8 2.8 3.4 2.8 2.8 2.8 3.8 2.8 2.8 2.8 3.8Peak (kW) Sys 3: SA24 - COMMONS AF Centrifugal var freq drv [DsnAirflow/F.L.Rate=18,485 cfm / 15.52 kW] (Main Clg Fan) 756.8 841.8 700.3 800.6 318.4 553.9 675.6 1,160.4 752.8 884.3 10,548.51,295.3 1,808.4Electric (kWh) 2.8 2.8 2.8 6.4 6.9 2.9 15.6 15.6 15.6 5.6 2.8 2.8 15.6Peak (kW) Project Name:TRACE® 700 v6.2.8 calculated at 09:58 AM on 05/21/2012West Valley High School - Energy Audit Dataset Name:WEST VALLEY HS.TRC Alternative - 4 Equipment Energy Consumption report page 14 of 16 EQUIPMENT ENERGY CONSUMPTION By RS Consulting Alternative: 4 VSD on SA01-02 and SA09 Jan Feb Mar Apr May June July Aug Sept Oct Nov Dec TotalEquipment-Utility -------Monthly Consumption ------- Sys 3: SA24 - COMMONS Propeller fan [DsnAirflow/F.L.Rate=18,485 cfm / 5.13 kW] (System Exhaust Fan) 272.6 319.4 333.4 499.0 338.9 352.4 411.9 450.5 321.9 285.9 4,110.0267.9 256.4Electric (kWh) 1.9 1.9 1.9 1.9 2.8 1.9 5.1 5.1 2.7 1.9 1.9 1.6 5.1Peak (kW) Sys 4: SA30 - AUDITORIUM AF Centrifugal var freq drv [DsnAirflow/F.L.Rate=11,200 cfm / 9.58 kW] (Main Clg Fan) 752.0 879.7 713.8 803.8 437.6 503.2 457.2 809.2 780.2 826.8 8,850.4880.0 1,007.0Electric (kWh) 4.8 4.8 4.8 4.8 4.8 4.8 4.8 4.8 4.8 4.8 4.8 1.8 4.8Peak (kW) AF Centrifugal var freq drv [DsnAirflow/F.L.Rate=12,444 cfm / 7.60 kW] (Main Return Fan) 586.4 675.5 603.4 813.7 559.0 543.3 522.4 716.3 608.2 625.6 7,665.1651.3 760.0Electric (kWh) 3.3 3.4 3.3 3.4 3.7 3.9 3.8 3.7 3.4 3.4 3.3 1.6 3.9Peak (kW) Sys 5: SA31 - LOBBY AF Centrifugal var freq drv [DsnAirflow/F.L.Rate=7,600 cfm / 6.50 kW] (Main Clg Fan) 394.5 465.7 437.7 454.9 350.7 327.4 262.8 444.1 477.5 430.6 4,902.3413.3 443.1Electric (kWh) 3.6 5.1 4.7 5.7 5.7 5.7 5.9 5.7 5.9 5.7 5.2 5.7 5.9Peak (kW) FC Centrifugal const vol [DsnAirflow/F.L.Rate=1,200 cfm / 0.57 kW] (Room Exhaust Fan) 101.9 123.8 109.7 129.0 49.9 45.3 52.1 119.5 118.3 111.7 1,176.6110.4 105.0Electric (kWh) 0.6 0.6 0.6 0.6 0.6 0.6 0.6 0.6 0.6 0.6 0.6 0.6 0.6Peak (kW) AF Centrifugal var freq drv [DsnAirflow/F.L.Rate=7,919 cfm / 2.90 kW] (Main Return Fan) 170.6 199.5 194.1 222.0 181.7 163.0 139.1 203.8 204.2 183.4 2,219.4173.0 185.1Electric (kWh) 1.4 2.0 1.9 2.2 2.2 2.5 2.5 2.5 2.2 2.2 2.0 2.3 2.5Peak (kW) Sys 6: SA01 - BLOCK A AF Centrifugal var freq drv [DsnAirflow/F.L.Rate=82,330 cfm / 100.6 kW] (Main Clg Fan) 8,136.3 9,294.1 7,666.8 8,207.5 3,847.5 4,575.9 6,158.2 7,183.4 8,130.1 8,845.5 97,875.610,763.8 15,066.5Electric (kWh) 26.7 24.4 26.6 27.3 29.5 42.3 56.3 73.4 65.0 27.9 24.4 26.8 73.4Peak (kW) Sys 7: SA26 - AUX GYM AF Centrifugal var freq drv [DsnAirflow/F.L.Rate=9,100 cfm / 7.64 kW] (Main Clg Fan) 495.0 585.7 497.3 442.7 311.2 336.0 358.5 340.1 529.2 542.7 6,144.3712.0 994.0Electric (kWh) 1.6 1.6 1.6 1.6 1.6 4.1 4.3 2.8 1.6 1.6 1.6 1.6 4.3Peak (kW) Project Name:TRACE® 700 v6.2.8 calculated at 09:58 AM on 05/21/2012West Valley High School - Energy Audit Dataset Name:WEST VALLEY HS.TRC Alternative - 4 Equipment Energy Consumption report page 15 of 16 EQUIPMENT ENERGY CONSUMPTION By RS Consulting Alternative: 4 VSD on SA01-02 and SA09 Jan Feb Mar Apr May June July Aug Sept Oct Nov Dec TotalEquipment-Utility -------Monthly Consumption ------- Sys 7: SA26 - AUX GYM Propeller fan [DsnAirflow/F.L.Rate=9,100 cfm / 2.53 kW] (System Exhaust Fan) 92.0 105.8 114.7 189.0 194.4 177.5 189.5 145.2 103.0 93.7 1,566.581.9 80.0Electric (kWh) 0.7 0.7 0.7 0.7 0.7 1.8 1.9 1.1 0.8 0.7 0.7 0.5 1.9Peak (kW) Sys 8: SA09 - LOCKERS AF Centrifugal var freq drv [DsnAirflow/F.L.Rate=12,205 cfm / 9.94 kW] (Main Clg Fan) 1,018.5 1,201.8 1,008.3 1,081.8 872.3 850.7 803.9 971.3 1,090.0 1,076.5 12,232.11,140.5 1,116.6Electric (kWh) 3.7 3.7 3.7 3.7 3.7 6.9 7.6 5.2 8.4 3.7 3.7 3.7 8.4Peak (kW) BI Centrifugal const vol [DsnAirflow/F.L.Rate=3,000 cfm / 1.07 kW] (Room Exhaust Fan) 36.0 44.6 61.8 101.6 19.4 16.9 56.0 113.6 70.5 39.6 624.433.7 30.8Electric (kWh) 0.2 0.3 0.3 0.5 0.8 0.2 0.2 1.1 1.1 0.5 0.3 0.2 1.1Peak (kW) Propeller fan [DsnAirflow/F.L.Rate=12,205 cfm / 3.49 kW] (System Exhaust Fan) 57.9 66.7 102.1 184.7 240.4 214.3 224.9 186.9 101.2 58.8 1,525.144.7 42.6Electric (kWh) 0.5 0.6 0.6 1.0 1.5 2.6 2.7 2.2 2.0 0.9 0.6 0.4 2.7Peak (kW) Sys 9: SA06 - GYM AF Centrifugal const vol [DsnAirflow/F.L.Rate=34,110 cfm / 26.53 kW] (Main Clg Fan) 6,340.7 7,348.8 5,783.5 5,704.0 4,416.6 4,355.7 4,695.8 5,977.2 5,783.5 6,844.7 83,886.711,010.0 15,626.2Electric (kWh) 26.5 26.5 26.5 26.5 26.5 26.5 26.5 26.5 26.5 26.5 26.5 26.5 26.5Peak (kW) Propeller fan [DsnAirflow/F.L.Rate=36,115 cfm / 10.03 kW] (Main Return Fan) 2,323.8 2,683.7 2,165.5 2,290.2 1,831.0 1,749.4 1,882.9 2,285.2 2,122.6 2,491.7 31,382.43,951.5 5,604.9Electric (kWh) 10.0 10.0 10.0 10.0 10.0 10.0 10.0 10.0 10.0 10.0 10.0 10.0 10.0Peak (kW) Project Name:TRACE® 700 v6.2.8 calculated at 09:58 AM on 05/21/2012West Valley High School - Energy Audit Dataset Name:WEST VALLEY HS.TRC Alternative - 4 Equipment Energy Consumption report page 16 of 16 APPENDIX I –TREND LOG INFORMATION 0.0% 10.0% 20.0% 30.0% 40.0% 50.0% 60.0% 70.0% 0 10 20 30 40 50 60 70 80 OAT MAT RAT PHT OA % WEST VALLEY HS -SUPPLY FAN 01/02 -FRIDAY JAN 13 THRU SUN JAN 15, T E M P E R A T U R E OSA % remains at 30% Return Air Temp Mixed Air Temp PreheatCoil Discharge Temp -50.0% -40.0% -30.0% -20.0% -10.0% 0.0% -50 -40 -30 -20 -10 0 05:4006:5008:0009:1010:2011:3012:4013:5015:0016:1017:2018:3019:4020:5022:0023:1000:2001:3002:4003:5005:0006:1007:2008:3009:4010:5012:0013:1014:2015:3016:4017:5019:0020:1021:2022:3023:4000:5002:00OA % D E G F Outside Air Temp 145 150 155 160 165 170 175 WEST VALLEY HS HEATINGWATER SYSTEM -MONDAY JAN 16 VERY STABLE OPERATIONDURING OCCUPIEDHOURS HEATING WATER SUPPLY HEATING WATER RETURN TEMP 120 125 130 135 140 00:0000:3001:0001:3002:0002:3003:0003:3004:0004:3005:0005:3006:0006:3007:0007:3008:0008:3009:0009:3010:0010:3011:0011:3012:0012:3013:0013:3014:0014:3015:0015:3016:0016:3017:0017:3018:0018:3019:0019:3020:0020:3021:0021:3022:0022:3023:0023:30 APPENDIX J –FLOOR PLANS