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Home My WebLink AboutASRC-BRW-RSA DLt Duty 2012-EERichard S. Armstrong, PE, LLC Mechanical/Electrical Engineer Comprehensive Energy Audit of Barrow Light Duty Shop 3427 C Street Project # ASRC$BRW$RSA$03D Prepared for: The North Slope Borough Department of Public Works September 9, 2011 Prepared by: Richard S. Armstrong, PE, LLC 2321 Merrill Field Drive, C$6 Anchorage, Ak 99501 Barrow Light Duty Maintenance Shop Comprehensive Energy Audit 2 TABLE OF CONTENTS 1. Executive Summary 4 2. Audit and Analysis Background 7 3. Acknowledgements 9 4. Building Description & Function 10 5. Historic Energy Consumption 11 6. Energy Efficiency Measures Considered 12 7. Interactive Effects of Projects 12 8. Loan Program 13 Attachments: AkWarm6C Report Building, lighting, Mechanical Plan Submitted by: _______________________________ Richard S. Armstrong, PE, CEM, CEA Date:__________________________ Barrow Light Duty Maintenance Shop Comprehensive Energy Audit 3 REPORT DISCLAIMERS The information contained in this report, including any attachments, is intended solely for use by the building owner and the AHFC. No others are authorized to disclose, copy, distribute or retain this report, in whole or part, without written authorization from Richard S. Armstrong, PE, LLC, 2321 Merrill Field Drive, C$6, Anchorage, Ak 99501. Additionally, this report contains recommendations that, in the opinion of the auditor, will cause the owner to realize energy savings over time. All recommendations must be designed by a registered engineer, licensed in the State of Alaska, in the appropriate discipline. Lighting recommendations should all be first reviewed by running a lighting analysis to assure that the recommended lighting upgrades will comply with State of Alaska Statue as well as IES recommendations. Payback periods may well vary from those forecast due to the uncertainty of the final installed design, configuration, equipment selected, and installation costs of recommended Energy Efficiency Measures (EEMs), or the operating schedules and maintenance provided by the owner. Furthermore, EEMs are typically interactive, so implementation of one EEM may impact the cost savings from another EEM. Neither the auditor, Richard S. Armstrong, PE, LLC, AHFC, or others involved in preparation of this report will accept liability for financial loss due to EEMs that fail to meet the forecasted payback periods. This audit meets the criteria of an Investment Grade Audit (IGA) per the Association of Energy Engineers definition, and is valid for one year. The life of the IGA may be extended on a case$by$case basis, at the discretion of the AHFC. IGSs are the property of the State, and may be incorporated into AkWarm$ C, the Alaska Energy Data Inventory (ARIS), or other state and/or public information system Barrow Light Duty Maintenance Shop Comprehensive Energy Audit 4 Investment Grade Energy Audit Barrow Light Duty Maintenance Shop 1. Executive Summary: The Barrow Light Duty Maintenance Shop is estimated to have been originally constructed in 1983, but it underwent a ventilation and heating upgrade in 1994 based on plans for the remodel/addition project. The facility contains five Light Duty repair bays, 2 offices, a break room, as well as mezzanine storage. See plans attached. The building is in generally good condition. The 2010 annual utility energy consumption reported by BUECI for this building is displayed in Table 1 below. This data is different from the data presented by Nortech because they combined all four shop buildings, whereas this data represents the actual gas consumption for the Light Duty Shop on 3427 C Street with the Warehouse on 3425 C Street since both are on the same gas meter. There are separate electric meters, so the electric data is for this building only. Table 1 2010 2010 Utility Consumption Cost/Year Electricity$kWh 188,640 $20,163 Natural Gas$CCF Combined Heavy Shop and Warehouse 43,268 $13,293 Ttl Energy Costs $33,456 A benchmark measure of energy use relative to other similar function buildings in the area is the Energy Use Index (EUI), which takes the total annual energy used by the facility divided by the square footage area of the building, for a value expressed in terms of kBTU/SF. This number can then be compared to other buildings to see if it is about average, higher or lower than similar buildings in the area. Likewise, the Energy Cost Index (ECI) is the cost of all energy used by the building expressed in $/SF of building area. The comparative values for the subject building are listed in Table 2 below: Barrow Light Duty Maintenance Shop Comprehensive Energy Audit 5 Table 2 Light Duty Maintenance Shop & whse Barrow Avg Fire Station #1 Energy Use Index (EUI) kBTU/SF Avg 2009, 2010 379 211 207 Energy Cost Index (ECI) Average 2009, 2010 $3.15 $1.68 $1.92 The natural gas consumption is very high, but it is believed that the use of a gas fired “Hotsy” is the reason for the high consumption. This supposition is confirmed by the very high water consumption during summer months when equipment washing would occur using hot water generated by the “Hotsy”. Various Energy Efficiency Measures (EEMs) have been analyzed for this building to determine if they would be applicable for energy savings with reasonably good payback periods. Those EEMs that have a savings to investment ration (SIR) of >1 (sometimes less if still justified in the eyes of the auditor), or those that are recommended for code compliance, life cycle replacement, or other reasons are also included. Also, where a lighting upgrade is recommended from T$12 lamps with magnetic ballasts to T$8 lamps with electronic ballasts, then the entire facility should be re$lamped and re$ballasted to maintain a standard lighting parts inventory, regardless of the payback. For example, a storage room that is infrequently used may not show a very good payback for a lighting upgrade, but consistency dictates a total upgrade. Specific EEMs recommended for this facility are detailed in the attached AkWarm Energy Audit Report along with specific payback times, as well as estimated installation costs and estimated energy savings. The higher priority items are summarized below: a. Flourescent Lighting Upgrades: In general, all of the T$12 flourescent lamps, and all of the magnetic ballasts throughout the building should be replaced with new T$8 lamps with electronic ballasts. Typical savings in power consumption varies 10$30% with this upgrade. Barrow Light Duty Maintenance Shop Comprehensive Energy Audit 6 b. Lighting Control Upgrades: Many lights were found to be left on with nobody in the space. Occupant controls can sense the presence of workers, and turn the lights on. The controller can then turn the lights off after a programmed time period of no occupancy. These controls can reduce total kWh consumption for the lighting in the order of 30$ 90%, depending on the amount of time the lights are manually left on. c. Shop Lighting Upgrades: The shops are lit with high intensity discharge 500 watt metal halide lights, 15 fixtures. It is recommended that all fixtures be replaced with new 6$ lamp high output fluorescent t$5 fixtures that can be switched with occupancy sensors. While the power consumption may rise slightly, the on time will be reduced, which would result in an overall shop lighting energy reduction of about 23%. Furthermore, the metal halide lamps have a very bad depreciation factor, meaning they continually put out less light so fixture replacement will provide a noticeable upgrade in overall lighting. d. Exterior Lighting Upgrades: The exterior high pressure sodium lights operate during periods of darkness, which is about half of a year. It is estimated that the use of LED exterior lights can reduce the power consumption by 60%. e. Setback Thermostats in all spaces: The thermostats were found to be set to 72 degrees F, 24/7. It is recommended that lockable setback thermostats be installed and programmed for occupied temperatures of 72 deg F, and unoccupied temperatures of 60 deg F. This has an estimated payback of 0.1 years for the building, f. Ventilation: It is recommended that six destratification fans be installed in the shop to put the heat down on the floor level and reduce heating stratification near the ceiling. The estimated payback for theis is 14.5 years. In addition to EEMs, various Energy Conservation Measures (ECMs) are recommended since they are policies or procedures that are followed by management and employees that require no capital outlay. Examples of recommended ECMs for this facility include: • Turn off lights when leaving a room that is not controlled by an occupancy sensor that automatically turns off lights. Barrow Light Duty Maintenance Shop Comprehensive Energy Audit 7 • Turn off computers, monitors, printers, faxes, coffee makers, etc when leaving the office for the day. • Keep overhead doors closed except when they are required to be open for movement of vehicles. The 13 priority recommendations in the detailed report are estimated to save $22,105/year, with an installed cost of $80,337, for a 3.6 year payback. This does not include design or CA services, but overall it does indicate a cost effective energy savings program. 2. Audit and Analysis Background: a. Program Description: This audit included services to identify, develop, and evaluate energy efficiency measures at the subject building. The scope of this project included evaluating the building shell, lighting, other electrical systems, and heating, ventilating, and air conditioning (HVAC) equipment. Measures were selected such that an overall simple payback period of 8 years or less could be achieved. b. Audit Description and Methodology: Preliminary audit information was gathered in preparation for the site survey, including benchmark utility consumption data, floor and lighting plans, and equipment schedules where available. A site visit is then performed to inventory and evaluate the actual building condition, including: i. Building envelope (roof, windows, etc) ii. Heating, ventilating, and air conditioning iii. Lighting systems and controls iv. Building specific equipment v. Plumbing systems c. Method of Analysis: The information gathered prior to the site visit and at the site visit is entered into AkWarm$C, an energy modeling developed for Alaska Housing Finance Corporation (AHFC) specifically to identify forecasted energy consumption which can be compared to actual energy consumption. AkWarm$C also has some pre$programmed EEM retrofit options that can be analyzed with energy savings forecasted based on occupancy schedules, utility rates, building Barrow Light Duty Maintenance Shop Comprehensive Energy Audit 8 construction type, building function, existing conditions, and climatic data that is already uploaded to the program based on the zip code of the building. When new equipment is proposed, energy consumption is calculated based on manufacturer’s cataloged information. Cost savings are calculated based on the historical energy costs for the building. Installation costs include labor and equipment to estimate the full up$front investment required to implement a change, but design and construction management costs are excluded. Costs are derived from Means Cost Data, industry publications, experience of the auditor, local contractors and equipment suppliers. Haakensen Electric was consulted for some of the lighting retrofit costs. Maintenance savings are calculated were applicable and are added to the energy savings for each EEM. The cost and savings are applied and a simple payback and simple return on investment (ROI) is calculated. The simple payback is based on the number of years that it takes for the savings to pay back the net installation cost (Net Installation divided by Net Savings.) A simple life$time calculation is shown for each EEM. The life$ time for each EEM is estimated based on the typical life of the equipment being replaced or altered. The energy savings is extrapolated throughout the life$time of the EEM. The total energy savings is calculated as the total life$time multiplied by the yearly savings. d. Limitations of the Study: All results are dependent on the quality of input data provided, and can only act as an approximation. In some instances, several methods may achieve the identified savings. This report is not intended as a final design document. A design professional, licensed to practice in Alaska and in the appropriate discipline, who is following the recommendations, shall accept full responsibility and liability for the results. Budgetary estimates for engineering and design of these projects in not included in the Barrow Light Duty Maintenance Shop Comprehensive Energy Audit 9 cost estimate for each measure, but these costs generally run around 15% of the cost of the work. 3. Acknowledgements: We wish to acknowledge the help of numerous individuals who have contributed information that was used to prepare this report, including: a. Alaska Housing Finance Corporation (Grantor): AHFC provided the grant funds, contracting agreements, guidelines, and technical direction for providing the audits. AHFC reviewed and approved the final short list of buildings to be audited based on the recommendation of the Technical Service Provider (TSP). b. North Slope Borough (Owner): The NSB provided building sizing information, two years energy billing data, building schedules and functions, as well as building age. c. Nortech Engineering (Benchmark TSP): Nortech Engineering compiled the data received from the NSB and entered that data into the statewide building database, called the Alaska Retrofit Information System (ARIS). d. Richard S. Armstrong, PE, LLC (Audit TSP): This is the TSP who was awarded the projects in the Arctic Slope Regional Corporation, Bering Straits area, and the Nana area. The firm gathered all relevant benchmark information provided to them by Nortech, cataloged which buildings would have the greatest potential payback, and prioritized buildings to be audited based on numerous factors, including the Energy Use Index (EUI), the Energy Cost Index (ECI), the age of the building, the size of the building, the location of the building, the function of the building, and the availability of plans for the building. They also trained their selected sub$contracted auditors, assigned auditors to the selected buildings, and performed quality control reviews of the resulting audits. They prepared a listing of potential EEMs that each auditor must consider, as well as the potential EEMs that the individual auditor may notice in the course of his audit. Richard S. Barrow Light Duty Maintenance Shop Comprehensive Energy Audit 10 Armstrong, PE, LLC also performed some of the audits to assure current knowledge of existing conditions. 4. Building Description and Function: The subject building is called the Barrow Light Duty Maintenance Shop. It was originally constructed in 1983, and had a remodel constructed in 1994. The building has one story, with a mezzanine on one side and at the rear. a. Heating System: The building heating system consists of two Weil McLain 1,084 MBH cast iron gas fired boilers. The boilers provide heat to five vertical unit heaters, baseboard in the offices, and air handlers. Hydronic circulation is maintained with Grundfos UPS 50$42/F circulators, 1,700 watts each at speed 3. b. Ventilation System: There are large exhaust fans, air handlers, and gas make up air heaters in the building to provide ventilation. A specialty carbon monoxide fan provides exhaust for products of combustion when vehicles are operated for tune$up. Barrow Light Duty Maintenance Shop Comprehensive Energy Audit 11 c. Plumbing System: Toilets with lavs are provided for the workers. d. Domestic Hot: How water is generated using a 40 gallon electric hot water heater. e. Lighting: Typical lighting throughout the building is comprised of T$12 fluorescent fixtures, using magnetic ballasts. Exterior lighting utilizes 250 watt high pressure sodium (HPS) wall packs, in addition to existing lighting on the older section. f. Windows: The building has been retrofitted using new double pane vinyl clad windows, which appear to be in good condition. g. Insulation: The walls and ceilings are insulated with R$19 batt insulation. It is recommended that a second layer of R$19 fiberglass insulation be installed in the attic. Even though this has a SIR ratio of only 0.31 years, if the cost of gas goes up, this will have a better payback. 5. Historic Energy Consumption: Energy consumption is modeled within the AkWarm$C program. The program only analyzes 12 months of data, so where 24 months of data are available, the data is averaged and input to AkWarm$C to provide more accuracy. The energy consumption data is presented and graphed in the attached AkWarm$C program results. Energy consumption was analyzed using two factors: the Energy Cost Index (ECI) and the Energy Use Index (ECU). The energy cost index takes the average cost of gas and electrical energy over the surveyed period of time (typically 2 years) and averages the cost, divided by the square footage of the building. The energy use index (ECU) is the total average electrical and heating energy consumption per year expressed in thousands of BTUs/SF. Barrow Light Duty Maintenance Shop Comprehensive Energy Audit 12 The average EUI for all buildings in Barrow that were surveyed is 211 kbtu/sf, and the EUI all four of the C Street Shops is 162 kbtu/sf, compared to 175 for Fire Station #2. 6. Energy Efficiency Measures considered or recommended: The building was examined for application of a multitude of potential EEMs that are discussed below. Those EEMs that appear to have an application for the subject building are further analyzed for estimated payback periods, either within the AkWarm$C program or separately within this report. The accuracy of the cost estimates and paybacks varies significantly due to a multitude of conditions, but is estimated to be approximately +/$ 25%. Assumptions made regarding energy costs and the life of the EEM, noting that post$ construction measurement and verification are based on energy savings, not energy cost savings. Many of the selected EEMs are analyzed within the AkWarm$C program using the schedules and estimated costs input into the model. 7. Interactive Effects of Projects: The AkWarm$C program calculates savings assuming that all recommended EEM are implemented. If some EEMs are not implemented, savings for the remaining EEMs will be affected, in some cases positively, and in others, negatively. For example, if the fan motors are not replaced with premium efficiency motors, then the savings for the project to install variable speed drives (VFDs) on the fans will be increased. In general, all projects were evaluated sequentially so that energy savings associated with one EEM would not be attributed to another EEM as well. For example, the night setback EEM was analyzed using the fan and heating load profile that will be achieved after installation of the VFD project is completed. By modeling the recommended projects sequentially, the analysis accounts for interactive effects between the EEMs and does not “double count” savings. Interior lighting, plug loads, facility equipment, and occupants generate heat within the building. When the building is in cooling mode, these contribute to the overall cooling demands of the Barrow Light Duty Maintenance Shop Comprehensive Energy Audit 13 building; therefore lighting efficiency improvements will reduce cooling requirements on air conditioned buildings. Conversely, lighting efficiency improvements are anticipated to increase heating requirements slightly. Heating penalties are included in the lighting project analysis that is performed by AkWarm$C. 8. Loan Program: The Alaska Housing Finance Corporation (AHFC) Alaska Energy Efficiency Revolving Loan Fund (AEERLF) is a State of Alaska program enacted by the Alaska Sustainable Energy Act (senate Bill 220, A.S. 18.56.855, “Energy Efficiency Revolving Loan Fund). The AEERLF will provide loans for energy efficiency retrofits to public facilities via the Retrofit Energy Assessment for Loan System (REAL). As defined in 15 AAC 155.605, the program may finance energy efficiency improvements to buildings owned by: a. Regional educational attendance areas; b. Municipal governments, including political subdivisions of municipal governments; c. The University of Alaska; d. Political subdivisions of the State of Alaska, or e. The State of Alaska Native corporations, tribal entities, and subsidiaries of the federal government are not eligible for loans under this program. Barrow Light Duty Maintenance Shop Comprehensive Energy Audit 14 Attachments: AkWarm6C Report Building Plan Energy Audit – Energy Analysis and Cost Comparison AkWarm Commercial Audit Software NSB Light Equipment Shop Page 1 ENERGY AUDIT REPORT – PROJECT SUMMARY – Created 9/6/2011 2:46 PM General Project Information PROJECT INFORMATION AUDITOR INFORMATION Building: NSB Light Equipment Shop Auditor Company: Richard S. Armstrong, PE, LLC Address: 3431 C Street Auditor Name: Richard S. Armstrong City: Barrow Auditor Address: 2321 Merrill Field Drive C-6 Anchorage, Ak 99501 Client Name: Tom Hatcher Client Address: 3427 C Street Barrow, Ak 99723 Auditor Phone: (907) 229-0331 Auditor FAX: (907) 276-1751 Client Phone: (907) 852-2611 Auditor Comment: Client FAX: Design Data Building Area: 5,520 square feet Design Heating Load: Design Loss at Space: 4,405,624 Btu/hour with Distribution Losses: 4,405,624 Btu/hour Plant Input Rating assuming 82.0% Plant Efficiency and 25% Safety Margin: 6,715,890 Btu/hour Note: Additional Capacity should be added for DHW load, if served. Typical Occupancy: 8 people Design Indoor Temperature: 72 deg F (building average) Actual City: Barrow Design Outdoor Temperature: -41 deg F Weather/Fuel City: Barrow Heating Degree Days: 20,370 deg F-days Utility Information Electric Utility: Barrow Utilities - elec - Commercial - Sm Natural Gas Provider: Barrow Utilities & Electric-gas - Commercial - Sm Average Annual Cost/kWh: $0.106/kWh Average Annual Cost/ccf: $0.305/ccf Annual Energy Cost Estimate Description Space Heating Space Cooling Water Heating Lighting Other Electrical Cooking Clothes Drying Ventilation Fans Service Fees Total Cost Existing Building $84,573 $0 $1,021 $6,466 $11,802 $0 $0 $484 $409 $104,754 With Proposed Retrofits $68,093 $0 $1,021 $3,166 $9,813 $0 $0 $148 $409 $82,650 SAVINGS $16,480 $0 $0 $3,300 $1,990 $0 $0 $335 $0 $22,105 Energy Audit – Energy Analysis and Cost Comparison AkWarm Commercial Audit Software NSB Light Equipment Shop Page 2 $0 $20,000 $40,000 $60,000 $80,000 $100,000 $120,000 Existing Retrofit Service Fees Ventilation and Fans Space Heating Other Electrical Lighting Domestic Hot Water Annual Energy Costs by End Use $0 $20,000 $40,000 $60,000 $80,000 $100,000 $120,000 Existing Retrofit Natural Gas Electricity Annual Energy Costs by Fuel $0 $20,000 $40,000 $60,000 $80,000 $100,000 Floor Wall/Door Window Ceiling Air Existing Retrofit Annual Space Heating Cost by Component Energy Audit – Energy Analysis and Cost Comparison AkWarm Commercial Audit Software NSB Light Equipment Shop Page 3 PRIORITY LIST – RECOMMENDED ENERGY EFFICIENCY MEASURES Rank Feature Recommendation Annual Energy Savings Installed Cost SIR Payback (Years) 1 Setback Thermostat: Light Duty Equipment Shop Implement a Heating Temperature Unoccupied Setback to 60.0 deg F for the Light Duty Equipment Shop space. $10,499 $1,000 133.61 0.1 2 Air Tightening Perform air sealing to reduce air leakage by 10%. $5,153 $2,000 23.21 0.4 3 Other Electrical: Head Bolt Heater Outlets Replace with 9 Head Bolt Heater Outlets and Remove Manual Switching and Add new Clock Timer or Other Scheduling Control, Other Controls $1,990 $2,000 6.35 1 4 Lighting: Exterior Lights Replace with 14 LED 100W Module StdElectronic $2,250 $3,600 3.99 1.6 5 Lighting: Shop Perimeter Flourescents Add new Occupancy Sensor, Manual Dimmer $258 $650 2.52 2.5 6 Lighting: Second Floor Mezzanine Parts and Break Room Replace with 4 FLUOR (2) T8 4' F32T8 32W Standard Program HighEfficElectronic and Remove Manual Switching and Add new Occupancy Sensor $112 $700 1.02 6.2 7 Ventilation Add 6 destratification fans in shop areas to push heat to floor $827 $12,000 0.86 14.5 8 Lighting: General shop lighting Replace with 15 FLUOR (6) T5 45.2" F54W/T5 HO Standard HighLight HighEfficElectronic and Remove Manual Switching and Add new Occupancy Sensor $387 $6,000 0.41 15.5 9 Ceiling w/ Attic: Shop Attic Add R-19 fiberglass batts to attic with Standard Truss. $190 $13,692 0.31 72 10 Lighting: Mechanical room and mezzanine break area Replace with 7 FLUOR (2) T8 4' F32T8 28W Energy- Saver Program HighEfficElectronic and Remove Manual Switching and Add new Occupancy Sensor $75 $1,800 0.26 24.1 Energy Audit – Energy Analysis and Cost Comparison AkWarm Commercial Audit Software NSB Light Equipment Shop Page 4 PRIORITY LIST – RECOMMENDED ENERGY EFFICIENCY MEASURES Rank Feature Recommendation Annual Energy Savings Installed Cost SIR Payback (Years) 11 Exterior Door: Overhead Doors 16x16 7each Remove existing door and install standard pre-hung U-0.16 insulated door, including hardware. $216 $29,995 0.16 138.7 12 Lighting: Shop Perimeter Flourescents Replace with 11 FLUOR (2) T12 8' F96T12 60W Energy-Saver StdElectronic $55 $2,500 0.14 45.3 13 Lighting: Office, hallway lighting Replace with 14 FLUOR (2) T8 4' F32T8 32W Standard (2) Instant HighEfficElectronic and Remove Manual Switching and Add new Occupancy Sensor $92 $4,400 0.13 47.6 TOTAL $22,105 $80,337 2.9 3.6 ENERGY AUDIT REPORT – ENERGY EFFICIENT RECOMMENDATIONS 1. Building Envelope Insulation Rank Location Existing Type/R;Value Recommendation Type/R; Value Installed Cost Annual Energy Savings 9 Ceiling w/ Attic: Shop Attic Framing Type: Standard Framing Spacing: 24 inches Insulated Sheathing: None Bottom Insulation Layer: R-19 Batt:FG or RW, 6 inches Top Insulation Layer: None Modeled R-Value: 21.1 Add R-19 fiberglass batts to attic with Standard Truss. $13,692 $190 Exterior Doors – Replacement Rank Location Size/Type/Condition Recommendation Installed Cost Annual Energy Savings 11 Exterior Door: Overhead Doors 16x16 7each Door Type: Metal - urethane, no therm. break Modeled R-Value: 2.5 Remove existing door and install standard pre-hung U-0.16 insulated door, including hardware. $29,995 $216 Windows and Glass Doors – Replacement Rank Location Size/Type/Condition Recommendation Installed Cost Annual Energy Savings Energy Audit – Energy Analysis and Cost Comparison AkWarm Commercial Audit Software NSB Light Equipment Shop Page 5 Air Leakage Rank Location Estimated Air Leakage Recommended Air Leakage Target Installed Cost Annual Energy Savings 2 Air Tightness estimated as: 300000 cfm at 50 Pascals Perform air sealing to reduce air leakage by 10%. $2,000 $5,153 2. Mechanical Equipment Mechanical Rank Recommendation Installed Cost Annual Energy Savings Setback Thermostat Rank Location Size/Type/Condition Recommendation Installed Cost Annual Energy Savings 1 Light Duty Equipment Shop Existing Unoccupied Heating Setpoint: 72.0 deg F Implement a Heating Temperature Unoccupied Setback to 60.0 deg F for the Light Duty Equipment Shop space. $1,000 $10,499 Ventilation Rank Recommendation Cost Annual Energy Savings 7 Add 6 destratification fans in shop areas to push heat to floor $12,000 $827 3. Appliances and Lighting Lighting Fixtures and Controls Rank Location Existing Recommended Installed Cost Annual Energy Savings 4 Exterior Lights 14 HPS 250 Watt Magnetic with Manual Switching Replace with 14 LED 100W Module StdElectronic $3,600 $2,250 5 Shop Perimeter Flourescents 11 FLUOR (2) T12 8' F96T12 75W Standard Magnetic with Manual Switching Add new Occupancy Sensor, Manual Dimmer $650 $258 6 Second Floor Mezzanine Parts and Break Room 4 FLUOR (4) T12 4' F40T12 34W Energy-Saver Magnetic with Manual Switching Replace with 4 FLUOR (2) T8 4' F32T8 32W Standard Program HighEfficElectronic and Remove Manual Switching and Add new Occupancy Sensor $700 $112 Energy Audit – Energy Analysis and Cost Comparison AkWarm Commercial Audit Software NSB Light Equipment Shop Page 6 8 General shop lighting 15 HPS 400 Watt Magnetic with Manual Switching Replace with 15 FLUOR (6) T5 45.2" F54W/T5 HO Standard HighLight HighEfficElectronic and Remove Manual Switching and Add new Occupancy Sensor $6,000 $387 10 Mechanical room and mezzanine break area 7 FLUOR (2) T12 4' F40T12 34W Energy-Saver Magnetic with Manual Switching Replace with 7 FLUOR (2) T8 4' F32T8 28W Energy- Saver Program HighEfficElectronic and Remove Manual Switching and Add new Occupancy Sensor $1,800 $75 12 Shop Perimeter Flourescents 11 FLUOR (2) T12 8' F96T12 75W Standard Magnetic with Manual Switching Replace with 11 FLUOR (2) T12 8' F96T12 60W Energy- Saver StdElectronic $2,500 $55 13 Office, hallway lighting 14 FLUOR (2) T12 4' F40T12 34W Energy-Saver Magnetic with Manual Switching Replace with 14 FLUOR (2) T8 4' F32T8 32W Standard (2) Instant HighEfficElectronic and Remove Manual Switching and Add new Occupancy Sensor $4,400 $92 Refrigeration Rank Location Existing Recommended Installed Cost Annual Energy Savings Other Electrical Equipment Rank Location Existing Recommended Installed Cost Annual Energy Savings 3 Head Bolt Heater Outlets 9 Head Bolt Heater Outlets with Manual Switching Replace with 9 Head Bolt Heater Outlets and Remove Manual Switching and Add new Clock Timer or Other Scheduling Control, Other Controls $2,000 $1,990 Cooking/Clothes Drying Rank Recommended Installed Cost Annual Energy Savings Energy Audit – Energy Analysis and Cost Comparison AkWarm Commercial Audit Software NSB Light Equipment Shop Page 7 Front view of light vehicle shop Side and front view of light vehicle shop Barber Coleman DDC Controls Shop floor Mezzanine Attic with R-19 insulation 13431 C STREET - FIRST FLOOR PLAN1/4"=1'-0"LIGHTING LEGEND 13431 C STREET - SECOND FLOOR PLAN1/4"=1'-0"LIGHTING LEGEND