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Energy Audit McGrath School & School Administration Bldg 06-30-1999
Energy Audit McGrath School & School Administration Building MeGrath, Alaska McGrath Light & Power, Inc. Ernie Baumgartner, General Manager P. O. Box 52 MeGrath, AK 99627 Prepared By: MBA Consulting Engineers, Inc. 3812 Spenard Road, Suite 200 Anchorage, Al 99517 Under Contract To: J. S. Strandberg Engineers, Inc. Anchorage & Fairbanks, Alaska June 30, 1999 TABLE OF CONTENTS Executive Summary Summary of Existing Conditions Analysis and Assumptions Recommendations Appendixes Appendix A. Calculations Appendix B. Utility Billings Appendix C. Electrical Catalog Data Appendix D. Mechanical Catalog Data Appendix E. Rebuild America Energy Audit Appendix F. Code Violation Summary Executive Summary Primary focus of the McGrath school and school and school administration building energy audit is to identify potential energy saving strategies to reduce facility operating costs. Substantial savings can be achieved by replacing the fluorescent lighting in the two facilities, replacement of incandescent lighting with fluorescent lighting and LED exit signs, replacement of the school building heating system circulating pumps, and the addition of time clocks and occupancy sensors. Serious life/safety code violations were noted with the school and are included as Appendix E. A previous energy audit of the facilities prepared by State of Alaska DCRA under the Rebuild America program is included as Appendix D. S f Existing Conditi Information used in this report was obtained from as-built drawings of original construction and later additions and renovations, and from Rebuild America Energy Audit dated July 3, 1997. Electrical field investigation was not performed as part of this study. A brief mechanical walk- through was accomplished on June 14, 1999. McGrath School is approximately 27,500 square feet in size, and houses 135 students, 20 staff members, 1.25 maintenance personnel, and 1.5 custodial personnel. Existing lighting load is approximately 48 KW, or 1.75 watts per square foot. Latest version of ANSI/IES 90.1- 1989R draft standard (December, 1998 revision) budgets energy for school lighting at 1.5 watts per square foot, indicating that potential energy savings exists in the lighting system. School administration building is 8,780 square feet in size. Approximate lighting load is 19.5 KW, or 2.22 watts per square foot. December 1998 revision of ANSI/IES 90.1-1989R allows 1.3 watts per square foot for office space and 1.5 watts per square foot for library space. Potential energy savings is indicated in this building as well. Both facilities are predominately illuminated by T12 fluorescent lamps, with incandescent lampholders in many of the utility spaces. Exit signage is mostly incandescent. Building- mounted exterior lighting is incandescent at the administration building; school has been revised to high-pressure sodium exterior lighting. Heating for the school is accomplished by oil-fired boilers and hydronic fan/coil units. Domestic hot water for the school is generated by a separate oil-fired water heater. The school administration building is heated by oil-fired furnaces. A . : Pricing for materials in this report has been obtained from local distributors and representatives in Anchorage, and escalated 36.8% for freight and handling to McGrath. For purposes of this report, labor pricing is per 1999 electrical means cost reference, multiplied by 1.186 Anchorage multiplier and 1.368 McGrath multiplier, as determined by HMS, Inc. All payback periods are calculated as simple paybacks without accounting for lost interest. Since the funding for upgrades is assumed to be grant money, we feel this is appropriate. We assumed that the existing lighting fixtures were in reasonable condition (5% unusable), and that there was a desire to maintain existing appearance and existing or better lighting performances. Fixture counts are approximate and based on as-built drawings. Variance in actual lighting fixture counts would affect cost, but would affect savings in a similar ratio, so payback periods remain as reported. Proposed T8 replacement lamps have the same lamp life as the existing T12 lamps, so no adjustment has been made for re-lamping cost. Fluorescent lamps last approximately 3.3 times longer than long-life incandescent lamps, and this has been accounted for where appropriate. Existing lighting fixtures are mostly surface-mounted, so extensive architectural finishing would be required if fixtures were replaced on other than alike fixtures on a one-for-one basis. One- for-one fixture replacement was considered using fixtures similar to existing, and the payback period was determined to be over thirteen years. Since fixture replacement was economically infeasible, we considered replacing ballasts and lamps with energy efficient T8 lamp with electronic ballast combination. Assuming 5% fixture replacement is required, payback period is approximately five years for this upgrade. Incandescent lampholders in utility spaces could easily be replaced with surface-mounted open strip fluorescent fixtures using electronic ballast, T8 lamp technology. This retrofit was determined to yield payback in approximately one year, based on one two-lamp T8 strip fluorescent to replace two incandescent lampholders. This would result in a net increase in illumination level of approximately double. Exit signage was identified as an area of potential savings due to 24 hour/day electricity consumption. Replacement with LED type exit signs with battery backup would result in approximately five year payback. Replacement of the existing heating system circulation pumps in the school with three-speed pumps will also result in electrical energy savings. The main circulation pumps currently consume 6-1/2 horsepower total. New three-speed pumps would consume 4-1/4 horsepower total in the winter and approximately two horsepower during the summer when set down to low speed. Payback period is less than one year. The final potential electrical savings opportunity identified was automated shut-off. Two such opportunities were identified, and further field investigation may yield more. A twelve hour on, twelve hour off timer for the snack and soda machine in the auditorium would pay for itself in considerably under a year. This item was previously recommended in the Rebuild America Energy Audit, which indicated approximate cost of $25.00, and approximate savings of $389.00/year. Occupancy sensors in the restrooms and spare rooms have been demonstrated to save approximately 50% of the energy consumed. Given this assumption and the utility rates in McGrath, an occupancy sensor installed to control a single 4-lamp T8 electronic ballast fixture would yield approximately five year payback. Installation of occupancy sensors in the classrooms would be justifiable if more than 100 hours per year of classroom lighting time were saved. At 100 hours per year, payback time is approximately 6.5 years. This assumes a dual-technology, 1,000 square foot coverage sensor with auxiliary power pack. Recommendations We recommend the following renovations for energy savings and the resultant economic benefit; all recommendations apply to both school building and administrative/library building: Replace all existing T12 lamps with F32T8/35K 80+CRI grade lamps; Sylvania FO32 835 EC was used for pricing. Recommend replacing ballasts with high-frequency electronic T8 ballasts with <20% THD, Advance Mark V Series Rapid Start. Estimated Total Cost: $36,459.09 Estimated Annual Savings: $7,124.50 Payback Period: 5.12 years Cost includes replacement of 10% of fixtures. Install occupancy sensors in restrooms and storage rooms. Occupancy sensor utilized for analysis is Mytech #RRSST8. Estimated Installed Cost, Per Sensor: $136.56 Estimated Annual Savings, One 4-Lamp T8: $28.11 (typical restroom) Worst Case Payback (better if more fixtures): 4.86 years Install occupancy sensors in classrooms in it can be demonstrated that classroom lighting is illuminated while unoccupied for 100 or more hours per year. Calculations are based on 100 hours per year savings, and results will be more favorable if the hours saved are higher. Estimated Installed Cost, Per Classroom: $313.73 Estimated Annual Savings, Per Classroom: $47.88 Payback Time If 100 hours/year saved: 6.55 years Replace incandescent lampholders in storage and utility spaces on a two-for-one basis, with two-lamp T8 strips with high-frequency low harmonic rapid start ballasts. Figures below refer to storage 122A in administrative building, other areas will have similar payback. Estimated Cost of Upgrade: $386.40 Estimated Annual Savings: $363.42 (includes re-lamping savings) Payback period: 1.06 years Replace all exit signs with LED type signs with battery backup. Figures below based on 14 signs; payback period will be effectively constant for differing quantities. Estimated Cost of Sign Replacement: $2,653.94 Estimated Annual Savings, Including Re-lamping: $529.23 Payback period: 5.01 years . Fixture replacement for existing T12 fixtures may become economically feasible, if either a change in lighting style and/or appearance is desired, or a significant quantity of the existing fixtures are damaged beyond useability. It is not economically feasible solely for energy conservation purposes. Calculated costs below are for materials and construction only and do not include design fees: Estimated Cost, One-For-One Replacement: $84,365.07 Estimated Savings, One-For-One Replacement: $6,321.28 Payback Period: 13.35 years . Replace school heating circulation pumps with three-speed pumps. Estimated Cost: $6,704.57 Estimated Annual Savings: $7,174.47 Payback Period: 0.93 years All above figures are based on 1560 hours of space usage per year (40 hours per week during school year), except exit signage is illuminated 24 hours per day, and pumps run 24 hours per day. Usage of school spaces was determined for the Rebuild America Energy Audit, and is assumed to remain similar for both school and administrative building. We feel 2000 hours per year is a more accurate estimate of average space usage. Savings would increase 28% to $9,119.36 for the lamp/ballast replacement only option. Resultant payback period would be 4.44 years. Energy cost basis is 32.18 ¢/KWH, which is current marginal rate base on utility billings. There is currently no utility demand charge. Upcoming deregulation may have an impact on energy cost. Additional operational savings may be accomplished by installing an electrical submeter to the panel for the schools shop area. Programs using the shop could then be billed for power consumed instead of the current flat rate system. Advanced automatic control strategies for the heating and ventilation systems including night set back and day-night cycling of fan systems could lead to additional savings, but cannot be achieved without replacement of the mechanical controls system and are outside the scope of this audit. APPENDIX A CALCULATIONS Savings - ballast and lamp replacement only. 94 4-lamp repl. 2@2-Ip 112 W new, 184 W exist. Savings of 72 W/fixture, 6768 W total. 1560 hours/yr. 10558.08 kWh/yr. Utility Rate= 0.3218 $/kWh Subtotal $ saved, 2-Ip fixtures= $3,397.59 92 4-lamp repl. 4-lamp 112 Wnew, 164 W exist. Savings of 52 W/fixture, 4784 W total. 1560 hours/yr. 7463.04 kWh/yr. Utility Rate= 0.3218 $/kWh Subtotal $ saved, 4-Ip fixtures= $2,401.61 88 2-lamp repl. 2-lamp 62 W new, 92 W exist. Savings of 30 W/fixture, 2640 W total. 1560 hours/yr. 4118.4 kWhiyr. Utility Rate= 0.3218 $/kWh Subtotal $ saved, 4-Ip fixtures= $1,325.30 Costs - ballast and lamp replacement only. 186 4-lamp T8 ballast $18.85 in Anchorage, incl. Contractor markup 1.368 Multiplier for Anchorage-McGrath 1.186 Anch. labor multiplier 186 fixtures at $25.79 each = $4,796.34 materials. Means labor cost, Electronic ballast <2 pounds = $38.00 (basic) 186 fixtures at $61.65 each = $11,467.46 install labor. $16,263.81 total cost, 4-Ip ballasts 88 2-lamp T8 ballast $15.71 in Anchorage, incl. Contractor markup 1.368 Multiplier for Anchorage-McGrath 1.186 Anch. labor multiplier 88 fixtures at $21.49 each = $1,891.23 materials. Means labor cost, surface fluorescent 2-lamp fixture = $38.00 (basic) 88 fixtures at $61.65 each = $5,425.47 install labor. $7,316.70 total cost, 2-Ip ballasts 920 T8 lamps $2.50 in Anchorage, incl. Contractor markup 1.368 Multiplier for Anchorage-McGrath 1.186 Anch. labor multiplier 920 fixtures at $3.42 each = $3,146.40 materials. Means labor cost, surface fluorescent 2-lamp fixture = $3.63 (basic) 920 fixtures at $5.89 each = $5,418.33 install labor. $8,564.73 total cost, lamps 13 2-lamp modular(5%) $81.00 in Anchorage, incl. Contractor markup 1.368 Multiplier for Anchorage-McGrath 1.186 Anch. labor multiplier 13 fixtures at $110.81 each = $1,440.50 materials. Means demolition cost, surface fluorescent fixture = $23.00 (basic) 13 fixtures at $37.32 each = $485.11 demo labor. Means labor cost, surface fluorescent 2-lamp fixture = $50.73 (basic) 13 fixtures at $82.31 each = $1,069.99 install labor. $2,995.60 total cost, 2-Ip fixtures 5 4-lamp modular(5%) $95.00 in Anchorage, incl. Contractor markup 1.368 Multiplier for Anchorage-McGrath 1.186 Anch. labor multiplier 5 fixtures at $129.96 each = $649.80 materials. Means demolition cost, surface fluorescent fixture = $23.00 (basic) 5 fixtures at $37.32 each = $186.58 demo labor. Means labor cost, surface fluorescent 2-lamp fixture = $59.40 (basic) 5 fixtures at $96.37 each = $481.87 install labor. $1,318.25 total cost, 4-Ip fixtures Total cost - ballast/lamp replacement = $36,459.09 Total annual savings - ball/lp replacement= $7,124.50 Payback period (years) = , 5.12 Savings - 1 for 1 fixture replacement 262 2-lamp modular 62 W new, 92 W exist. Savings of 30 W/fixture, 7860 W total. 1560 hours/yr. 12261.6 kWh/yr. Utility Rate= 0.3218 $/kWh Subtotal $ saved, 2-Ip fixtures= $3,945.78 91 4-lamp modular 112 W new, 164 W exist. Savings of 52 W/fixture, 4732 W total. 1560 hours/yr. 7381.92 kWh/yr. Utility Rate= 0.3218 $/kWh Subtotal $ saved, 4-Ip fixtures= $2,375.50 Costs - 1 for 1 fixture replacement 262 2-lamp modular $81.00 in Anchorage, incl. Contractor markup 1.368 Multiplier for Anchorage-McGrath 1.186 Anch. labor multiplier 262 fixtures at $110.81 each = $29,031.70 materials. Means demolition cost, surface fluorescent fixture = $23.00 (basic) 262 fixtures at $37.32 each = $9,776.87 demo labor. Means labor cost, surface fluorescent 2-lamp fixture = $50.73 (basic) 262 fixtures at $82.31 each = $21,564.38 install labor. $60,372.95 total cost, 2-Ip fixtures 91 4-lamp modular $95.00 in Anchorage, incl. Contractor markup 1.368 Multiplier for Anchorage-McGrath 1.186 Anch. labor multiplier 91 fixtures at $129.96 each = $11,826.36 materials. Means demolition cost, surface fluorescent fixture = $23.00 (basic) 91 fixtures at $37.32 each = $3,395.78 demo labor. Means labor cost, surface fluorescent 2-lamp fixture = $59.40 (basic) 91 fixtures at $96.37 each = $8,769.98 install labor. $23,992.12 total cost, 4-Ip fixtures Total cost - 1 for 1 fixture replacement = $84,365.07 Total annual savings - 1 for 1 replacement = $6,321.28 . Payback period (years) = 13.35 Savings - occupancy sensor - typical restroom 1 Occupancy Sensor 50.00% Duty Cycle 112 W exist.(4-lamp troffer) Savings of 56 W/fixture, 56 W total. 1560 hours/yr. 87.36 kWhiyr. Utility Rate= 0.3218 $/kWh Subtotal $ saved, occup sens = $28.11 Costs - occupancy sensor 1 Occupancy Sensor $85.00 in Anchorage, incl. Contractor markup 1.368 Multiplier for Anchorage-McGrath 1.186 Anch. labor multiplier 1 sensor at $116.28 each = $116.28 materials. Means labor cost, occupancy sensor wall switch = $12.50 (basic) 1 sensor at $20.28 each = $20.28 install labor. $136.56 total cost, occupancy sensor Total cost - occupancy sensor = $136.56 Total annual savings - occupancy sensor = $28.11 Payback period (years) = 4.86 Savings - occupancy sensor - typical classroom 1 Occupancy Sensor 6.41% Duty Cycle 1488 W exist.(24 2-Ip troff) Savings of 95.3808 Wiclssrm 95.3808 W total. 1560 hours/yr. 148.794 kWh/yr. Utility Rate= 0.3218 $/kWh Subtotal $ saved, occup sens = $47.88 Costs - occupancy sensor 1 Occupancy Sensor $155.80 in Anchorage, incl. Contractor markup 1.368 Multiplier for Anchorage-McGrath 1.186 Anch. labor multiplier 1 sensor at $213.13 each = $213.13 materials. Means labor cost, occupancy sensor = $62.00 (basic) 1 sensorat $100.59 each = $100.59 install labor. $313.73 total cost, occupancy sensor Total cost - occupancy sensor = $313.73 Total annual savings - occupancy sensor = $47.88 Payback period (years) = 6.55 Savings - 2 for 1 fixture replacement -incandescent to strip fluor. In Storage, etc. (Storage 122A in admin building serves as example, other areas similar) 6 incandescent lamps 150 Wea. Exist., 900 W exist. 3 2-lamp T8 strips 62 Wea. New 186 W new. saved energy = 714 W 1560 hours/yr. 1113.84 kWh/yr. Utility Rate= 0.3218 $/kWh Subtotal $ saved, 2-Ip fixtures= $358.43 6 Incandescent lamps 1 Lamps ea. @ 6000 hrs life Burning 1560 hours/yr 1.56 lamps/yr Burnout Relamping cost/lamp $3.95 (basic Anchorage) $6.41 (McGrath) Annual Relamping cost = $10.00 3 2-lamp strips 2 Lamps ea. @ 20000 hrs life Burning 1560 hours/yr 0.468 lamps/yr Burnout Relamping cost/lamp $6.60 (basic Anchorage) $10.71 (McGrath) Annual Relamping cost = $5.01 Relamping savings = $4.99 Costs - 2 for 1 fixture replacement - incandescent to strip fluor. 6 incandescent lamps 1.368 Multiplier for Anchorage-McGrath 1.186 Anch. labor multiplier Means demolition cost, surface incandescent fixture = $8.25 (basic) 6 fixtures at $13.39 each = $80.31 demo labor. $80.31 total cost, demolition 3 2-lamp T8 strips $36.63 in Anchorage, incl. Contractor markup 1.368 Multiplier for Anchorage-McGrath 1.186 Anch. labor multiplier 3 fixtures at $50.11 each = $150.33 materials. Means labor cost, surface fluorescent 2-lamp fixture = $32.00 (basic) 3 fixtures at $51.92 each = $155.76 install labor. $306.08 total cost, 2-Ip strips Total cost - 2 for 1 fixture replacement = $386.40 Total annual savings - 2 for 1 replacement = $363.42 Payback period (years) = 1.06 Savings - Pump Replacement Current Pump Usage : Utility rate = 0.3218 $/kWh PMP-1 1.5hp 24 hours/day 365 days/yr 1.45 KW 12702 kWh/yr $4,087.50 /yr PMP-2 3hp 24 hours/day 365 days/yr 2.8 KW 24528 kWh/yr $7,893.11 /yr PMP-3 2hp 24 hours/day 365 days/yr 1.8 KW 15768 kWh/yr $5,074.14 /yr Current Total Cost = Proposed Replacement Pumps : PMP-1 3/4hp 24 hours/day 245 days/yr (full speed) 0.85 KW 4998 kWh/yr 1/3hp 24 hours/day 120 days/yr (low speed) 0.45 KW 1296 kWh/yr PMP-2 2hp 24 hours/day 245 days/yr (full speed) 1.8 KW 10584 kWh/yr 1hp 24 hours/day 120 days/yr (low speed) 0.99 KW 2851.2 kWh/yr PMP-3 1.5hp - 24 hours/day 245 days/yr (full speed) 1.45 KW 8526 kWh/yr .75hp 24 hours/day 120 days/yr (low speed) 0.85 KW 2448 kWh/yr New Total Cost = Savings = Costs - Pump Replacement $17,054.76 /yr $1,608.36 /yr $417.05 /yr $3,405.93 /yr $917.52 /yr $2,743.67 /yr $787.77 /yr $9,880.29 /yr $7,174.47 lyr 1.368 McGrath Multiplier Grundfos UPS40-160, 40 GPM@35' Head . 3/4hp/208V/3 phase $1,236.00 list, Anchorage $240.00 labor, Anchorage Grundfos UPS50-240, 909 GPM@48' Head 2hp/208V/3 phase $1,540.00 list, Anchorage $240.00 labor, Anchorage Grundfos UPS40-240, 55 GPM@42' Head 1.5hp/208V/3 phase — $1,405.00 list, Anchorage $240.00 labor, Anchorage Total Cost = Cost = $6,704.57 Savings/yr= $7,174.47 Payback = 0.93 years $1,690.85 $328.32 $2,106.72 $328.32 $1,922.04 $328.32 $6,704.57 Savings - exit sign replacement 14 Exit signs(LED) 2 Wnew, 40 W exist. Savings of 38 W/fixture, 532 W total. 1560 hours/yr. 829.92 kWh/yr. _—_ Utility Rate= 0.3218 $/kWh Subtotal $ saved, exit signs = $267.07 14 Exit signs(Incandescent) 2 Lamps ea. @ 6000 hrs life Burning 8766 hours/yr 40.908 lamps/yr Burnout Relamping cost/lamp $3.95 (basic Anchorage) $6.41 (McGrath) Annual Relamping cost= _’ $262.17 (savings for retrofit) (LED's virtually zero, replace sign every 20+ years) Costs - exit sign replacement 14 Exit signs(LED) $60.00 in Anchorage, incl. Contractor markup 1.368 Multiplier for Anchorage-McGrath 1.186 Anch. labor multiplier 14 fixtures at $82.08 each = $1,149.12 materials. Means demolition cost, surface wall-mt fixture = $8.25 (basic) 14 fixtures at $13.39 each = $187.39 demo labor. Means labor cost, LED exit sign with battery backup = $58.00 (basic) 14 fixtures at $94.10 each = $1,317.43 install labor. $2,653.94 total cost, exit signs Total cost - exit sign replacement = $2,653.94 Total annual savings - exit replacement = $529.23 Payback period (years) = 5.01 APPENDIX B UTILITY BILLINGS B2.18 Ffeon MAZE WAL ErrenVvEe ATE . McGrath Light & Power STATEMENT/INVOICE E: i Pe PO Box 52, McGrath, AK 99627 Account#: 67 Statement Date: April 28, 1997 To: McGrath School Payment Due Date: Box 290 McGrath, AK 99627 Due Upon receipt , Balance Due: $6,911.02 Payment Amount: $ FOR PROPER CREDIT PLEASE RETURN TOP PORTION OF THIS STATEMENT WITH YOUR PAYMENT Begin End Total Date Meter# Read Read Usage Description Charge Credits 4/28/97 9 2,102 2,193 21,840 7314.18 4/28/97 Other Credits -Waive late fee per Marty 161. Notice to Consumers For the current billing period McGrath Light & Power will be paid under the State of Alaska’s power cost equalization program (AS 44.83.162) to assist the utility and its customers in reducing the high cost of generation of electrical energy. This PCE amount has been decreased 15% as of June 1996 by the State of Alaska. Fuel cost assistance has also decreased as of June 1996 due to the higher cost of fuel purchases which have been experienced nationwide. The difference in the approved tani cost of fuel and the actual cost of fuel has been returned to the consumer in the form of a fuel credit which will decrease as the purchase price of fuel increses. — Total KWH: 21,840 — Total KW Charge: 6.911 KWH Charge: 7,314.18 Late Fee: Less Fuel Cost Adjustment: 264.26 Other Charges: Less State Assistance: 145.39 Total Charges: 6,911 Regulatory Cost Charge: 6.49 Total Credits:___164 Total KW Charge: 6,911.02 Current Charge: $6,74¢ SSSSSsS=======. = =: Account#: 67 Previous Balance: 5.376 Statement Date: April 28, 1997 Previous Credits: 5,376 Payment Due Date: Due Upon receipt Less Credits This Statement: 161 Plus Charges This Statement: ___6911 Balance Due: $6.911 Current: $6,911.02 31-60 days: $0.00 61-90 days: $0.00 Over 90 Days: $0.00 Accounts Over 30 days are charged interest at 12% yeariv Begin End Total _eter# Read Read Usage Description Charge Credits 9 2,193 2,255 14,880 Meter Power Consumption 5005.55 Notice to Consumers For the current billing period McGrath Light & Power will be paid under the State of Alaska's power cost equalization program (AS 44.83.162) to assist the utility and its customers in reducing the high cost of generation of electrical energy. This PCE amount has been decreased 15% as of June 1996 by the State of Alaska. Fuel cost assistance has also decreased as of June 1996 due to the higher cost of fuel purchases which have been experienced nationwide. The difference in the approved tariff cost of fuel and the actual cost of fuel has been returned to the consumer in the form of a fuel credit which will decrease as the purchase price of fuel increses. j Total KW Charge: 4,684 ’ Ry KWH Charge: 5,005.55 32.4 ¢ [es Late Fee: 0. Less Fuel Cost Adjustment: 180.05 Other Charges: __ Less State Assistance: 145.39 A Total Charges: 4,684 Regulatory Cost Charge: 4.42 ng hee Total Credits: 0 Total KW Charge: 4,684.53 »>!- Current Charge: $4,684 McGrath Light & Power Company Account Summary Account#: 67 Statement Date: May 28, 1997 Payment Due Date: Due Upon receipt Previous Balance: 7,072. Previous Credits: 7,072. Less Credits This Statement: Plus Charges This Statement: ___4 684. Balance Due: $4.684 Current: $4,684.53 31-60 days: $0.00 61-90 days: $0.00 Over 90 Days: $0.00 Accounts Over 30 days are charged interest at 12% yearly. - Begin End Total eter Read Read Usage Description 9 1,459 1,565 25,440 Meter Power Consumption c - 9 io 7 Notice to Consumers For the current billing period McGrath Light & Power will be paid under the State of Alaska's power cost equalization program (AS 44.83.162) to assist the utility and its customers in reducing the high cost of generation of electrical energy. This PCE amount has been decreased 15% as of June 1996 by the State of Alaska. Fuel cost assistance has also decreased as of June 1996 due to the higher cost of fuel purchases which have been experienced nationwide. The difference in the approved tariff cost of fuel and the actual cost of fuel has been returned to the consumer in the form of a fuel credit which will decrease as the purchase price of fuel increses. Total KWH: KWH Charge: 8,508.30 »>" Late Fee: é1 Less Fuel Cost Adjustment: 279.84 Other Charges:___— Less State Assistance: 142.73 Total Charges: 8,15E Regulatory Cost Charge: _ zi itl? " Total Credits: ___———c Total KW Charge: ~ 093.92 a8 Current Charge: $8,155 : 67 Previous Balance: 6,167 Statement Date: October 28, 1996 Previous Credits: C Payment Due Date: Due Upon receipt Less Credits This Statement: Plus Charges This Statement: 8.155 Balance Due: $14,32¢ Current: $8,093.92 ~ 31-60 days: $6,167.79 61-90 days: $0.00 Over 90 Days: $0.00 Accounts Over 30 days are charged interest at 12% yearly. eens = ee eee re. a a a en tae - ee ee - Begin End Total unt Read Read Usage Description Charge Credits 1,690 1,790 24,000 Meter Power Consumption 8030.65 Notice to Consumers For the current billing period McGrath Light & Power will be paid under the State of Alaska's power cost equalization program (AS 44.83.162) to assist the utility and its customers in reducing the high cost of generation of electrical energy. This PCE amount has been decreased 15% as of June 1996 by the State of Alaska. Fuel cost assistance has also decreased as of June 1996 due to the higher cost of fuel purchases which have been experienced nationwide. The difference in the approved tariff cost of fuel and the actual cost of fuel has been returned to the consumer in the form of a fuel credit which will decrease as the purchase price of fuel increses. a Total KWH: 24,000. [2° Total KW Charge: 7,603 KWH Charge: _—8,030.65 3" Late Fee: 0 Less Fuel Cost Adjustment: 290.40 Other Charges: Less State Assistance: 144.27 Total Charges: 7,604 Regulatory Cost Charge: 7.73 at we" Total Credits:_____o Total KW Charge: 7,603.71 3.°" Current Charge: $7,604 Saaaaa ses aaee een nena nasa eae === sseeee==- McGrath Light & Power Company Account Summary Account#: 67 Previous Balance: i 9,52 3 Statement Date: December 28, 1996 Previous Credits: 9,523 Payment Due Date: Due Upon receipt Less Credits This Statement: Plus Charges This Statement: ___7.604 Balance Due: $7,666 Current: $7,603.71 31-60 days: $61.68 61-90 days: $0.00 Over 90 Days: $0.00 Accounts Over 30 dayS are charged interest at 12% yearly. - - Begin End Total ont Read ‘Read Usage Description Charge Credits 1,916 2.031 27,600 Meter Power Consumption 9224.77 Notice to Consumers ror the current billing period McGrath Light & Power will be paid under the State of Alaska's power cost equalization drogram (AS 44.83.162) to assist the utility and its customers in reducing the high cost of generation of electrical energy. his PCE amount has been decreased 15% as of June 1996 by the State of Alaska. Fuel cost assistance has also decreased as of June 1996 due to the higher cost of fuel purchases which have been (perienced nationwide. The difference in the approved iaiiif cost of fuei and the actual cost of fue! has been returned the consumer in the form of a fuel credit which will decrease as the purchase price of fuel increses. Total KWH: 27,600 oY joo" Total KW Charge: 8,754.81 ” KWH Charge: 9,224.77 337 Late Fee: 97.24 Less Fuel Cost Adjustment: 333.96 Other Charges: Less State Assistance: 144.20 Total Charges: 8,852.05 Regulatory Cost Charge: 8.20 rt wo" Total Credits:___—-0.00 Total KW Charge: 8,754.81 ao Current Charge: $8,852.05 IcGrath Light & Power Company Account Summary Account#: 67 Previous Balance: 9,662.33 Statement Date: February 28, 1997 Previous Credits: 0.00 iyment Due Date: Due Upon receipt Less Credits This Statement: Plus Charges This Statement: _ 8852.05 Balance Due: $18,514.28 vurrent: $8.754.81 31-60 days: $9,600.03 61-90 days: $62.30 Over 90 Days: $0.00 Accounts Over 30 days are charged interest at 12% yearly. Begin End Totai ent Read Read Usage Description Charge Credits 3 2,031 2,102 17,040 Meter Power Consumption 5722.02 YOUR ACCOUNT 1S NG PAST DUE ALL PA PEASE QUE AMOUNTS WHICH ARE > SllCIVED BY TNE 237TH DA ~ SONTH ARE CONS" 3ERED DELING: AND SUBJECT THE ACCOUNT TO O° Notice to Consumers For the current billing period McGrath Light & Power will be paid under the State of Alaska's power cost equalization program (AS 44.83.162) to assist the utility and its customers in reducing the high cost of generation of electrical energy. This PCE amount has been decreased 15% as of June 1996 by the State of Alaska. Fuel cost assistance has also decreased as of June 1996 due to the higher cost of fuel purchases which have been experienced nationwide. The difference in the approved tariff cost of fuel and the actual cost of fuel has been returned to the consumer in the form of a fuel credit which will decrease as the purchase price of fuel increses. Total KWH: 17,040 7 ten Total KW Charge: KWH Charge: 5,722.02 23°” Late Fee: Less Fuel Cost Adjustment: 206.18 Other Charges:___ Less State Assistance: 144.20 Total Charges: 5.375 Regulatory Cost Charge: 5.06 ai” : Total Credits: __ co Total KW Charge: 5,376.70 0" Current Charge: $5.37€ u W cGrath Light & Power Company Account Summary Account#: 67 Statement Date: March 28, 1997 revious Balance: 18,516 Previous Credits: 18.3S¢ Payment Due Date: Due Upon receipt Less Credits This Statement: , Plus Charges This Statement: _ 5.375 Balance Due: $5.53° Current: $5.376.70 ~ 31-60 days: $159.54 61-90 days: $0.00 Over 90 Days: $0.00 Accounts Over 30 days are charged interest at 12% yearly. Begin End Total # Read Read Usage Description Charge Credits 1,325 1,378 12,720 Meter Power Consumption 4289.07 Notice to Consumers For the current billing period McGrath Light & Power will be paid under the State of Alaska's power cost equalization program (AS 44.83.162) to assist the utility and its customers in reducing the high cost of generation of electrical energy. This PCE amount has been decreased 15% as of June 1996 by the State of Alaska. Fuel cost assistance has also decreased as of June 1996 due to the higher cost of fuel purchases which have been experienced nationwide. The difference in the approved tariff cost of fuel and the actual cost of fuel has been returned to the consumer in the form of a fuel credit which will decrease as the purchase price of fuel increses. Seessssssssas===s==e=esSS=Se===5 [SSS Saasssasas=s=ssa=SS====: Sessa s Total KWH: 12,720 mu we Total KW Charge: 4,010. KWH Charge: 4,289.07 4° Late Fee: 0.( Less Fuel Cost Adjustment: 139.92 Other Charges:_____ Less State Assistance: 142.73 « Total Charges: 4.010. Regulatory Cost Charge: 410 4 yi Total Credits:___o¢ Total KW Charge: 4,010.52 >? Current Charge: $4,010: _McGrath Light & Power Company Account Summary ___--- Account#: 67 Statement Date: August 28, 1996 Payment Due Date: Due Upon receipt Less Credits This Statement: Plus Charges This Statement: ____4.010: Balance Due: $4,010. Current: $4,010.52 | 31-60 days: $0.00 61-90 days: $0.00 Over 90 Days: $0.00 Accounts Over 30 days are charged interest at 12% yearly. McGRATH LIGHT & POWER, INC. P.O. BOX 52 McGRATH, AK 99627 re senvicerROMMe ee Sd Wome Id acct Look: METER wil Uct fx E m/e Le: tis | Pale) ] CONSUMPTION | AMOUNT 4ulu sul colbkl Oar. ih : 2344 KWH Charye G/4/,11 Fuel Lost Hujyustment bi /. DALK btate Hssistance lab. WilR Kegulatory Lost Uiy (.oc Bree [WS == FST previous Bacance | we we due ied oo OTAL D 7Iaa. BG DATE HABE SRKING & 3036 HAFFY EASTER !! THANK YOU !! McGRATH LIGHT & POWER, INC. P.O. BOX 52 McGRATH, AK 99627 SERVICEFROM Lot / ‘J tole O-98 SL ah acct Lost: MEIER Ht evsatavy Poi Take baat ile) thy ] CONSUMPTION | eo ey PU it as S662 S562 4 BSG 23 Ae KWH Charge BUSA. 64 Fuel Cost Adjustment GEL. BYCR Skate Azcjsetance 137.13CR Regulatory Cost Chreg 6. 72 Spare | LEB ~3G | previous BaLance a. aa me | M1--28-F79 hr 2/70.b6e HERE’S WISHING YOU ALL A SAFE, PROSPEROUS AND HAFEY NEW YEAR !!! THANM yout Zo_th McGRATH LIGHT & POWER, INC. P.O. BOX 52 , McGRATH, AK 99627 / xs SERVICE FROM (ft | ict 21 Were 2 ady gq iE LEK 2/54 Lue | CONSUMPTION ] AMOUNT ‘3463. 58 3 AL ebseu 9463. 58 (34. 49CR 137.13CR KWH Charge Fuel Cost Hajustment Sleate fssistance Regulatory Cost Lhrg 7.93 BENS | yg v1 9 | PREVIOUS BALANCE | _ a. ww BE | Ws-28— 79 Bite BEA. B9 39.3) HX KEKKEKHAPEY SPRING HK EHR ENJOY THE IDITAROD RACE ! THANG Ra Yet pPore POAVMEHMTS | McGRATH LIGHT & POWER, INC. P.O. BOX 52 McGRATH, AK 99627 a senvicerrom 1@-28-98 wrol1-27-98 3a da¥s acct 1EWS2NA: METER # 27541009 © CURRENT | aaa abel) ] PetoD ED Cain ] PU as S562 3462 24400 BS. 64 33.% KWH Charge B30. 64 Fuel Cost Adjustment 621. 64CR State Assistance 137. 13CR : Regulatory Cost Chrg 6.72 BILLING DATE OUE DATE THANK YOU AND HAVE A SAFE AND HAFFY 1 SEASON 114 HOL.TDAY SFASON 3037 McGRATH LIGHT & POWER, INC. P.O. BOX 52 McGRATH, AK 99627 ( McGRATH LIGHT & POWER, INC. P.O. BOX 52 McGRATH, AK 99627 2 ves senvicerrow OI-CO—98 TO1M-H-9G9 IA dapsh service row WAO—-2B—98 1 WI-SB-3G ST dat nce SUS: METER tt 27541009 \ noct S0S000: METER # eS dapes current | PREVIOUS |e ] re ae previous | consuuprion 9418a9 3462 3375 228aa 6995.73 3375 333 17282 Sal et ~ = 33.89 Fuel Cost Adjustment S42. 79CR Fuel Cost Adjustment 76.6 State Assistance 137. 13CR State Assistance Lay Dine Regulatory Cost Chra 5.85 Regulatory Cost Chrq baa xe | “are” PREVIOUS BALA\ DUE he nce | DATE DATE Is Hol. IJ rd law WEAR A HFI eT WHEN SNOWMACHTNTING ! HOGS HOL) OWEEN & THOMMGGTUTNGE!T! to- a4 THAR voit McGRATH LIGHT & POWER, INC. P.O. BOX 52 ae McGRATH, AK 99627 THANK youl By | McGRATH LIGHT & POWER, INC. P.O. BOX 52 *McGRATH, AK 99627 et SERVICE FROM 1 O6— 28-98 °u7-z2 8-38 3 df sit premrern| AMOUNT 3239 3228 7444 2537.68 ~ aM cactment 156. 67CR Fuel Cos ace 147. 21CR Fuel Cost Adjustment 75. 89CR State AS yy Cost Chra 4. 3a State Assistance 147.21CR Regulatory %-9 uU Regulatory Cost Chrg 2.28 uy” BALANCE a. 22 ore a oe 4865.17 SLUNG | 147 —=2B—9B | PREVIOUS BALANCE 2. ao baz | 2B-28-98 OTAL D 2316. 66 oy ITING |! | Here t am vm Se hee THANK YOU '! sels MCGRATH LIGH!I & PUWER, INU. P.O. BOX. 52 McGRATH, AK 99627 | McGRATH LIGHT & POWER, INC. Le P.O. BOX 52 SERVICE FROM Q4—2B-9B WS-28-98 aa days, McGRATH, AK 99627 ek acct SUSU: METER # 275419091" ; = = CURRENT | PREVIOUS | consumption | AMOUNT servcerrom W5-EB—F8 = 6-28-38 ai d¢ y sd 3181 3112 17040 5722.20 . acct 22340: METER # 2754120 ~ _ cunnent | previous | consumption | Pet 33.56 3208 = 3181 6480 2219.25 ~ Fuel Cost Adjustment 173. 81CR ww, Ja. State Assistance 147.21CR - OOD ; Regulatory Cost Chra 4.77 \e, Fuel Cost Adjustment 66.10CR =—> State Assistance 147.21CR Regulatory Cost Chrg 1.81 BILLING ) = ot —oaATE | (7 BILLING > oY “care | QE—29—FBG | PREVIOUS BALANCE 2.20 YOUR PROMPT PAYMENTS yar ot | 37-28-38 2007.75 AREF APPRECIATED 'tit Ro 43 THAME YOU) FNIOY THE SUNSHTNE «1 RE SAFE, HAVF FIN!!! . HAPPY TNDEPENDENCE nay'!! THANK YoU! ! McGRATH LIGHT & P Po oal es OWER, INC. McGRATH, AK 99627 Fue] Cosk Adjust : sFmenk Skate n N= sistance Regul atory Cost Lhrg McGRATH LIGHT & POWER, INC. P.O. BOX 52 McGRATH, AK 99627 IA--9B 10 4 METER it Pata rele) SERVICE FROM IZ acct WIN CTs | 311M 3a75 4a e856.1ce ~~ 34 Fuel fost Adjustment 5S. 68CR State Assistance 147.21CR Regulatory Cost Chrag 2.35 BILLING DATE OUE =, DATE BLING 8-36] previous BALANCE OUE ‘ MAPEY SpRTpgt 3s rs HAPPY Te ., bl Bn 13 SEAS S sorrr YU Y CE FISHING: 7 2MATING SEASON IS HERE \. BAPE fpyearcns PLEASE BE SAFE, WEAR YOUR LIFE TACKFTS AND FMINVI Et MAY-13-99 THU 10:25 AM MTNT TAX NO. 9075243701 P, 02 apuc we. &% original sheer no, 109 Cancelling RECEIVED JUL 0 6 1989 State of Alaska Publlc Uitlities Commission —__-___— ster te = McGrath Light & Power ( TARIFF NO. 2 | Schedule of Rates Schedule 8-2 Permanent Commercial Rates ’ , | Character of Service: | Continuous-Alterneting current 60 HZ+1.5%. 120/240. 120/208, 240 or 480 volts single or three phase. Characteristics depend upon available circuits. Rates per Month: First SOKWH Cents per Kw hour 42.93 Next 450KWH Cents per Kw hour 36.25 ‘ Next 2500KWH Cents per Kw hour 35.22 Next 2200GKWH Cents per Kw hour =: 333.17 Over 2500CKWH Cents per Kw hour (Contract rete} Minimum Charges: - $9.20 per month/meter where the installed transformer’s capscity is SKYA or lesz. !f installed transfer mer's capacity is greater than SK¥A due to customer's load requirement, the minimum charge will be at $1.84 per KYA of instsiled transformer per month. Specisi Provisions: | 4. Seasonal Service: i Seasonel customers purchesi ng ell power requirements from the Company may, upon 30 days written notice to the company, have their minimum monthly charge reduced or waived on disconnection for a period of not more than six (6) Months consecutively inthe winter (November { to April 30) of each yeer. 8. Stendby Service Whenever vervice is supplied for standby the charge shall be $5.52 per KYA of installed transformer capacity. Electric energy sold under this provision shall be billed at the epplicable rate in addition to the charge. The term under thie provision shall not be jess then one yeer. C. Power Cost Equalization: These rates are eligible for power cost equalization in an amount per KWH identified on Tariff Sheet 203. — Torte advice mo, 29 Etrcives S@Dtember 15, 1589 | ‘ oe _ | I iseues oy, McGrath Light & Power us Lili Eine > CGO AI ee william F. Frazier’ Tit, General Manages w - Frazier Cc’ APPENDIX C ELECTRICAL CATALOG DATA MODULAR COMMERCIAL 2'x 4! © 2 LAMPS © RAPID START 2M 240 * Standard door is fully gasketed flush steel with opposing, rotary-action, nylon-coated cam latches, finished after fabrication * Optional flush or regressed aluminum doors * Spring-loaded latches optional * For surface or stem mounting, unit or row installation * Smooth metal side panels * Square corners for modular appearance FEATURES SPECIFICATIONS Ballast Thermally protected, resetting, Class P, HPF ballast standard. Sound rating A, CBM approved in standard combinations. UL listed. Wiring & Electrical AWM, TFN or THHN wire used throughout, rated for required temperatures. 2" diameter K.O. for easy wiring access. Input watts: standard 82, energy saving 66. Materials Metal parts die-formed from code-gauge steel. Standard diffuser 100% acrylic prismatic, #12 pattern. Ye" DIA. K.O. Finish a = ~ Five-stage, iron-phosphate pretreatment ensures - - superior paint adhesion and rust resistance. All steel _ ot parts finished with high-gloss, baked, white polyester enamel (85% gloss, 89% reflectance). Salt spray test 500 hours. Hardness minimum 2H. We" DIA. K.O. (6) 2” DIA. K.O. UL listed i Fixture guaranteed for one year against mechanical defects in manufacture. Dimensions and specifications subject to change without notice MOUNTING DATA For unit or row installation, surface or stem mounting Unit Installation — Minimum of four hangers required~ Row Installation — Consult factory SWIVEL STEM CEILING HANGER SPACER Approval Job Information T-lany TR Sotrce See Sc Oy THOMA: "1 Fa Renacenes™ ope, — FLUORESCENT COMMERCIAL/INOUSTRIAL LIGHTING Ror Lost HE MDED, SHEET 2M 240 2M 240 2x 4'* 7 LAMPS © RAPID START PHOTOMETRICS 2M 240 A12* COEFFICIENTS OF UTILIZATION ZONAL CAVITY ZONAL LUMEN SUMMARY ZONE | LUMENS | % LAMP %s FIXTURE | 0-30 25.0 43 30-60 2579 403 4 60-90 482 75 10.3 TOTAL 4658 72.8 100.0 2) 2/2 BRARGEERGLG nasssrenes | ¥ § nresessecs | 3 Sworomusens Bsestsuerr VRBVRSSNSS * Standard ballast, F40T12/CW lamps (3200 lumens) Spacing criterion: 1.4 x mounting height For photometrics on other configurations, see Technical Data section or Lithonia representative ORDERING INFORMATION _ Example: 2M 240 RW A19 120 ES Expl. i f eg err a Series VOLTAGE 120 or 277 Others available—consult factory Number of lamps (not included) Nominal 40W (48”) DIFFUSER TYPE Al2 #12 pattern acrylic A12.125 #12 patern acrylic, 125” thick A19 #19 pattern acrylic, 156" thick K20 #20 pattern acrylic, 140° thick IM Injection-moided acrylic, 150” thick B4Y Holophane 8224 with overiay ac Oropped-dish, matte white acrylic Pct Parabolic plastic cube louver FRAME TYPE FLUSH FLUSH REGRESSED STEEL ALUMINUM ALUMINUM {blank)-White FN-Natural RN-Natural FM-Matte Diack RM-Matte black FW-White RW-White For complete list of lenses and louvers. see OPTIONS AND ACCESSORIES section OPTIONS ACCESSORIES Order Separately es Energy-saving ballast (Advance Mark Ill, SsQ_ ‘Swivel stem hanger (specity length) Universal SLH or GE Watt-Miser |) 1B Ceiling spacer (1% trom ceiling) St Spring-loaded latches 224 Double stem hanger (24 long) Eu Self-contained emergency lighting For details and complete list of accessories. SA Heat-dissipating surface radiator see OPTIONS AND ACCESSORIES section RIF Radio interterence filter TT? Tamper-resistant door (steel only) FIXTURE SCHEDULE GLR Internal tast-blow fusing sw Stretch-Wrap (palletized in cartons) TYPE CATALOG NUMBER For details and compiete list of options. see OPTIONS AND ACCESSORIES section (©1982 Lithonia Lighting, Rev. 5/87 - Supercedes all previous sheets G7, A LITHONA* — FLUORESCENT COMMERCIAL/INDUSTRIAL LIGHTING A DIVISION OF LITHONIA LIGHTING SHEET 2M 240 P.O BOX A CONYERS GEORGIA 30207-0067 * 404 922-9000 * TELEX 261381 LITHO UR MopuLan commercial | DMI 440 * Standard door is fully gasketed flush steel with opposing, rotary-action, nylon-coated cam latches, finished after fabrication * Optional flush or regressed aluminum doors * Spring-loaded latches optional * For surface or stem mounting, unit or row installation * Smooth metal side panels * Square corners for modular appearance FEATURES Samp models also available. Contact Lithonia representative. SPECIFICATIONS Ballasts Thermally protected, resetting, Class P, HPF ballasts T ie" DIA. K.0. (6) 2” DIA. K.O. standard. Sound rating A, CBM approved in standard combinations. UL listed. . Wiring & Electrical 16%" AWM, TFN or THHN wire used throughout, rated for iL + required temperatures. 2" diameter K.O. for easy wiring access. a l Input watts: standard 165, energy Saving 133. a —— | Materials 4-lamp version shown Metal parts die-formed from code-gauge steel. . Standard diffuser 100% acrylic prismatic, #12 pattern. DIA. K.O. Finish Five-stage, iron-phosphate pretreatment ensures 7 a 7 superior paint adhesion and rust resistance. All steel SSS Parts finished with high-gloss, baked, white polyester enamel (85% gloss, 89% reflectance). Salt spray test 500 hours. Hardness minimum 2H. UL listed Fixture guaranteed for one year against mechanical defects in manufacture. Dimensions and specifications subject to change without notice. MOUNTING DATA For unit or row installation, surface 1B or stem mounting -_— ° Ca Unit Installation — Minimum of four hangers required 4h Row Installation — Consult factory SWIVEL STEM CEILING HANGER SPACER Approval Job Information A-LAme TR SofFACE Hoowred Prete usen Fat “emi” A LITHONIA* FIsTORe REP pe Er ened FLUORESCENT PT Leo ENDEN. “w= COMMERCIAL/INDUSTRIAL LIGHTING SHEET 2M 440 2M 440 2x8» 4 LAMPS" RAPID STA PHOTOMETRICS 2M 440 A12* COEFFICIENTS OF UTILIZATION ZONAL CAVITY CANDLEPOWER ZONAL LUMEN SUMMARY Pte Pee LUMENS | % LAMP |% FIXTURE aia 228 4588 398 865 66 Fy i Tora | 9367 | 654 TYPICAL VCP PERCENTAGES . HEIGHT HEIGHT ALONG ACROSS 1 8s WO 85 0 a 6 68 * Standard ballasts, F40T12/CW lamps (3200 lumens) 3 2 Spacing criterion: 1.3 x mounting height 80 3357 For photometrics on other configurations, see Technical Data section or Lithonia representative BRARGERRALS Bwoorveusuns RBSESLESLA SRRVELSSERB ORDERING INFORMATION Example: 2M 440 FW K20 277 EL Explanati f Catalog Number: | 440 | Series VOLTAGE 120 or 277 Number of lamps (not included) Others available—consult factory Nominal 40W (48”) DIFFUSER TYPE Al2 #12 pattern acrylic A12.125 #12 pattern acrylic, 1257 thick AI9 #19 pattern acrylic. .156” thick K20 #20 pattern acrylic, 140” thick FRAME TYPE _IM___Injection-molded acrylic, 1507 thick FLUSH FLUSH REGRESSED B4Y___Holophane 6224 with overlay SSS STEEL ALUMINUM ALUMINUM AC Dropped-dish, matte white acrylic PC1 Parabolic plastic cube louver (blank)-White FN-Natural RN-Natural FM-Matte black RM-Matte black FW-White RW-White For complete list of lenses and louvers. see OPTIONS AND ACCESSORIES section OPTIONS Es Energy-saving ballasts (Advance Mark III ACCESSORIES Order Separately sQ_ Swivel stem hanger (specity length) Universal SLH or GE Watt-Miser |) 1B Ceiling spacer (1'%2” trom ceiling) st Spring-loaded latches 224 Doubie stem hanger (24” long) EL Self-contained emergency lighting For details and complete list of accessories, SR Heat-dissipating surtace radiator see OPTIONS AND ACCESSORIES section RIF Radio interterence filter FIXTURE SCHEDULE TP Tamper-resistant door (steel! only) TYPE GLR Internal tast-blow fusing _ CATALOG NUMBER sw Stretch-Wrap (palletized in cartons) s | For details and complete list of options. see OPTIONS AND ACCESSORIES section REMARKS ©1982 Lithonia Lighting, Rev. 5/87 - Superceges all previous sheets ‘A LITHOMA’ — FLUORESCENT COMMERCIAL/INDUSTRIAL LIGHTING A DIVISION OF LITHONIA LIGHTING SHEET 2M 440 P.O BOX A CONYERS. GEORGIA 30207-0067 * 404 922-9000 » TELEX 261381 LITHO UR NUMBER TYPE F32T8 F32T8 F32T8 F40T8 F40T8 F40T8 F32T8 -- F40T8: RAPID START LAMP For detailed explanation of chart headings and listings, see pages 6 and 7. 14 amr may e 2. Maximum remote 265mA e VOLTS | Lame") SiR M® EATALPG NUMBER | BALLAST WATIS| CURRENT| PACTOR | BEHCACY | BARAT WATTS TEMP (°F) (ANSI) | (AMPS) (AVG.) | FACTOR | DIST (BEF) (% THD) G-2S32-TP Mark III 71 22 95 1.34 <15 347 - so | GK2832-TP PowrKut 62 | 20 | 88 142 | <15 GEL-2P32-RH-TP Electronic 58 17 88 1.52 <20 | GEL-2S32-RH-TP Electronic 62 18 88 1.42 <20 REL-3P32-RH-TP Electronic 88 75 90 1.02 <20 REL-3S32-RH-TP Electronic 94 -80 89 0.94 <20 120 32 50 REL-3P32-LW-TH-TP | Electronic Low Watts} 76 63 75 0.99 <20 REL-3S32-LW-TH-TP | Electronic Low Watts| 76 64 73 0.96 <20 RCN-3P32 Centium Electronic | 88 74 92 1.05 <10 RCN-3P32-LW Centium Low Watts | 75 64 78 1.05 <10 VEL-3P32-RH-TP Electronic 88 32 .90 1.02 <20 VEL-3S32-RH-TP Electronic 94 35 89 0.94 <20 277 32 50 VEL-3P32-LW-RH-TP| Electronic Low Watts} 76 27 75 0.99 <20 VEL-3S32-LW-RH-TP | Electronic Low Watts} 76 .28 73 0.96 <20 VCN-3P32 Centium Electronic | 88 32 92 1.05 <10 VCN-3P32-LW Centium Low Watts | 75 .28 79 1.05 <10 Sm 347 32 50 GEL-3P32-RH-TP Electronic 88 .26 90 1.02 <20 Arey REL-4P32-RH-TP Electronic 108 95 85 0.76 <20 120 32 50 REL-4P32-LW-RH-TP | Electronic Low Watts| 98 83 75 0.77 <20 (CN-4P32’ > Centium Electronic | 112 94 88 0.79 <10 RCN-4P32-LW Centium Low Watts| 99 83 76 0.76 <10 VEL-4P32-RH-TP Electronic 112 Al 85 0.76 <20 277 2 st VEL-4P32-LW-RH-TP| Electronic Low Watts} 98 36 75 0.77 <20 VCN-4P32 Centium Electronic | 112 Al 88 0.79 <10 VCN-4P32-LW Centium Low Watts | 99 36 76 0.76 <10 347 [| 32 50 |GEL-4P32-RH-TP | Electronic | 106 | 31185] 0807) a0 R-1P840-TP Magnetic 50 44 93 1.86 <20 120 40 50 REL-1P32-RH-TP Electronic 36 31 85 2.36 <20 RCN-1P32 Centum Electronic | 35 31 88 2.51 <10 |v 1P840-TP Magnetic 50 19 93 1.86 <20 277 40 50 | VEL-1P32-RH-TP _| Electronic 36 13 85 2.36 | <20 VCN-1P32 Centium Electronic | 35 13 88 2.83 <10 120 40 50 R-2P840-TP Magnetic 92 77 93 1.01 <20 277 40 50 | V-2P840-TP Magnetic 92 | 34 oe a <20 REL-3P32-RH-TP Electronic 107 91 85 0.79 <20 a 120 40 7 RCN-3P32 Centum Electronic | 106 88 -93 0.87 <l0 . y 277 40 50 VEL-3P32-RH-TP Electronic 107 39 85 0.79 <20 ~ VCN-3P32 Centium Electronic | 106 38 .93 0.87 <l0 CERTIFICATIONS CATALOG NUMBER NOTES LAMP. BALLAST SOUND DIMEMSIONS WIRING @ @ © =. (ALL CLASS P) OPERATION | CIRCUIT RATING (PAGE 42) (PAGE a0} e @ G-2832-TP RS Ser. A T2 21 e e GK-2S32-TP RS Ser. A T2 21 e GEL-2P32-RH-TP 2 Is Par. A T2 64 e GEL-2832-RH-TP , 1 RS Ser. A T2 21 ele @ | REL-3P32-RH-TP 2 Is Par, A T2 65 ee REL-3S32-RH-TP 3 RS Ser. A T2 27 ele REL-3P32-LW-TH-TP 2 IS Par. A T2 65 ee REL-3S32-LW-TH-TP 3 RS Ser, A T2 27 ee @ | RCN-3P32 2 Is Par. A T2 65 @|@e RCN-3P32-LW 2 Is Par. A T2 65 ee @ | VEL-3P32-RH-TP 2 Is Par. A T2 65 ee VEL-3S32-RH-TP 3 RS Ser. A T2 27 e\e VEL-3P32-LW-RH-TP 2 IS Par, A T2 65 ee VEL-3S32-LW-RH-TP 3 RS Ser. A T2 27 ee @ | VCN-3P32 2 Is Par. A T2 65 a e VCN-3P32-LW 2 Is Par. A T2 65 e GEL-3P32-TH-TP 2 IS Par. A T2 65 ele REL-4P32-RH-TP 2 Is Par. A T2 66 e\e REL-4P32-LW-RH-TP 2 IS Par. A T2 66 ee —~ KCN-4P32 \ 2 IS Par. A T2 66 e\e RCN-4P32-LW 2 IS Par. A T2 ee VEL-4P32-RH-TP 2 IS Par. A T2 66 e\e VEL-4P32-LW-RH-TP 2 IS Par. A T2 66 e\e @ | VCN-4P32 2 Is Par. A T2 66 e\e VCN-4P32-LW 2 Is Par. A T2 66 e GEL-4P32-RH-TP 2 IS Par. A T2 66 ee e R-1P840-TP RS - A T2 20 e\e REL-1P32-RH-TP 2 Is Par. A T2 63 ee RCN-1P32 2 IS Par, A T2 63 e@| V-1P840-TP RS 7 A T2 20 elie VEL-1P32-RH-TP 2 IS Par. A T2 63 ele VCN-1P32 2 IS Par. A T2 63 ee R-2P840-TP RS Ser. A T2 21 @. “||| v-2P840-TP RS Ser. a |. t2. | Qi e\e REL-3P32-RH-TP 2 IS Par, A T-2 65 ee RCN-3P32 2 IS Par, A T2 65 ° ee VEL-3P32-RH-TP 2 IS Par. A T2 65 ee VCN-3P32 2 IS Par. A T2 65 15 F32T8 F32T8 {Continued on Page 14) ' CIRCUIT VOLTS 120 277 347 120 277 NOMINAL LAMP WATTS 32 32 32 32 32 CATALOG NUMBER For detailed explanation of chart headings and listings, see pages 6 and 7. 1. Both lamps o: 2. Max 12 amp must be anv lamp com: tely mounted from ballast 120 ft. max. lead # Ballast when single re lamp ts remote: => ented. eneth. Blue . BALLAST INPUT| LINE _| BALLAST| BALLAST | TOTAL TBH 9 [APCS VASP SB | (BEF) (% THD) R-1P32-TP Mark III 37 | 32 96 | 259 | <20 RK-132-TP PowrKut Companion} 34 31 88 2.59 <15 50 |REL-1P32-RH-TP _ | Electronic 32 | 28 92 | 288 | <20 ,| RCN-1P32 Centium Electronic | 32 | .28 2 | 288 | <0 RIC-132-TP Mark V Electronic | 31 27 87 | 281 | <10 |. Sd) «eaPs2-tP (Mane) a7) aa) 9s ns a VK-132-TP PowrKut Companion] 34 | .13 88 | 259 | <5 50 |VEL-1P32-RH-TP _| Electronic 32 | 12 92 | 288 | <20 VCN-1P32 Centium Electronic | 32 | .12 92 | 288 | <10 VIC-132-TP Mark V Electronic | 31 12 87 | 281 | <5 G-1832-TP Mark Il 37 | oa 95 | 257 | <15 50 |GK-132-TP PowrKut Companion] 34 | .10 88 | 259 | <5 GEL-2P32-RH-TP _| Electronic 38 | 110 | 289 | <25 R-2P32-TP Mark III 71 61 97 1.37 | <20 RK-2S32-TP PowrKut 62 | 56 88 1.42 | <15 REL-2P32-RH-TP _| Electronic 58 | .49 88 152 | <20 pe p< REL-2832-RH-TP _) | Electronic oz | 53 | 88 [ ia [ao & REL-2P32-HL-RH-TP | Electronic High Light] 76 | .64 | 1.15 | 151 | <20 59 |REL2P32-LW-RH-TP | Electronic Low Watts| 51 4B 75 | 1.47 | <20 REL-2S32-LW-RH-TP | Electronic Low Watts} 51 4B 2B 143 | <20 RCN-2P32 Centium Electronic | 58 | .49 87 150 | <10 RCN-2P32-LW Centium Low Watts | 50 | .43 78 156 | <10 RCN-2832 Centium Electronic | 62 | 52 88 | 1.42 | <10 RCN-2S32-LW Centium Low Watts | 54 | 46 75 139 | <10 RIC-2S32-TP Mark V Electronic | 60 | 52 87 | 1.45 | <10 V-2P32-TP Mark Ill 71 26 96 1.35 | <20 VK-2832-TP PowrKut 62 | 24 88 1.42 | <5 VEL-2P32-RH-TP _| Electronic sa | 21 88 1.52 | <20 VEL-2S32-RH-TP _| Electronic 62 23 88 | 141 | <20 VEL-2P32-HL-RH-TP | Electronic High Light] 76 | 28 11s | 1st | <20 sq [VEL-2P32-LW-RH-TP | Electronic Low Watts | 51 18 75 1.47 | <20 VEL-2S32-LW-RH-TP | Electronic Low Watts | 51 19 73 | 143 | <20 VCN-2P32 Centium Electronic 58 21 87 1.50 <10 VCN-2P32-LW Centium Low Watts] 50 | 18 78 | 156 | <10 VCN-2832 Centium Electronic | 62 23 88 1.42 | <10 VCN-2S32-LW Centium Low Wats | 54 | 20 | 75 [ 139 |<10. VIC-2S32-TP Mark V Electronic 60 .22 87 1.45 <I5 ~ DAtra CLE oie Ratt CERTIFICATIONS CATALOG NUMBER NOTES LAMP BALLAST SOUND DIMEMSIONS WIRING (ALL CLASS P) OPERATION | CIRCUIT RATING (PAGE 42) DIAGRAM () g © =. (PAGE 40} ee @ | R1P32-1P RS - A T2 20 ele RK-132-TP RS - A T2 20 7 elie @ | REL-1P32-RH-TP 2 1S = A T2 68 ee @ | RCN-1P32 " 2 Is - A T2 68 7 elie RIC-132-TP 2 RS - A T2 20 . ee @ | V-1P32-TP RB | - A T2 | 20 ee VK-132-TP RS : A T2 20 " ee @ | VEL-1P32-RH-TP 2 IS - A T2 68 - elie VCN-1P32 2 IS - A T2 68 ee VIC-132-TP 2 RS = A T2 20 5 e G-1832-TP RS - A T2 20 ele GK-132-TP RS - A T2 20 q e e GEL-2P32-RH-TP 2 is Par. A T2 68 ele @ | @ |R2P32-1P RS Ser. A T2 21 ele e RK-2S32-TP RS Ser. A T2 21 _— ele @ | @ | REL2P32-RH-TP 2 1s Pat. A T2 64 or ele REL-2S32-RH-1P >) 1 RS Set A T2 21 ele REL-2P32-HLRH1P| 2 1s Pat A T2 64 7 ele REL-2P32-IWRH1P| 2 Is Pat. A T2 64 ele REL-2832:1WRH-1P| 1 RS Set A T2 21 4 ele @ | @ [RCN 2P32 2 iS Par. A T2 64 - ele RCN-2P32-LW 2 IS Pat. A T2 64 e RCN-2S32 1 RS Set. A T2 21 7 e RCN-2S32-LW 1 RS Ser. A T2 21 ele @ | @ | Ric2s32-1P 1 RS Ser. A T2 21 ee. @ | @ | V-2P32-TP RS Ser. A T2 21 7 ewe e VK-2832-TP RS Ser. A T2 21 ee @ | @ | VEL2P32-RH-TP 2 1S Pat. A T2 64 > elie VEL-2S32-RH-TP 1 RS Ser. A T2 21 - ele VEL2P32-HLRH-TP| 2 1s Pat. A T2 64 ee VEL2P32-LWRHTP| 2 1s Par. A T2 64 ' ele VEL2S321WRHTP| 1 RS Ser. A T2 21 ee) @ | @ VCN-2P32 2 1S Par. A T2 64 7 e VCN-2P32-LW 2 Is Par. A T2 64 - e VCN-2S32 1 RS Ser. A T2 21 : . e| VCN-2S32-1W 1 RS Ser. A T2 21 ee [@ | |vic-2s32-TP 1 RS Ser. A T2 21 13 L6e Of AD er SOvbee_- (CEST RAS oe STeREE fAee Os ae Rest Room Ultrasonic Wall Occupancy Sensor MYTECH Model RASSTS SS © — RRSTS8 specifically designed for rest room control. * Microprocessor driven occupancy sensor continually learns and adapts to its environment. * — VXR-1000 {potent pending) Adaptive Digital Technology adjusts sensitivity every day, eliminating adjustments and maintenance forever. ¢ Optimum sensitivity is constantly maintained for perfect coverage and maximum energy savings. © Dual Voltage: Sensor operates at 120VAC or 277VAC. © Tamper Resistant: For public areas * Designed and manufactured in United States: Manufactured in our Texas plant for guaranteed quality control. THEORY OF OPERATION: The model RRSST8 is a smart ultrasonic occupancy sensor that replaces @ standard wall switch. After installation, the sensor continuously adjusts its sensitivity automatically for optimum coverage and maximum energy savings. When first installed, it might take up to ten hours to achieve desired sensitivity. The sensor emits a low powered sound wave that is reflected off walls and objects in the room and is received back at the sensor. Motion is detected to either turn the lighting ON automatically, or maintain the lighting while the space is occupied. When the sensor detects no motion, cher a time delay, the lighting is turned OFF. Ultrasonics are volumetric, the room is filled with the _ sensing field, eliminating dead zones in coverage pattern. HRSSTO FEATURES: VXR-1000 (patent pending) Adaptive Digital Technology: Microprocessor driven occupancy sensor learns and adapts to its environment. Sensor sensitivity is automatically adjusted every day, eliminating all manual adjustments and maintenance. Optimum sensitivity is constantly maintained for perfect coverage and maximum energy savings. Inrush Current Limiter: Microprocessor controlled circuitry protects relay contacts during initial turn On, ‘eliminating high peak currents, extending the life of sensor. Dual Voltage: Dual voltage power supply allows sensor to control lighting loads at 120VAC or 277VAC. . Tamper Resistant: Control adjustments on bottom of unit are removable and Auto/OF# switch is recessed, making unit accessible to authorized personnel only. Relay for Load Control: Dry relay contacts switch the lighting load enabling the sensor to be compatible with electronic ballasts. Optional second relay (-DC) for control of a second load. Automatic ON: Lighting is instantly activated upon entering the controlled space Warranty: Five year warranty PRODUCT SPECIFICATIONS: Construction: VXR-1000 (potent pending) Adaptive Digital Technology for automatic sensitivity adjustment. Two ultrasonic transmitters and one receiver, each 18mm in diameter, operate at 32.768 Khz. microprocessor controlled circuitry for airflow rejection and automatic sensitivity adjustment. Housing is made of rugged, impact resistant molded plastic, UL94V5 flammability rated. Color: White, Ivory or Gray. Size and Weight: 5"x5"x1.37" HWD; approx. 1 loz. Options: -DC for Dual Circuit. A second isolated dry contact relay for the control of a second circuit. Range and Coverage: 180 degree field of view. Capable of detecting six inches of hand motion towards sensor at a distance of 22 feet, and body motion towards sensor at 32 feet. Coverage up to 600 square feet. Controls: Linear sensitivity adjustment from 0% to 100% is available to limit maximum sensitivity setting. For most applications, sensitivity will be set to 100% and sensor will automatically tune for optimum coverage and maximum savings. Linear time out adjustment from 8 seconds to 32 minutes. Control adjustments on bottom of case, removable to resist tampering. Recessed, Automatic/Off air gap switch on bottom of case, no over-ride to ON. Two transmitter controls on back of unit for focusing signal. Real time motion indicator on front of unit Power Requirements: Electrical interface of sensor to lighting system accomplished with two connections. Building ground not required. Dry contact relay utilized for load control. Operating voltages: 120VAC or 277VAC; 50/60 Hz. Operating environment: 32 degrees F to 120 degrees F; 0% to 95% non-condensing relative humidity. Electrical Ratings: 1 20VAC: minimum 40 watts, maximum 7.40 watts ballast 277VAC: minimum 90 watts, maximum 1400 watts ballast. Dual circuit (-DC option) maximum 600 watts at 120VAC, 1400 watts at 277VAC of second circuit. Compatible with all electronic ballasts. Approvals: UL & CSA Listed, California Title 24 Certified, New York City Bureau of Electrical Control Approved COVERAGE PATTERN OPEN AREA REST ROOM APPLICATION SENSOR BODY MOTION SIGNAL BOUNCES AROUND MODESTY WALL, — — — HAND/ARM MOTION OVER AND UNDER STALL WALLS WIRING © ete LOAD 1 Loap2 wal © PE LOAD 1 a 120 VAC Ri oe. 120 VAC wyter dow ROT 4 ia wren lowe R HOT 4 2 So fe voap 1 Loap2—ief 2 fe Roan SF azz vac $a SSS 77 vac HOT 2 * sytem | Hot — lee RK HoT 1 SINGLE CIRCUIT DUAL CIRCUIT CONTROLS MOTION INDICATOR MOUKTING * Mounts to single gang switch box. For double gang box mounting, use adapter SS-DGA (supplied with the dual circuit option). © For indoor use only. Mount within three (3) feet of door. Security Mounting Screws available: Accessory SMS-2. ———— ORDERING Model No.: RRSST8 Add: oC For Dual Circuit SENSITIVITY CONTROL -l For color ivory (0% - 100%) Ww For color white G For color SECURE, RECESSED grey AUTO/OFF SWITCH TIMER CONTROL, (8 sec. to 32 min.) SUMECT TO ANGE WITHOUT NONCE 72-00017B 02/27/95 706 Brentwood Street eee Austin, Texas 78752 = i Phone: 1-800-888-8006 MYTECH : Fax. 1-512-450-1215 za aeurwuwvse vrbevsePr LuAL_ LUNOSI EE | ae SC PARE SERPSH— CLASS Res ye MYTECH FEATURES aaa Two Operating Modes: Once the sensor has adapted to current room conditions, a threshold is set to deter- mine which mode the sensor will reside in for that period. Once in Circadian Learning, the change be- tween Miser and High Sensitivity modes is automatic. Self-adjusting Settings: Callbacks for adjustment are eleminated. Ultrasonic and intrared sensitivity, timer, and air current compensation are continuously analyzed. Battery-back-up Memory: Learned and adjusted settings saved in protected memory. Power outages will not cause status loss. Wide Coverage: Select the approximate area needed. Units trom 500 to 2000 sq. ft. available. Small Size: The spherical-section shape makes the installation almost invisible. Accurate, Consistent Switching: Occupant ‘complaints are eliminated: lights are on when room is occupied. off when empty. Annoying false-offs are minimized and lights on at night is eliminated. Visual Status Reporting: By waving 5 times at the sensor, the status is visually reported through a coded light sequence. Fast, Simple Installation: a single mounting post and three color-coded wires make installation easy. OPTIONS/ACCESSORIES -RP: Relay and Photocell Included (both). Relay: NO + NC contacts. 300ma rated @ 24vdc, three wire, isolated relay. Photocell: 0-1000 Lux adjustable, prevents lights from turning on when the room is adequately lit by natural light, mounts under the infrared lens. WMR: Sensor mounting ring for surface raceway (5 pack) SPECIFICATIONS Green LED Lamp: Ultrasonic motion; operational status code (every 2 minutes). Indicator Red LED Lamp: Intrared motion. Construction: Two ultrasonic transmitters and two narrow bandwidth receivers each l6mm Specifications in diameter. Frequency - Crystal controlled to +.005%. Transducers ~ Oriented north and south (DT2000 only, others use single pairs), angled 30° down from horizontal. Housing - Rugged, high-impact, injection molded plastic KJB ABS Cyolac (UL-945VA) flame class rating, UV inhibitors. Color coded leads are 6”. Size & Weight: 4.5” dia., 1.5” height; 5 oz. (114 mm dia., 38 mm height; 142 g.) Color: White. Power Requirements: 24 VDC, 33 mA (use MP-series power pack.) Output: 24 VDC active high logic control signal with short circuit protection and optional dry contact (see -RP option). Operating Environment: 32°F to 104 F (0 C to 40°C); 0% to 95% non-condensing, relative humidity. For indoor use only. Warranty: 5 years. “O.TELLOW WHiTe OMMON BLUE WHITE NC BLACK WHITE Wiring POWER 24V0C COMMON SNTROL + PHOTOCELL CONTROL OMNI-DT (Standard) OMNI-DT (-RP Option) ——ea eB ecereoramm MYTECH CONTROLS \ x DIP Switch Settings (all switches OFF for full automatic operation): - Function Full Aucomatic Switch Position : ‘Orr Auto Manual ‘Automauie (Normal) ABank [Eo raven inaicators igs Intente Moto Reset Learned Secungs Retain Secengs (Normal) Strong Arrflow Compensation Disable Compensation (Normal) B Bank Over Qoorway instaiiauon? — No (Normai) Tiener Aonat Adjust Timer Automatically Knob Color Conditions Analyzedin Knob Setting Under Recommended Control Function Automatic Operation Automatic Operation Manual Operation** Manual Setting Green: Sets the ultrasonic range | Sensor analyzes room and | Air currents Linear range setting 50% (D> Ultrasonic sets sensitivity to optimal | False-on occurrences Full CCW = min (off) (“P Sensitivity setting ’ False-off " Full CW = max range a. Red: Sets the infrared range Same as above Room (surface) temp Same as above 75% Infrared Lens dirt Cv) Sensitivity Signal to noise ratio —_Z~ Black: Sets the length of time Timer setting generally False-off occurences Linear range setting 33% D> Timer lights will remain on after | increased during learning | Error free operation de- | Full CCW = min (8 sec .) | [O min. >“ last motion is sensed period, then decreases to | creases the timer setting | Full CW = max (30 min.) rnRK minimize "on" time Blue: Sets level of daylight need-| No automatic operation | N/A Linear range setting Off la Photocelil ed to prevent the lights Full CCW = min daylight | unless ) from turning on Full CW = max (off) used ATX< **When a function is set to "Automatic Operation" the initial setting is determined by the position of the knob. CCW is counter clockwise, CW is clockwise MODELS Part Number Coverage Transducer Pairs Operating Frequency Infrared Lens Additional Features OMNI-DTS500 500 sq. ft. One 40kHz Standard OMNI-DTSOO-RP 500 sq. ft. One 40kHz Standard Isolated Relay; Photocell - ~OMNI-DT | 000 __ 1000 sq. fe. One 32kHz Standard > OMNI-DT1000-RP 1000 sq. ft. One ~32kHz Standard lsolated Relay; Photocell OMNI-DT2000 2000 sq. ft. Two 32kHz Standard OMNI-DT2000-RP 2000 sq. ft. Two 32kHz Standard Isolated Relay; Photocell RANGES 0 5 10 1S 20 25 30 35 “0 $ 10 IS 20 28 30 35 30.25 20 1S 10 5 0 S$ 10 1S 20 25 30 2s / as as 20 j 2 20 1s / Is is 10 | ‘0 10 s | 5 s ° { ° ° 5 s 5 10 40 10 1s 's 1s 20 20 j 20 2s as J 2s OMNI-DT500 OMNI-DT1000 OMNI-DT2000 —_ a Ultrasonic Range Key O 3 Minor Motion Infrared Range Key Major Motion Minor Motion Major Motion 8 tt. Coiling height a FEATURES Heavy-duty channel, die-formed from code-gauge steel. Optional aluminum construction available. * Available in tandem-wired lengths. * Sturdy channel cover secured by captive quarter- turn latch for easy access to wireway. * High-gloss, baked white enamel finish. * Combination endplate/channel connector fur- nished with each fixture. * Accepts plug-in options for 1, 2 or 3 primary cir- cuits. * For unit or row installations, surface or suspended mounting. ¢ Guaranteed for one year against mechanical de- fects in manufacture. SPECIFICATIONS BALLAST — Thermally protected, resetting, Class P, HPF, non-PCB, UL listed, CSA-certified ballast is standard. Sound rated A. Standard combinations are CBM approved and conform to UL 935. WIRING & ELECTRICAL — Fixture conforms to UL 1570 and is suitable for damp locations. AWM, TFN or THHN wire used throughout, rated for required temperatures. MATERIALS — Housing formed from cold-rolled steel. No asbestos is used in this product. FINISH — Five-stage iron-phosphate pretreatment ensures superior paint adhesion and rust resis- tance. Painted parts finished with high-gloss, baked white enamel. LISTING — UL listed and labeled. CSA certified (see options). NOM labeled (see options). Specifications subject to change without notice. E NERGY Luminaire Efficiency Rating (LER) Catalog number General Purpose Strip C Rapid Start One lamp LER.FS = 52. Two lamp LER.FS = 59. Based on 34W 712, 2650 lumen lamp and energy-saving Magnetic ballast with ballast factor = .87 and input watts = 42 (1 lamp), 71 (2 lamps). Calculated in accordance with NEMA standard details. LE-5. See LER sheet for 2',3' or 4' length lor 2 lamps * Calculated using the zonal cavity method in accordance with IESNA LM41 procedure. Floor reflectances are 20%. Full photometric data available upon request. C140 C240 C232 Report LTL 5423 Report ITL 18235 Report L 5181 S/MH 1.6 S/MH 1.6 S/MH 1.3 Coefficient of Utilization Coefficient of Utilization Coefficient of Utilization Ceiling 80% 10% 0% Ceiling 80% 20% 3% Ceiling 80% 10% 50% Wall 10% 50% 30% 70% 50% 30% 50% 30% 10% Wall 70% 50% 30% 70% 50% 30% 50% 30% 10% Wall 70% 50% 30% 70% 50% 30% 50% 30% 10% 1 96 90 85 91 86 81 79 75 72 1 92 87 83 88 83 79 76 73 70 1 95 90 85 91 86 82 79 76 73 2 86 76 69 81 73 66 67 61 56 2 83 75 68 79 72 66 65 60 56 2 85 77 70 81 74 67 67 62 58 3.77 66 58 74 63 55 58 51 46 3 75 65 58 71 62 55 57 51 46 3° 78 67 59 74 64 57 59 53 48 4 70 58 49 67 56 47 51 48 38 4 69 57 49 65 55 47 50 44 39 4 71 59 50 67 56 48 52 45 40 5 64 51 41 61 49 40 45 .37 32 5 62 50 42 59 48 40 44 37 32 5 64 51 43 61 49 41 45 38 33 10 42 29 21 40 28 21 26 79 15 10 41: -29:«22:0=O39 2B «2126 «19 15 10 42 30 22 40 29 21 26 20 16 Zonal Lumens Summary Zonal Lumens Summary Zonal Lumens Summary Zone Lumens %Lamp %Fixture Zone Lumens %Llamp %Fixture Zone Lumens ‘lamp %Fixture 0-30 400 (13.7 145 0-30 906 14.2 15.7 0-30 842) «14.5 15.6 0-40 679 23.2 24.6 0-40 1544 (24.1 26.8 0-40 1436 24.8 26.6 0-60 1348 46.1 48.7 0-60 3017 47.1 §2.3 0-60 2810 48.5 $2.1 0-90 2263 77.4 81.8 0-90 4578 «71.5 79.4 0-90 4357 75.1 80.8 90-180 503 17.2 18.2 90-180 1187 18.6 20.6 90-180 1033 17.8 19.2 0-180 2766 94.6 100.0 0-180 5765 90.1 100.0 0-180 5390 92.9 100.0 (4 LITHONIA LIGHTING COMMERCIAL & INDUSTRIAL FLUORESCENT LIGHTING CRS C Rapid Start MOUNTING DATA DIMENSIONS For unit or row installation, surface or suspended mounting. Inches (centimeters). Subject Unit installation — Minimum of two hangers required. Aluminum channels have different mounting details: OTe Dhih ne pare PRL ee required. One per 48°, 72° and 96° have only two 7/8” K.0.'s 6" from each end plus one pi stale 24° and 36" have only two 7/8” K.0.'s 3-1/4" from each end Hooker® (HRC) and HC Hangers — Minimum two per channel (unit and row) See ACCESSORIES below for hanging devices. 36 6 (91.33) 4 | 15.24) . Ds sa . oo Ho. HRC 48 [ (121.92) 6 + Ms.247 : 25) — z El a4, bc T T 2-116 ©, 2-116 t | 2-15/16 (15.24) | (5.23) ae) (5.23) 2.15/16 LL (10.73) (121.92) (15.24) O = 11/16 (1.74) Dia.K.O. E = 7/8 (2.22) Dia.K.0. F = 1-1/4 (3.17) Dia.K.O. - H = 2 (5.08) Dia.K.0. (10.79) (121.92) (15.24) ORDERING INFORMATION Example: C 1 40 120 ES GLR f Series Number of Lamp type Voltage Options C General — lamps 15 15W TS 712 (18")? 120, 277, 347 Es Energy-saving ballasts (30W or 40W lamps Purpose strip 1,2 15PH 15WPH 712 (18")' Others available only). For tandem double- Not included 17 17WT8 (28°) GEB Electronic ballasts, <20% THD. length unit, add GEB10 Electronic ballasts, <10% THD. , . 1 prefix T. Example: TC “ std _ n pi HPF Hi 7 power factor ballasts (SW and 20W only). 25 25W T8 (36°) LPF Low power factor ballasts (1SW, 20W and Accessories 30PH 30W PH T12 (36")' 30W only). ; Order as separate catalog numbers. 30 30W RS HPF T12 (36°) EL Emergency battery pack (nominal 300 sa inerements) hanger (speciy length in Z 32 32W 78 (48°) GLR Internal fast-blow fuse (add X for external). 1B Ceiling spacer (adjusts from 1-1/2 to aye 40 4oW T12 (48")* GMF Internal slow-blow fuse (add X for external). from ceiling). CS1 6° cordset, NEMA 5-15P SJT, U-ground plug, CONLGC 17 screw-on channel connector” 120V. WGCUN Wireguard, 4° white? . CS3 6° cordset, NEMA L5-15P SUT, twist-lock HC36 Chain hangers (1 pair, 36° long). 1 PH belasts a lable in | PLF. oe a Specify 1, 2 or 3 branch 2T. ili vailable in low _ Plug-in wiring. Specify 1, 2 or 3 branc nner noatesanrnae (ta echtg, Spore ert ad ps co, WGCSMR Wireguard, 4’ white for symmetric : : See fer tan. MP orrone Sone oUne) i ; . : reflector? standard on 277V. 2INKO 2°K.0. in channel. . WGCASR Wireguard, 4° white for asymmetric 3 Order 2 for 8' fixtures. AL Aluminum housing, white enamel finish reflector.’ 4 LPF is available for residential CSA CSA-labeled for US shipment to Canada. CSMR 48WH Symmetric reflector, 4° white, 7° aperture? buildings only. NOM NOM-labeled for shipment to Mexico. CASR 48WH 4° asymmetric reflector, white, 5-3/4" wide? SW Palletized and stretch-wrapped. [A LITHONIA LIGHTING CRS COMMERCIAL & INDUSTRIAL FLUORESCENT LIGHTING cen Lighting 5/96 P.O. BOX A, CONYERS. GEORGIA 30207-0067. TELEPHONE 770 922-9000. FAX 770 860-3106 IN CANADA: 1100 SOTH AVE.. LACHINE. QUEBEC H8T 2V3. A UNIT OF N.S.1. HOLDINGS. INC. ——_e_—_—_—_—_—_—_—_—_—_—_———— FEATU RES Type ; Catalog number HOUSING Engineering-grade polycarbonate housing is impact-resistant, scratch- resistant and corrosion-proof. UL94V-O flame rating. UV-stable resin re- sists discoloration from natural and man-made light sources. * Rugged unibody housing snaps together with no additional mechanical fasteners. Faceplate and back cover are interchangeable on housing. Polycarbonate Exits Positive snap-fit tabs hold faceplate securely, yet pry out easily for lamp compartment access. Universal, directional Chevron inserts are easily removed and reinserted. * Uniform graphics illumination without shadows or hot spots. Reinforced, impact-resistant color panels. Letters 6" high with 3/4” stroke. ¢ U.S. Patent No. 5,526,251. Other patents pending. LED Lamp LAMPS Emergency Operation * LEDs mounted on printed circuit boards. Expected LED life over 25 years. N i Cc kel Ca d miu m B atte ry * Low energy consumption - less than one watt. + LED lamp operates in normal (AC input) and emergency (DC input) modes. * Tru-Green™ LED appearance. Peak wavelength 522nm + 10nm. BATTERY * Sealed, maintenance-free nickel cadmium battery delivers 90 minutes Capacity to emergency lamps. Automatic recharge after 90-minute dis- charge. + Low-voltage disconnect prevents excessively deep discharge that can permanently damage battery. * Recessed, conveniently located test switch and LED provide visual and manual means of monitoring system operation. * No battery connection required. j ELECTRONICS * Constant current series charger minimizes energy consumption and pro- — vides low operating costs. * Printed circuit boards are 100% quality tested during manufacturing. Current-limiting charger circuitry protects printed circuit boards from Mts, sha QUANTUM MOUNTING * Universal (top, end or back) mounting. * Easily removed mounting knockouts. J-box pattern on back panel. * Housing snaps to canopy with four positive-locking tabs. Cam-locking pin tightly secures housing to canopy. CODES * UL listed. Meets UL 924, NFPA 101 (current Life Safety Code), NEC and OSHA illumination standards, and state of Minnesota energy-efficient WARRANTY legislation requiring less than 20W consumption. * Five-year total customer satisfaction warranty, including the LED lamps. See Product Selection Guide for details. ORDERING INFORMATION Example: LOMS W3R 120/277 ELN LOM ELN Family Face type Housing Number of | | Panel color Input Emergency Options ; color faces voltage Operation LOM LED § Stencil - R Red 9 P F Flashing emergency operation A Aluminum W White 1 Single face G Green 120/277 Dual ELN Nickel (one flash/sec)*? appear- 3 Single face voltage cadmium FI Fire alarm flashing interface?? feel ia a one EL batary FA Flashing emergency operation ceplate ceplate lead and intermittent audible alarm and color calcium (one flast/sec)? panel Notes: battery’ He High charge indication? 1. Only available with F, FA, Fl and HC options. ooo Accessories 2 Choice of F, FA or Fl. Not available with more than one. Order as separate catalog number. . 3. Only available with lead calcium battery. ELA WAQS12 12° stem kit (white) 4 For other lengths, replace 12 with appropriate ELA WGEX = Wireguard (back mount only) stem length in inches. Example: ELA W QS24 (4 LITHONIA LIGHTING EMERGENCY LIGHTING SYSTEMS EX-672 LOM EL N Emergency LED, Quantum SPECIFICATIONS ELECTRICAL AC lamp Rated Supply Input Max. description’ LED life? voltage watts amps Red LED 25+ years 129 a 048 277 92 .060 Red LED 25+ years 20005 F, FA, Flor HC 277 10.5 048 Tru-Green LED 25+ years 1200 GHB 277 70 .059 Green LED 25+ years 120 15.3 146 F, FA, Fl or HC 277 15.3 061 BATTERY Nickel Cadmium Shelf Expected Optimum Voltage life? life? Maintenance temperature’ 1.2 3 years 7-9 years none* 32°-100°F Sealed Lead Calcium (for F, FA, Fl or HC options) Shelf Expected Optimum Voltage life? life? Maintenance temperature® 6 6 months 5-8 years none 60°-90°F Notes: 1 LED lamps operate in normal (AC input) and emergency (DC input) modes. Based on continuous operation. AtTT°F. Periodic system status test recommended. Optimum ambient temperature range where unit will provide capacity for 90 minutes. Higher and lower temperatures affect life and capacity. Consult factory for detailed information. Onuwn Fully assembled at factory. Housing snaps to canopy for quick, easy installation. at! Unique LEDs provide extremely long life and low MOUNTING All dimensions are inches (millimeters). Shipping weight: 2.6 Ibs. (1.2 kgs.). TOP END — 47/18 = (124) ih t a (740) } (190) 5-1/2 7. % 8-1/4 —_— (203) ao Pilot light / test switch WITH F, FA, FlOR HC OPTIONS All dimensions are inches (millimeters). Shipping weight: 6.6 Ibs. (3.0 kgs.). END — “18 (124) sz |||€ >|| 9-78 (140) (251) 10-3/4 13 (330) | | 13-778 an (352) aH BACK 9-7/8 | (251) 4-15/16 (125) 6-1/2 (165) 13 (330) energy consumption. EX-672 EX-672.PM5 © 1993 Lithonia Lighting, Rev. 7/96 (4 LITHONIA LIGHTING EMERGENCY LIGHTING SYSTEMS ONE LITHONIA WAY, DECATUR, GEORGIA 30035, TELEPHONE 770 987-4200, FAX 770 981-8141 IN CANADA: 1100 SOTH AVE. LACHINE. QUEBEC H8T 2V3. A UNIT OF N.S.1. HOLDINGS. INC. APPENDIX D MECHANICAL CATALOG DATA GRUNDFOS aE Submittal Data Wet-Rotor, In-Line, Single Stage Circulator Pumps VersaFlo”™ UPS40 60 Hertz JOB or CUSTOMER: ENGINEER: CONTRACTOR: 7 SUBMITTED BY: DATE: APPROVED BY: “ DATE: ORDER NO: DATE: SPECIFICATION REF: [ Quantity | TAGNO. | MODELNO. | GPM | FEET | VOLT| PHASE COMMENTS / CP-\_ | uPs4o-/f0| 40 | 35’ | 208| 3 _[Repences 1V2 WP ARMSTRONG S-615 ene Technical Data FLOW RANGE: 13-134 U.S. GPM HEAD RANGE: 1 - 62 FT. MAXIMUM WORKING PRESSURE: 145 PSI FLANGES: 1 1/2", 2-Bolt with (2) 5/e" diameter holes MINIMUM FLUID TEMPERATURE: 14°F (-10°C) MAXIMUM FLUID TEMPERATURE (Open Systems): 140°F (60°C) MAXIMUM FLUID TEMPERATURE (Closed Systems): 230°F (110°C) AMBIENT AIR TEMPERATURE: 32°F (0°C) to 104°F (40°C) Mounting Positions 5b © ym Recommended Optional DO NOT Mount Motor Shaft in Vertical Position Dimensions Type Designation UPS] 40] -/ 80|/2|B | Bronze (optional) <— ps —+ Circulator Pump Number'of motor BI» Nominal diameter poles if 2 and 4 are « of ports in mm available . ¢ os Maximum head in ToT meters x 10 Weights Net Ship. Ship. Pump Wt. wt. Vol. Type PH (Lbs.) (Lbs.) (Cu. Ft.) UPS40-40 1&3 39.5 42 1.63 UPS40-80/4 i 58 60.5 1.63 UPS40-80/4 3 47.5 50.5 1.63 |e pale os of UPS40-80/2__| 1&3 40 43 1.63 UPS40-160 1&3 45.5 48.5 1.63 . . . UPS40-240 1 58 60.5. 1.63 Electrical Data and Dimensions Tae 3 a - Ta Nominal Suc. DIMENSIONS IN INCHES Pump HP at Disc. Type Speed 3 | PH Voltage Size} L1 | L3| B1 | B2 | B4| BS |B7 H1 H2 |H3| D1 | D2] D3 |D4 D6 | 07 UPS40-40 Vs 1 115 or 230 1 /2|13 V2} 6/4} 5 5/16|5 %16| 3%} 3 14% | 26! 98/6 [1211/16] 2 7/e| 3 7/e | 5 [2 '/16)2 Hie uA 3_| 208/230 or 460° UPS40-80/4 ‘le 1 115 or 230 1 "/2}13 /2| 6 Ye] 5 3/4 |5 1613 "16/3 ‘She 4%) 3 8 %/e | 12]1 16] 2 7/s] 37/8 | 5 [2 "16/2 Sie ‘le 3_| 208/230 or 460° | UPS40-80/2 Ya 1 115 or 230 1/2/13 V2] 6%] 5 5/16/56] 3 3 14%} 2 re] 9% 12/1 re] 2 7/s| 37/8 | 5 ]2 16) 2 %r6 a 3_| 208/230 or 460° _« PUP S40-160 3 1 115 or 230 1/2]11 V2] 5 4] 5 %e 15 %18] 4 4 |3%6| 2 '/16] 88s | 12]1 re] 2 7/s| 3 7/e | 5 [2 16] 2 6 a 3_| 208/230 or 460° UPS40-240 1 115 or 230 a\13 "/a| 6/4) 5/4 15 Sie} 4 4 [3 %16] 2 '/16) 10 '/16] 12/1 716] 2 77s] 37s | 512 Viel 2 %ie 1/2 3 | 208/230 or 460° NOTE: ‘460 volt models are two speed only-speeds 2 & 3. orm | Performance Curves (60 Hz — Single and Three Phase Models) UPS40-40 UPS40-80/4 UPS40-80/2 Single Phase Single Phase Single Phase 15 4 30 35 as t CI 25 —— 30 _ + > 10 20 t a3 = ; Sie = tt Loo 4 a a 15 ‘ a q < < rs zis 4 wi wi wi = 5 - = 10 = = 4+ N h + T N 5 a 5 0 0 — 0 0 10 20 30 40 50 60 70 80 90 \ 20 40 60 80 198%120 140 0 20 40 60 80 100 120 CAPACITY (U.S. GPM) CAPACITY (U.S,4PM) by CAPACITY (U.S. GPM) UPS40-40 UPS40-8 UPS40-80/2 Three Phase ree Phese Three Phase 15 30 35 t 25 30 = arg OL : 7 Ly 3 + 23 4 EY E £ == Slt. a a a 15 a S < ala < <15 z 5 c ¥ + z _—— 10 10 t cS 5 +t 0 0 t 1 ° 0 10 20 30 40 50/60 70 80 90 0 20 40 60 80 100 120 140 0 40 60 80 100 120 CAPACITY (SS. GPM) CAPACITY (U.S. GPM) C. CITY (U.S. GPM) MINIMUM INLET RESSURE* MINIMUM INLET PRESSURE* MINIMUM INLETRRESSURE* Fluid TeSperature Fluid Temperature Fluid Temperatyre 167°F 194°F 230°F 167°F 194°F 230°F 167°F 194°F 230°F (75°C) (90°C) (110°C) (75°C) (90°C) (110°C) (75°C) (90°C) 10°C) TO Ft. 10.2 Ft. 53.6 Ft. T.6 Ft. 3.5 Ft. 41.8 Ft. 15.0 Ft. 25.2 Ft. 67 Et. 0.7 Pi 4.4 PSI 23.2 PSI 0.7PSI 1.5 PSI 18.1 PSI 6.5 PSI 10.9 PSI 29.0 PSI UPS40-160 UPS40-240 *Minimum gauge pressure required at the 50 2 s inlet (suction) to ensure effective, trouble- 4 Ps + free operation. Varies by fluid temperature. 40 . . ~26' NSS +f ~50 4 ~ Materials of Construction f30 —= - c 40 | | [DESCRIPTION MATERIAL a. a .=<— Impeller, Beanng Plate, AISI 304 SS S20 S 30 Rotor Cladding, Rotor Can, . = + N i x SN + Bearing Retainers 10 it 20 q Impeller Seal Ring AIS! 304 SS/Teflon® 10 4 Shaft (cast iron pumps), AISI 303 SS rN 4 } Inspection Screw 0 0 i 1 Split Cone, Split Cone Nut / Shaft (bronze pumps) AISI 316 SS 0 20 40 60 80 100 0 20 40 60 80 100 120 CA ITY (U.S. GPM) CAPACITY (U.S. GPM) Shaft Bearing Journals Tungsten Carbide \ Pump Housing’ Cast Iron ASTM GG25 UPS40-160 UPS40-240 “Bronze ~ Optional 358-408 Three Phase Three Phase 50 < i 70 => Stator Housing Aluminum AIS! 10Cu2 q co 60 Rotor End Caps Copper or Brass 4 = : Bi a Upper and Lower Ceramic Al203 > 7 —~ 50 Radial Beanngs {30 4 ot E 40 Thrust Bearing Carbon MY 106 8 = a Ri POM < ms & 30 O-Rings El = YN w N Terminal Box, Nameplate | Composite PA66 1 fZ=E a —P SS \r 20 Plug for Sensor Composite PPS, GF40 — =—J 10 —A = Teflon® is a registered trademark of Dupont i | / ; / T a | \ G D 2 Ke | 9 20) 40 60 80 100 0 20 40 60 80 100 120 140 RUNDFOS “%“% CAPACITY (U.S. GPM) CAPACITY (U.S. GPM) Leaders in Pump Technology MINIMUM INLET PRESSURE* MINIMUM INLET PRESSURE* |Grunatos Pumps Corporation + 2555 Clovis Avenue + Clovis. CA 93612 { Fluid Temperature Fluid Temperature Customer Service gol psy Neca } | 167°F ae 230°F 167°F | 194°F 230°F c. Janvae, Oniane Mosico: Apoaaca, NL | (75°C) (90°C) (110°C) (75°C) (90°C) (110°C) ats Teeter oe) TTF 217 Ft 63.8 Ft [26.8 Ft 37.0 Ft 76.8 Ft g jLWPS-TL-040 | __8/97_| | 5.1 PSI 94 PSI | 276PSI_| [11.6 PSI 16.0 PSI 34.1 PSI swe |_C PRINTED IN USA __| GRUNDFOS A Wet-Rotor, In-Line, Single Stage Circulator Pumps Submittal Data VersaFlo”™ UPS50. 60 Hertz JOB or CUSTOMER: ENGINEER: . CONTRACTOR: SUBMITTED BY: DATE: APPROVED BY: DATE: ORDER NO: DATE: SPECIFICATION REF: QUANTITY TAG NO. MODEL NO. GPM | FEET | VOLT | PHASE COMMENTS l CP-2 UPS SG-/4o| 9o | 46’ |Z08| 3 |perpuces BHP emsteana S$-630 Technical Data HEAD RANGE: 1 - 62 FT. Dimensions * Bt MAXIMUM WORKING PRESSURE: FLANGES: 2", 4-Bolt with (4) 9/16" diameter holes MINIMUM FLUID TEMPERATURE: MAXIMUM FLUID TEMPERATURE (Open Systems): 140°F (60°C) MAXIMUM FLUID TEMPERATURE (Closed Systems): 230°F (110°C) AMBIENT AIR TEMPERATURE: 32°F (0°C) to 104°F (40°C) FLOW RANGE: 20-180 U.S. GPM 145 PSI 14°F (-10°C) 2 She" 87+ Mounting Positions 5S xy xe ODO NOT Mount Motor Shaft in Vertical Position Recommended Optional Type Designation [UPS|50 Circulator Pump Nominal diameter of ports in mm Maximum head in meters x 10 J ‘| 80 |/2 7 Bronze (optional) Number of motor | poles if 2 and 4 are | available SY Weights et’, & i f co > Net Ship. Ship. = ~< ump Wt. Wt. Vol. od Type PH | (Lbs.) (Lbs.) | (Cu. Ft.) 8 UPS50-40 1&3 49 52.5 1.62 mm mm eb — UPS50-80/4 1 64.5 68 1.62 —— “ —— UPS50-80/4 3 605 | 64 1.62 ner UPS50-80/2 | 1&3 49 | 52.5 1.62 eee UPS50-160_ | 1&3] 595 | 625 1.62 Electrical Data and Dimensions vpsso-eto | 3 <2 82 Nominal | Suc. DIMENSIONS IN INCHES Pump HP at Disc. ] ] T ] Type Speed 3| PH Voltage Size| L1 | L3 | B1 | B2 | B4 | BS | B7 | H1| H2 | H3 | D1 | D2) D3 |D4| D6! 07 UPSS50-40 > [4 115 or 230 2 | 141-7 [56/5 %6/ 3%) 3 [4%|3'%| 9%] 13 [2% [3 “Ieo] 4 Vi5]5 174] 2 23. 2 3_| 208/230 or 460° | UPS50-80/4/ «| 1] 115 0r230 2 [tt 2/5 [5% [6 Me] 4% | 4 [4% 13 70[10 72/13 %e| 2 Ve |B Ve] 4 Vs/5 Vel2 V2l3 Ve a 3 | 208/230 or 460° | | | | UPS50-80/2| - yd 115 or 230 2 [11/5 % [5 he] S%e] 3%] 3 [4%el 3 [9 Ve [12 Ve] 2 Ve |B Ve 4 Vel5 V2 V2|3 Vie 3%. | 3 | 208/230 or 460° | | | UPS50-160| 1/2 | 1 230 only 2 | 14 [7 [5% 6% 4 | 4 [4%] 3 AO 7el13 Ye] 2 Vs [3 Vel 4 Vie/5 Vel2 22/3 Vie | | 3 | 208/230 or 460° | | | | | —— Pr UP S50-240 Cy 3 | 208/230 or 460° [ 2] 14 [7 [S% EM) 4 | 4 [4% lS [IO V/1S Tele ve S| 4 VslS Te] Ve]B Tis | 1 1 NOTE: “460 volt models are two speed only-speeds 2 & 3. Performance Curves (60 Hz — Single and Three Phase M CP-2, odels) UPS50-40 UPS50-80/4 UPS50-80/2 Single Phase Single Phase Single Phase 15 > 7 2 5 — 30 ~ 4 it | | BE T I Lo ial | Co 20 = 2 4 | 210 4 , oy I i 20 4 c 2 4 iE 1s { E ES | >» 4 7 pon T T = a TINE RIN Pitti }a t } a1 +--+} i i : & 10 - S J tS == =z 5 = =x=10 4 *\ —\— 4 ia ‘ 5 + + rN ss 1 +N { + 4 0 0 f 0 20 40 60 80 100 120 140 "0 40 60 80 100 120 140 180 QO 20 40 60 80 100 120 140 160 CAPACITY (U.S. GPM) ‘ACITY (U.S. GP CAPACITY (U.S. GPM) | UPS50-40 UPS58:80/4 UPS50-80/2 | Three Phase Three PR Three Phase 15 25 + ——— — 36 | = 20 —NON = 10 - tN : E Es 4 a a = tt < < t t w 1 wt m5 . = = | H+ co T Tot CTH 5 — | 4 REE PET { 4 | | Mop ST 4 q i (Io 0 o 4 L 0 20 40 60 80,f00 120 140 0 20 40 60 80 100 120 140 160 180 © 20 40 60 SX\100 120 140 160} CAPACITY (US. GPM) CAPACITY (U.S. GPM) CAPACITY (USX\GPM) MINIMUM INLET BAESSURE* MINIMUM INLET PRESSURE* MINIMUM INLET PRESSURBs Fluid Temferature Fluid Temperature Fluid Temperature 167°F 4°F 230°F 167°F 194°F 230°F 167°F 194°F | 230°F NI 75°C) (90°C) (110°C) (75°C) (90°C) (110°C) (75°C) (90°C) | (110°C) T.6 Ft. 6.7 Ft. 50.4 Ft. 1.6 Ft. 10.2 Ft 53.6 Ft 10.2 Ft 20.1 Ft. | 61.9Ft 0.7 8 2.9 PSI 21.8 PSI 0.7PSI 4.4 PSI 23.2 PSI 4.4 PSI 8.7 PSI 26.8 PSI | UPS50-160 UPS50-240 * Minimum gauge pressure required at the 50 Single Phase Three Phase inlet (suction) to ensure effective, trouble- C TC = oe = == free operation. Varies by fluid temperature. 40 = -EES | Materials of Construction oe Z as rh a 4 -> ‘ DESCRIPTION MATERIAL & 30 c = + = = Impeller, Bearing Plate, AISI 304 SS a { . : a + Rotor Cladding, Rotor Can, < 50 t < + Bearing Retainers wi wi == NS = t t = = Impeller Seal Ring AISI 304 SS/Tetion® 10 JN Shatt (cast iron pumps), | AISI 303 SS. to NSAP 4 ; Inspection Screw A — == Split Cone. Split Cone Nut ° "lac Shatt (bronze pumps) AISI 316 SS © 20 40 60X80 100 120 140 160 180 © 20 40 60 80 100 120 140 160 180| |Shatt Beanng Journals Tungsten Carbide CAPA (U.S. GPM) CAPACITY (U.S. GPM) Pump Housing® Cast Iron ASTM GG25 UPS50-\60 “Bronze - Opfional 35B-40B Thyte Pha}e Stator Housing Aluminum AISI 10Cu2 50 a t 7 t Rotor End Caps Copper or Brass = - Upper and Lower Ceramic Al203 oes 4 Raga Bearings ; co im } MINIMUM INLET PRESSURE* Thrust Bearing Carbon MY106 ng 30 NON Tt Fluid Temperature ‘O-Rings EPOM | a Z 4° o < f eS a a od Terminal Box. Nameplate _| Composite PA66 | = — — 23.6 Ft 33.5 Ft. 75.3 Ft Plug tor Sensor Composite PPS, GF40 | \ 10.2 PSI 14.5 PSI 32.6 PSI Tetion* 1s a registered trademark of Dupont \ | 7 Oo © 20 40 60 80 100 120 140 160\180 : Xx CAPACITY (U.S. GPM) GRUNDFOS “2% MINIMUM INLET PRESSURE” Leaders in Pump Technology | Fluid Temperature yy, Grundfos Pumps C ti 2555 Clovis Avenue * Clovis, CA 93612 F 194° oF | . runi umps Corporation + jovis Avenue * | 50) | 90°G) ine) | ‘1$0 s00f- Customer Service Centers: Allentown PA + Fresno. CA | eer a7 0m FEB Ft | = Phone: (800) 333-1366 * Fax: (800) 333-1363 {L-UPS-TL-050 | 8/97 | 116 PSI 16.0 PSI 34.1 PSI Canada: Oakville, Ontario * Mexico: Apodaca, NL l PRINTED IN USA GRUNDFOS “E Wet-Rotor, In-Line, Single Stage Circulator Pumps Submittal Data wero VersaFlo”™ UPS40 60 Hertz JOB or CUSTOMER: ENGINEER: CONTRACTOR: . SUBMITTED BY: DATE: APPROVED BY: DATE: ORDER NO: DATE: SPECIFICATION REF: QUANTITY TAG NO. MODEL NO. GPM | FEET | VOLT | PHASE COMMENTS l CPS |upsdo-zdo| 5S | 42’ | 208 Rereaces 2 HP MStReNG S-6Z20 Technical Data FLOW RANGE: 13 - 134 U.S. GPM HEAD RANGE: 1 - 62 FT. MAXIMUM WORKING PRESSURE: 145 PSI FLANGES: 1 1/2", 2-Bolt with (2) 5/s" diameter holes MINIMUM FLUID TEMPERATURE: 14°F (-10°C) MAXIMUM FLUID TEMPERATURE (Open Systems): 140°F (60°C) MAXIMUM FLUID TEMPERATURE (Closed Systems): 230°F (110°C) AMBIENT AIR TEMPERATURE: 32°F (0°C) to 104°F (40°C) Dimensions < Be Recommended Optional Mounting Positions Deallang DO NOT Mount Motor Shaft in Vertical Position "| Type Designation Circulator Pump Nominal diameter 40} -| 80 |/2 B Bronze (optional) Number of motor poles if 2 and 4 are re two speed only-speeds 2 & 3 t of ports in mm available . " tellin 4 Maximum head in meters x 10 Weights .u Net Ship. Ship. Pump Wt. Wt. Vol. PP Type (Lbs.) (Lbs.) (Cu. Ft.) UPS40-40 39.5 42 1.63 Soa lly < — UPS40-80/4 1 58 60.5 1.63 Anan A UPS40-80/4 3 47.5 50.5 1.63 bel ale pad UPS40-80/2 1&3 40 43 1.63 UPS40-160 1&3 45.5 48.5 1.63 . : . UPS40-240 1 58 60.5 1.63 Electrical Data and Dimensions Ups4o240 1 7 os 3 Nominal Suc. DIMENSIONS IN INCHES Pump HP at Disc. T | Type Speed 3 | PH Voltage Size} L1 | L3 | B1 | B2 B5 |B7 D1 (02) 03 pal D6 | D7 UPS40-40 “Vs 1 115 or 230 1/2/13 V2| 6 3/4] 5 5/1615 %16| 3 3 14% 1 /16| 2 7/s} 37/8 | 5/2/1612 %i6 ‘Vs 3 | 208/230 or 460° | UPS40-80/4 ‘le 1 115 or 230 12113 ‘h| 6 a} 5% [5 M16 3/16) 4 2a 1 “he} 27/s| 37/2 | 5|2 Vr6/2 Sie Lee 3_| 208/230 or 460° UPS40-80/2 Ya 1 115 or 230 1/2113 Y2| 6/4) 5 5/1615 16 3 14% 1 ie 2 7/e| 37a | 5|2 /r6/2 S16 3a | 3 | 208/230 or 460° | UPS40-160 | Ya 1 115 or 230 1/2411 "/2| 5 7a] 5 7a [5 ie 4 |[3%6] 2 '/6| 8 S/e 1/16) 2 "fal 37/8 | 52 %/16)2 M16 Ela 3_| 208/230 or 460° | | | UPS40-240 | | 1 115 or 230 1/2113 "/2| 6 7/4] 5 3/4 15 %r6 4 13 %16| 2 '/15/10 ‘16 1 16| 2 7/s] 37/5 | 512/16) 2 6 eo) 3. | 208/230 or 460° | ee NOTE: *460 volfTffodels a —Tro Performance Curves (60 Hz — Single and Three Phase Models) UPS40-40 UPS40-80/4 UPS40-80/2 Single Phase Single Phase Single Phase 15 30 35 BRI - =o 4 CS ns 25 30 — 7 TI FE 25 E 10 a> 20 { E $ + T f G - + + 20 8 i Q 15 a : < | < tN g 15 zs - Fs = 3 : + ‘ an =x 10 1 4 + = — + 0 0 0 : 0 10 20 30 40 50 60 70 80 90 10 20 M60 80 100,f50 140 0 20 40 60 80 100 120 CAPACITY (U.S. GPM) CAPACKY (U.S. GPT) is CAPACITY (U.S. GPM) UPS40-40 UPS40-8 UPS40-80/2 Three Phase Three Phase Three Phase 15 30 35 25 30 i -—== aio = 20 + 25 E E B.S a 1 o1 a f a [ . NE < : < 15 + 5 - 10 * 10 + + +t tT 7 ‘ 5 ; 5 = = t ° I ' o> A se | ° | | 1 0 10 20 30 40-60 60 70 80 90 0 20 40 60 80 100 120 140 0 20 40 60\.80 100 120 CAPA (U.S. GPM) CAPACITY (U.S. GPM) CAPACITY (U.SNGPM) MINIMUM ET PRESSURE* MINIMUM INLET PRESSURE* MINIMUM INLET PRESSUR' | Elefid Temperature Fluid Temperature Fluid Temperature | 167°5, 194°F 230°F 167°F 194°F 230°F 167°F 194°F 230°F | 7d} (90°C) (110°C) (75°C) (90°C) (110°C) (75°C) (90°C) (110°C) ASR. 10.2 Ft 53.6 Ft. TO Ft 3.5 Ft. 47.6 Ft. 15.0 Ft. 25.2 Ft. 67.0 Ft 0.7 PSI 4.4 PSI 23.2 PSI 0.7PSI 1.5 PSI 18.1 PSI 6.5 PSI 10.9 PSI 29.0 PSI ] UPS40-160 UPS40-240 * Minimum gauge pressure required at the 10 2 - s inlet (suction) to ensure effective, trouble- 60 ¢ + free operation. Varies by fluid temperature. t 40 . 7 = S 7 0 BS Materials of Construction {30 4 Cu 4 oN DESCRIPTION MATERIAL Qa q a == + Impeller, Bearing Plate, AIS! 304 SS S20 < 30 : Rotor Cladding, Rotor Can, . g + — u Bearing Retainers o + 2 Z B Impeller Seal Ring AISI 304 SS/Tefion® 1 iN — 10 + —-\— Shaft (cast iron pumps), AIS! 303 SS 4 — + Inspection Screw 0 0 = t t L Split Cone, Split Cone Nut 1 Shaft (bronze pumps) AISI 316 SS 20 0 20 40 60 80 100 120 140 CAPACITY (U.S. GPM) Shaft Bearing Journals Tungsten Carbide . Pump Housing’ Cast Iron ASTM GG25 UPS40-240 “Bronze — Optional 35B-40B 50 n= Stator Housing Aluminum AIS! 10Cu2 60 — + Rotor End Caps Copper or Brass 40 5 + Upper and Lower Ceramic Al203 = : Radial Bearings {30 Thrust Bearing Carbon MY106 | 2 =. (O-Rings EPDM | S20 | yu pt] Terminal Box, Nameplate | Composite PA66 to ===. Plug for Sensor Composite PPS, GF40 10 = Tefion® is a registered trademark of Dupont = + | 7 3 = 3 NEN \ 1 . | \ G \ 20, 40 ~~ 6080100 0 0 20 40 60 80 100 120 140 RUND FOS CAPACITY (U.S. GPM) CAPACITY (U.S. GPM) Leaders in Pump Technology | MINIMUM INLET PRESSURE* MINIMUM INLET PRESSURE* {Grundtos Pumps Corporation + 2555 Clovis Avenue + Clos. CA 93612 Fluid Temperature [ Fluid Temperature ] Spusiomat Service Consors: pan eas CA | 3 | fo 7 ° a : + Fax: ( 7 | [67°F 194°F 230°F [67°F 194°F 230°F | Canada Onkvile, tan Mexico: Apooaca, NL | 17s’) (90°C) (110°C) | | (75°C) (90°C) (110°C) _| is ] 11.8 Ft 217 Ft 63.8 Ft 26.6 Ft 37.0 Ft. 76.8 Ft. | Sgarewat e-UPS-TL040- 9/97 _ 5.1 PSI 9.4 PSI 27.6 PSI 11.6 PSI 16.0 PSI 34.1 PSI wee PRINTED IN USA APPENDIX E REBUILD AMERICA ENERGY AUDIT TONY KNOWLES, GOVERNOR DEPARTMENT OF COMMUNITY AND 333 WEST FOURTH AVE.. SUITE 220 R E A I A F F A I R S ANCHORAGE. ALASKA 99501-2341 GION PHONE: (907) 269-4500 DIRECTOR'S FAX: (907) 269-4645 DIVISION OF ENERGY NGINEERIN ENGINEERING FAX. (907) 269-4685 July 3, 1997 Karen Ladegard, Principal Box 290 McGrath School McGrath, AK99627-0290 Subject: Rebuild America Energy Audit Dear Principal Ladegard: The Division of Energy is pleased to provide you with the results of the recent Rebuild America energy audit in your facility. Rebuild America audits are aimed at no cost/lost energy savings. Retrofits and major changes to equipment operation should be discussed with your school district maintenance office. If you have questions or wish further information about high efficiency products, appliances, motors or potential financing options, please contact the Rebuild America Program Manager, Cristina Klein, at 269-4689. If you have technical questions about equipment operation or specific recommendations for your building, please contact David Lockard, Mechanical Engineer with the Division, at 269-4541. The Division also maintains a web page on energy saving measures, as well as links to agencies with information on efficient lighting, refrigeration, and other services. The web page address is: http:/Awww.comregaf.state.ak.us/doehome.htm Thank you for your participation. Sincerely, fg 4 Percy Frisby Director ce: Dr. Gerald Langton, Superintendent David Shelborne, District Chief of Maintenance Marty Bushue, McGrath Light & Power Charlie Ford, Energy Auditor Cristina Klein David Lockard Attachment: report ENERGY AUDIT SUMMARY McGRATH SCHOOL The school is fairly members, 1.25 maintenance personnel, and 1.5 custodial personnel. School lunches are hydronic boilers at 1,160,000 Btus each, with a continuous circulating system and five separate air handlers. According to Peter Schneiderheinze the air handlers run continuously from October through April. At the time of my audit all but two classrooms were at least 5 degrees warmer than the thermostat settings, the air handlers were running. Some of the thermostat controls were partly dismantied. Staff and students stated that the building is rarely comfortable, usually too hot or too cold. The lighting load for the building is 48.3 KW, the air handler load is about 12.5 KW. My recommendations are as follows: |. Replace existing 40 watt T-12 fluorescent tubes with 34 wart T-12 fluorescent tubes as needed. COST - $0.00 SAVINGS - Approximately 15% of existing tube consumption. COST - Approximately $25.00 SAVINGS - Approximately $389.00 per year. Le Replace 5 incandescent exit signs with LED type exit signs. COST - Approximately $425.00 SAVINGS - Approximately $370.00 per year. 4. Replace existing T-12 fluorescent lighting system with T-8 fluorescent lighting system to include rapid start electronic ballasts. COST - Approximately $22,440.00 SAVINGS - Approximately $9521.00 per year. Nn . Replace 17 60 wart incandescent lamps with 15 watt compact fluorescent lamps. COST - $510 00 SAVINGS - Approximately $148 00 per year. 6. I believe that a substantial amount of savings could be realized by shortening the run ume of the hydronic circulating pumps and the air handlers. The air handlers with a load of about 12.5 KW and the circulating pumps with a load of 8 KW, running continuously, are costing approximately $6.15 per hour. If the run time could be reduced by even 10% the savings would be tremendous. AK Division of Energy Engineer David Lockard’s Additions to Energy Auditor's Recommendations McGrath School Eneray Conservation Section 1. Recommend that boy’s locker room fan be turned off during unoccupied hours, preferably by wiring it into the light switch. Note: If the fluorescent lights are retrofit with electronic ballasts and T- there is no need to purchase the 34W T-12 lamps. In addition, the Total Harmonic Distortion (THD) of any electronic ballasts installed should be less than 20%. Newer lighting products (manufactured after 1995) should have less than 20% distortion, but manufacturer's Specifications should be checked. Set boiler controls so that the low-fire setting is at a higher temperature (160degrees F) than the high-fire setting (150degrees F) This will cause the boiler to fire at a low rate during periods of moderate temperatures, resulting in higher efficiency operation. In extremely cold conditions, the burner will Operate at high fire to maintain building temperature. The new boiler contro! Strategy and temperature settings should be verified with the boiler manufacturer and the building owner or maintenance director before any adjustments are made. 8 lamps, Repair and Maintenance Section 1. 3. Train personnel! in calibratin Develop scheduled maintenance punchlist and store copies of completed lists to provide a record of maintenance, repairs and related problems. Repair or replace broken thermostats. g thermostats and make this a part of routine annual maintenance. These additional recommendations were made by the Division of Energy engineer David Lockard after reviewing the energy audit report. McGrath School Energy Conservation Section 1. Recommend that boy's locker room fan be turned off during unoccupied hours, preferably by wiring it into the light switch. Note: If the fluorescent lights are retrofit with electronic ballasts and T-8 lamps, there is no need to purchase the 34W T-12 lamps. In addition, the Total Harmonic Distortion (THD) of any electronic ballasts installed should be less than 20%. Newer lighting products (manufactured after 1995) should have less than 20% distortion, but manufacturer's specifications should be checked. Set boiler controls so that the low-fire setting is at a higher temperature (160degrees F) than the high-fire setting (150degrees F) This will cause the boiler to fire at a low rate during periods of moderate temperatures, resulting in higher efficiency operation. In extremely cold conditions, the burner will operate at high fire to maintain building temperature. The new boiler control strategy and temperature settings should be verified with the boiler manufacturer and the building owner or maintenance director before any adjustments are made. Consider turning off air handler during unoccupied hours if hydronic system can maintain building temperature. Refer to design drawings to see original intent. Consider reducing building temperature during unoccupied hours. This may be accomplished using setback thermostats or by manually adjusting the thermostats. The existing thermostats may have a setback feature. Repair and Maintenance Section 1. Develop scheduled maintenance punchlist and store copies of completed lists to provide a record of maintenance, repairs and related problems. 2. Repair or replace broken thermostats. Train personnel in calibrating thermostats and make this a part of routine annual maintenance. Clean the boiler heat exchange surfaces and adjust the burner for safe and efficient operation on an annual basis. Refer to the boiler manufacturer's handbook for minimum excess air levels and other detailed specifications. CHARLIE: This note is for your reference and/or comment. 1. Charlie said that crawlspace fan needs contro! but didn't specify what kind. 2. No mention of outside air strategy. AK Division of Energy REBUILD AMERICA AUDITOR CHECKLIST Engineer David Lockard’s Additions to Energy Auditors Recommendations McGrath School Eneray Conservation Section 1, Recommend that boy’s locker room fan be turned off during unoccupied hours, preferably by wiring it into the light switch. Note: If the fluorescent lights are retrofit with electronic ballasts and T-8 lamps, there is no need to purchase the 34W T-12 lamps. In addition, the Total Harmonic Distortion (THD) of any electronic ballasts installed should be less than 20%. Newer lighting products (manufactured after 1995) should have less than 20% distortion, but manufacturer's specifications should be checked. Set boiler controls so that the low-fire setting is at a higher temperature (160degrees F) than the high-fire setting (150degrees F) This will cause the boiler to fire at a low rate during periods of moderate temperatures, resulting in higher efficiency operation. In extremely cold conditions, the burner will operate at high fire to maintain building temperature. The new boiler control strategy and temperature settings should be verified with the boiler manufacturer and the building owner or maintenance director before any adjustments are made. Consider turning off air handler during unoccupied hours if hydronic system can maintain building temperature. Refer to design drawings to see original intent. Consider reducing building temperature during unoccupied hours. This may be accomplished using setback thermostats or by manually adjusting the thermostats. The existing thermostats may have a setback feature. Repair and Maintenance Section 1. Develop scheduled maintenance punchlist and store copies of completed lists to provide a record of maintenance, repairs and related problems. Repair or replace broken thermostats. Train personnel in calibrating thermostats and make this a part of routine annual maintenance. Clean the boiler heat exchange surfaces and adjust the burner for safe and efficient operation on an annual basis. Refer to the boiler manufacturer's handbook for minimum excess air levels and other detailed specifications. 5. Check damper to see if in working condition. Check with your school district maintenance director to see if he/she approves shutting it off and simply checking on the crawl space occasionally. VENTILATION SYSTEM AUDIT WORKSHEET SYSTEM DESCRIPTION: \ar As 29SV29. SVE smo 2 SOV «AS. SYSTEM SCHEDULE: x atiawonsl\y - Dw Wes cer: doy - Novem be eww eA. \ ; DO THE DAMPER ACTUATORS OPERATE PROPERLY? Some caatdee\s -therasstad A aA e+ work ARE THE PROPER PINS IN THE TIMECLOCK? DOES IT READ THE CORRECT TIME? No + nue c\acle - Awe Corkte V- Feens curac tT DOES THE OUTSIDE AIR DAMPER CLOSE PROPERLY? ° CFM RATING OF AIR HANDLER? CFM OF OUTSIDE AIR? fie ARE THERE ANY OPERABLE WINDOWS IN OFFICES/CLASSROOMS? (DESCRIBE) Mosk orahous oporeW\e COMMENTS (ASK OCCUPANTS FOR INPUT) TIN Ne ‘> VF To ON ot ele £ Qh aby ~x ‘com Were atk least ° Jor her t+\ on ler No eer Sextet n wd ~Ns Mao \aia wee meres > Wy tos baa ne S 03/12/97 WATER SYSTEMS AUDIT WORKSHEET paste MILL TTT TT eLi eee UMILTTEOLIATETOTLTUTTTEL BUILDING Schec\ AUDITOR Claw Via cord DATE DOMESTIC HOT WATER SYSTEM TYPE OF WATER HEATER: eatery pe FUEL USED Soe TANK STORAGE CAPACITY: USO Gallon TEMPERATURE SETTING: \30° MAKE/MODEL/AGE: CV \ wera TANK INSULATION: Starrda-d LENGTH OF UNINSULATED DISTRIBUTION PIPE:__© ESTIMATED WEEKLY USE (GALLONS). # OF CIRC. PUMPS/MODEL/KW (- Qandfes V2 SHOWERHEADS # OF SHOWERS PER DAY. MINUTES PER SHOWER RATE OF FLOW (GAL/MIN) L.s LOW-FLOW SHOWERHEADS? SWIMMING POOLS SIZE OF POOL (SQ. FEET) Nf A CAPACITY (GALLONS) TYPE OF WATER HEATER HEATER RATING (BTU/HR OR KW) FILTER PUMP HP/ MODEL # HOURS/WK PUMP RUNS HOURS/WK POOL IS USED HOURS/WK POOL IS COVERED, IF ANY VENTILATION/HUMIDITY CONTROL SYSTEM DESCRIPTION REBUILD AMERICA AUDITOR CHECKLIST CIRCUIT RIDER'S NAME Cherli a ford VILLAGE NAME Me G. DATE(S) OF AUDIT Nj3eo Sy. st BUILDING NAME Me Got Sehce \ BUILDING OWNER . Keren teoerh ecrct CONTACT NAME \Karen Laode gac PHONE AND FAX NUMBER s2y- § E. ~20F 5 MNTNC NAME/PHONE Poire - Sor nerides he nz TOTAL ANNUAL OPERATING HOURS ANNUAL KWH USAGE/COST ANNUAL OIL USAGE/COST OTHER FUEL TYPE/USE Prepan & (GET COPIES OF 1 YEAR OF UTILITY DATA- HEATING AND ELECTRICAL) FLOOR AREA IN SQ. FEET 27 S GH TSTAT SETTING (DAY/NIGHT) Uerions DISTANCE TO POWERHOUSE Nt A COMPLETE WORKSHEETS ON EACH ENERGY-USING SYSTEM ENCOUNTERED: LIGHTING — MOTORS/FANS/PUMPS — BOILER — —_— WATER SYSTEMS (DHW, SHOWERS, POOLS) (DON'T FORGET EXIT LIGHTS!) TAKE PHOTOS OF: EXTERIOR = LIGHTING = BOILER — OTHER wr (UNINSULATED PIPES, BROKEN EQUIPMENT, ETC.) 03/12/97 pl REBUILD AMERICA AUDITOR CHECKLIST OCCUPANCY SCHEDULE Scicc\ Year - Mid Ausest threes h Med Mas OCCUPANCY WEEKDAYS SATURDAYS SUNDAYS TYPE #* OF PERIOD OF # OF PERIOD OF * OF PERIOD OF OCCUPANTS | OCCUPANCY | OCCUPANTS | OCCUPANCY | OCCUPANTS | OCCUPANCY ic Sa: SE MAINTENANCE tuderts DESCRIBE ANY AIR CONDITIONING OR COOLING SYSTEM, RATED WATTAGE, ASSOCIATED EQUIPMENT AND HOURS OF USE: NOTES, SKETCHES, ETC: 03/12/97 p.2 BOILER AUDIT WORKSHEET VILLAGE Re Grethy BUILDING Scene oh AUDITOR Cre lie cord DATE BOILER SYSTEM MANU./MODELIAGE:___ “2 ——sUe-\ Mela. LG&*Y& BTU RATING: WsS OOO each FUEL USED ©. \ CONDITION OF BOILER INSULATION: Ges > A LENGTH OF UNINSULATED DISTRIBUTION PIPE: # OF CIRC. PUMPS/MODEL/KW B32 OG N75 a 1 &sG Vw LGivaafe rome DATE OF LAST EFFICIENCY TEST/RESULTS: No efficiency Vest DATE OF LAST SERVICE: ~ hoe COMMENTS: Pnnc circulate conti nncousl~, CONTROL SYSTEM DESCRIPTION OF BURNER FIRING RATES: \gor - as 2 TO -_z2es 7 HYDRONIC WATER TEMP (SETPOINT/ACTUAL): CONTROL STRATEGY (SETBACK TEMPS, EQUIPMENT AND SCHEDULE, ANNUAL START/STOP DATES, ETC):__No sexsWnacis su tenn = LOCATIONS OF TSTATS:__lDs\\ locas ed = at least & APPQK/ ino Dora\ 2. ee 03/12/97 LIGHTING SYSTEMS AUDIT WORKSHEET COMMENTS Separat eS Vow Ns g Sarcvet Ste sels sats FIXTURE TYPE| LAMPS/FIX| LAMP TYPE | LAMP WATTS | BALLAST TYPE | LAMPS/BAL | HRS/WEEK V4 Fheoresent| 2 [4 T12 | NO .. oo 2 2,1 Hlyoresce: : Mas. PZ. At Fleorescet| ee fat Trt} HO | Mag. uf te *-fhemeaf 2 [Tat Ho | Ma; Zz. | Xo 4" EC orescet 2 uy 12 KO | Mas 2). Se 4" Flacrescest| 2 SV ye 4o_ les | 2 . 40 . NH Fics) 2 etaz} 4O [Mas [2 | to W Eom 2 [tare l HO |Me, |. 2. | Se . 9 4! Cleoteren “2 MW TAL] KO | Meg a a 4O Wwe ti hawrecet OAT | eS Me | 2. 30 | ai | nes Woo | |_| Se a Ouwesee) 2 fe Tt NO Meg Ef NO 4" Flaoreset | 2 | Ce _ Yo. | 7 | coe - 40 4" Fluctesed Ce oT 2 ~ Ko. - Mag. = . yo Horceidescertk | | Dicconderce st} | GO | . \o IM! Floors] 4 LN TAD} oO. | Mas, 2 (Ss 4 Flowered ft IHTAe a : 2% - SO “Flore send ‘ 2 1c pulvinc Ve G rath Folool SURVEYOR NAME © (ve A. e fod vate Sep a eS tely G9 S ROOM &| FIXTURE TYPE} LAMPS/FIX AN = 1 htocg A’ Flucresceyst} aa 2 Ices | 4 Plowesced — _ ww2Ad (D4 - 3 Kessel A" Fi orescescl 194 coy ¢ 4 beg ft Fleavescest| “Oe De). 5 hrs =e 4! Fhicreseust| 2 oF LYWaue 6 Cessece 4 Flav ~) 2 47 7 Oa, SBR HN! Flcreseeat] 2 ae 8 Ic ee) KY Phawrese ent See: ra db 9 Gosh Dac dereent | 1 3G S Wieiwh OQ |Lacestesees¥ |. V Mieke fy ' ‘ 1 Raa 4 CNnerescen® te 110 Ww 12 pends MT Acasheseta! at —— 32 aD, 13 Fo feed t! Flucresces| % a2 45 14 aa ye Cluvreseet ee yor 1S kcvasiues [Mo Flasresea 2. Bt ye 16 |r c A! Flusescert] “2 er 2 7 uW 17 Ig CAE TD Plaurescest] ON yk oc 18 Prscaa\ | 4 € laoveseen| A 20° Ole , 19 estes Tacardeceed | 2 eT : 20 C\eSS tea 4 4 Floresee. iv 2 ray ae : 21 fe A L Ex. t& Lacaraesuat ZL LIGHTING SYSTEMS AUDIT WORKSHEET Le ncaadesctat LAMP WATTS puioinc _MeCigt Sooo \ SURVEYOR NAME BALLAST TYPE Mega eric Meg Cire: LAMPS/BAL Mi rs SES aM eur My Nv t COMMENTS Sepacte Swrtc\% 12412 Sepew.te Suk (R812 Scparete Seeitaly mais Separate Seek KIS Sppowwe te Suites lores Dock. Su.t ved ork SGAAHZheay hed a Spe cde Seotew $7 87 Jeprcte Seo tech 252 SpeuteSe. 4cK THE = ate Suite $O¥ IG Syperede Sw rel OV IC AUDIT WORKSHEET- MOTORS, FANS, PUMPS MOTOR/FAN| AMPERAGE | WATT/HP HRS PER /PUMP? NOLTAGE | RATING | FLOW RATE CONTROL SYSTEM WEEK COMMENTS fecge. ey Mote, + for Refixe. der Metered fo —| = - LIL r Needs Corto \ TaA = ao | fars | Cone soe aE Corrcoller = taa ‘oO o ~ @ on > WwW mR Dish weaser Worik-T+ Coule- 7 | Feces = a) 11 = ny ' = wo et et a | ed’ o io APPENDIX F CODE VIOLATION SUMMARY Summary Several life/safety issues were noted during the mechanical walk-through and drawing review of the school. Problems noted included unprotected openings in fire-rated assemblies, lack of fire separation for boiler room, unfinished crawl space used for supply air plenum, and insufficient boiler room combustion air. No life/safety issues were noted with the administration building. A detailed code study is not within the scope of this document. Additional code violations may exist. This appendix is limited to those items noted during the energy audit. Fire-R : The code analysis for the 1982 school addition identifies the building construction type as V- 1HR, which is defined as standard construction with one hour fire-rated interior and exterior walls, structural frame, partitions, floor assemblies, and roof-ceiling assemblies. Numerous non-rated assemblies and unprotected openings through walls were noted. Since the construction does not meet the V-1HR requirements, it must be treated as Type V-N (non- rated). The building area exceeds the allowable area for Type V-N structures. Correction of this deficiency can be accomplished by upgrading the non-rated assemblies and unprotected openings or by adding a sprinkler system to the facility. Boiler Room The boiler room contains two cast iron sectional oil-fired boilers, each rated at 1,380,000 BTUH input and an oil-fired domestic water heater with a 270,000 BTUH input. Numerous unsealed openings are present in the floor and walls. The Uniform Building Code requires that boiler rooms containing equipment with inputs over 400,000 BTUH must be one hour fire- rated. The unsealed openings must be closed off with UL-listed fire seal assemblies to achieve the required fire ratings. No combustion air openings were observable in the boiler room. The Uniform Mechanical Code requires two wall openings for combustion air sized at one square inch per 4,000 BTUH input of installed equipment. For the two existing boilers and the water heater (3,030,000 BTUH), the openings must be at least 5.25 square feet each. Smaller openings are possible if an engineered combustion air system is designed specifically for the boiler room. The lack of combustion air can cause poor boiler draft and even backdraft conditions. Sealing of the boiler room openings for fire-rating will worsen any existing draft problems, so both issues should be addressed simultaneously. ir Quali The classrooms have individual heating and ventilating units referred to as cabinet unit ventilators. The units have fans, water heating coils, outside air louvers, and dampers to regulate outside air intake. The outside air louvers are blocked off and the dampers have been disconnected in the unit ventilators. Outside air is currently provided by an airhandling unit added in the building crawl space. The unit blows outside air into the crawl space and into the classroom cabinet unit ventilators through holes cut in the floor under the unit ventilators. The crawl space is open dirt floor with exposed wooden structure and flooring. The Uniform Mechanical Code does not allow spaces with exposed combustibles to be used for air transfer. The exposed wood in the crawl space makes it unacceptable for use as an air transfer space, or plenum. The exposed dirt floor also makes the crawl space unacceptable for use as a plenum. Dust and dirt from the crawl space are constantly blown into the classrooms. If the crawl space gets wet, either from spring melt, heavy rain, or broken pipes, molds and bacteria will breed and then blow into the classrooms. These conditions can result in sick building syndrome or Legionnaire’s Disease-type infections. The problems can be corrected by ducting from the crawl space airhandler to each classroom or by abandoning the crawl space airhandler and reconnecting the cabinet unit ventilator dampers and outside air intakes. Euel Tanks The school and the school administration building each have an on-site underground fuel tank supplied from a central tank farm by underground pipelines. Transfers are controlled by manually opening and closing valves. The tanks are designated as heating oil tanks and are not regulated by either the State of Alaska or the EPA. The Uniform Fire Code does apply and it currently requires tank vents to terminate at a minimum 12 feet above grade. The tank vents currently terminate two to three feet above grade. The heating oil tanks are not regulated but spills from the tanks or pipelines still require clean- up and represent potential fines. The manual transfer operation currently used is very likely to lead to repeated minor spills. Based on the apparent ground discoloration noted around the tank vents during the walk-through, this has occurred. Overfill prevention float valves would be required at each tank to prevent overfilling of the tanks. The tanks and pipelines all appear to be single-wall construction. To prevent unnoticed leaks, the tanks and pipelines should be replaced with double-walled tanks and pipelines with continuous leak detection monitoring. Annual hydrostatic pressure testing of the pipelines and tank tightness testing is also an option for monitoring for system leaks, but is not as effective, since a leak could go undetected for up to a year.