jefferson township energy assessment for new jersey board of public utilities … audit... · 2012....

JEFFERSON TOWNSHIP

ENERGY ASSESSMENT

for

NEW JERSEY BOARD OF PUBLIC UTILITIES

CHA PROJECT NO. 22983

September 2011

Prepared by:

3 Winners Circle

Albany, NY 12205

(518) 453-4500

TABLE OF CONTENTS Page

1.0 INTRODUCTION & BACKGROUND....……………….……...…............1

2.0 EXECUTIVE SUMMARY………………....…………..…………………...2

3.0 EXISTING CONDITIONS……………………….………..……………..…3

3.1 Municipal Building 3.2 White Rock Sewer Plant 3.3 Moosepac Sewer Plant

4.0 ENERGY CONSERVATION MEASURES………………………………..6

4.1 Municipal Building 4.2 White Rock Sewer Plant 4.3 Moosepac Sewer Plant

5.0 PROJECT INCENTIVES…………………..………………………………..17 5.1 Incentives Overview 5.2 Building Incentives

6.0 ALTERNATIVE ENERGY EVALUATION………………………………20

6.1 Geothermal 6.2 Solar 6.3 Wind 6.4 Combined Heat and Power Generation (CHP) 6.5 Biomass Power Generation 6.6 Demand Response Curtailment

7.0 EPA PORTFOLIO MANAGER……………………………………….……25 8.0 CONCLUSIONS & RECOMMENDATIONS.…………………….…..…...26 APPENDICES A Utility Usage B ECM Listings

C Equipment Inventory D EPA Portfolio Manager

_____________________________________________________________________________ New Jersey BPU - Energy Audits

Page 1 of 27

1.0 INTRODUCTION AND BACKGROUND The Township of Jefferson, NJ selected three buildings to be evaluated for energy conservation opportunities. Buildings included were the 16,610 square foot Municipal Building, 1,000 square foot Moosepac Sewer Plant, and 700 square foot White Rock Sewer Plant. New Jersey’s Clean Energy Program, funded by the New Jersey Board of Public Utilities, supports energy efficiency and sustainability for Municipal and Local Government Energy Audits. Through the support of a utility trust fund, New Jersey is able to assist state and local authorities in reducing energy consumption while increasing comfort.

Municipal Building (on right)

White Rock WWTP Moosepac WWTP


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2.0 EXECUTIVE SUMMARY This report details the results of the energy audit of three buildings in the Township of Jefferson, NJ, including the Municipal Building, Moosepac Sewer Plant, and White Rock Sewer Plant. The Municipal Building houses the Police Department, Administration, as well as Township Court. Various potential Energy Conservation Measures (ECMs) were identified for the above buildings. Potential annual savings of about $22,700 for the recommended ECMs may be realized with a payback of 2.0 years. The ECMs identified in this report will allow the buildings to reduce energy usage, and if pursued have the opportunity to qualify for the New Jersey SmartStart Buildings Program and/or Direct Install Program. A summary of the costs, savings, and paybacks for the ECMs follows:

Energy Conservation Measure Approx. Cost

($)

Approx. Annual

Savings ($)

Payback Potential Incentive*

($)

Payback w/ Incentive

Recommended w/o (X)

Incentive Municipal Building

ECM-1 Lighting Municipal Bldg. 30,400 11,000 2.8 18,300 1.1 ECM-2 Lighting Controls Municipal Building 8,800 2,300 3.8 5,300 1.5 ECM-3 Lighting & Lighting Controls MB 39,200 12,100 3.2 23,500 1.3 X ECM-4 Install Smart Thermostat 7,000 2,800 2.5 4,200 1.0 X ECM-5 Building Envelope Improvements

30,400 1,300 23.4 0 23.4 X ECM-6 Install Door Seals ECM-7 DHW Heater Replacement 3,200 100 32.0 300 29.0 ECM-8 Window Replacement 81,000 1,500 54.0 0 54.0 ECM-9 Vending Miser 300 400 0.8 0 0.8 X ECM-10 Refrigerator Replacement 2,400 40 60.0 100 57.5 ECM-11 Network Controller 500 700 0.7 0 0.7 X

White Rock Sewer Plant ECM-1 Lighting White Rock 2,700 800 3.4 1,600 1.4 ECM-2 Lighting Controls White Rock 1,000 300 3.3 600 1.3 ECM-3 Lighting & Lighting Controls WR 3,600 1,000 3.6 2,200 1.4 X ECM-4 Install Premium Efficiency Motors 7,900 3,600 2.2 4,800 0.9 X ECM-5 DHW Heater Replacement 1,100 100 11.0 300 8.0 X ECM-6 Ductless Split AC Unit 3,200 200 16.0 1,900 6.5 X

Moosepac Sewer Plant ECM 1 Lighting Moosepac 3,300 100 33.0 2,000 13.0 ECM 2 Lighting Controls Moosepac NA NA NA NA NA ECM 3 Lighting & Lighting Controls MP 3,300 100 33.0 2,000 13.0 ECM 4 Install Premium Efficiency Motors 4,200 1,800 2.3 2,500 0.9 X

*Incentive shown is the maximum amount potentially available per the NJ Smart Start or Pay for Performance Programs.


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3.0 EXISTING CONDITIONS 3.1 Municipal Building 3.1.1 Building – General The Municipal Building is comprised of a 16,610 square foot single story, brick faced facility with original double pane, aluminum frame windows with fill-in panels, and a flat, membrane type roof. The Police Department occupies 3,900 SF of the facility, the remainder includes the Town Administration and the court area. The Police Department operates 24/7 and is staffed by eight people during the daytime shift. General office hours for the municipal offices are 9:00 AM to 4:30 PM, Monday – Friday, during which there are typically 30 employees. Constructed in 1972, the facility has undergone various renovations, including a complete roof upgrade. In addition, the existing all-electric HVAC system was changed to gas-fired rooftop units with direct expansion (DX) cooling. Fill-in panels below the windows are not insulated, causing infiltration and exfiltration.

3.1.2 Utility Usage Utilities include electricity, propane, and potable water. Electricity is provided by Jersey Central Power and Light. Propane is supplied and delivered by Eastern Propane. Potable water is provided by the municipally owned water department free of charge. Based on 2010 utility data, the average annual electric usage was 307,400 kWh, unit cost of $0.149 kWh, $6.01 kW, $0.165 blended rate, at a cost of $50,800. The Municipal Building is the only facility heated with propane. Consumption for 2010 was 4,400 gallons at a total cost of $10,800 and average unit cost of $ 2.45/gallon. 3.1.3 HVAC Systems Heating and cooling for the Municipal Building is provided by 14 rooftop units; 13 of which are gas fired. However, all 14 provide DX cooling to the building. RTU 1 - RTU 5 serve the Police Department, RTU 6 through RTU 14 serve the remaining building. The following table provides additional data:

RTU # Manufacturer Model # Serial #

Heating

MBH

Cooling

Tons

Comp

FLA

ID

Blower

HP

ID

Blower

FLA

O.D. Fan

HP

O.D. Fan

FLA

Comb

Blow

FLA

Pwr

Vent

FLA Notes

1 York DHUC‐T036N100A NKLM097567 100 3 11.4 0.5 4.4 0.3 1.3 0.4

2 York DAYA‐F030N070C NELM044519 70 2.5 14.7 0.5 2.6 0.3 1.1 0.64

3 York DAYA‐F018N045C 45 1.5 9 0.5 2.6 0.3 1.1 0.64

4 York DAYA‐F024N045C NHLM083867 45 2 11.5 0.5 2.6 0.3 1.1 0.64

5 York DAYA‐F030N070C NELM044521 70 2.5 14.7 0.5 2.6 0.3 1.1 0.64

6 York DAYA‐F030N070C NHLM084478 70 2.5 14.7 0.5 2.6 0.3 1.1 0.64

7 York DHUC‐T060N125A NGKM088382 125 5 16 1 6.6 0.25 1.3 0.4

8 York DHUC‐T036N100A NKLM097564 100 3 11.4 0.5 4.4 0.3 1.3 0.4

9 York DAYA‐F018N045C NKLM098954 45 1.5 9 0.5 2.6 0.3 1.1 0.64

10 York DHUC‐T060N125A NKKM111077 125 5 16 1 6.6 0.3 1.6 0.4

11 York DL‐07N18ATAAA1A NKJM126462 180 (2) 14.1 1.5 6.2 (2) 1/3 1.5 ea 0.5

12 York DHUC‐T048N125A NKKM109512 125 4 14.1 0.75 5.0 0.3 1.3 0.8

13 York DHUC‐T060N125A NKKM111075 125 5 16 1 6.6 0.3 1.3 0.4

14 DAPZ‐F024AA N1F0027258 2 8.6 0.5 4.1 0.3 1.2 Cooling Only

Jefferson Township Municipal Building

RTU Schedules


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3.1.4 Control Systems

The control system at the Municipal Building consists of 14 individual, wall mounted, programmable thermostats. However, many were observed in the “Hold” position; therefore, scheduling was not utilized. In addition, all thermostats were easily accessible, , enabling occupant temperature setting adjustments. 3.1.5 Lighting/Electrical Systems Lighting is provided by a combination of T-12, 2’x4’ recessed lay in fixtures, T-12, 2’ x 2’ U-Tubes, various incandescent lamps, and a mix of 9 watt and LED exit signs. Exterior building lighting is provided by 100 watt Prescolite fixtures. 3.1.6 Plumbing Systems The building utilizes a 50 gallon General Electric, all-electric water heater to generate domestic hot water (DHW). End users are sinks and a locker room shower. All plumbing fixtures in the complex are standard flow and in fair condition. 3.2 White Rock Sewer Plant

3.2.1 Building – General The White Rock Sewer Plant encompasses one main building and two service buildings. The main building is a single story facility with a brick faced exterior, original windows, and an asphalt shingled roof. General occupancy for this building is 7:00 AM to 3:30 PM, Monday - Friday and 8:00 AM to 3:30 PM, weekends. 3.2.2 Utility Usage Utilities include electricity and potable water. Electricity is provided by Jersey Central Power and Light. Potable water is provided by the municipally owned water department without charge. Based on 2010 utility data, the average annual electric usage was 394,800 kWh, $0.149 unit cost kWh, $5.55 kW, and a blended rate of $0.159. Cost was $62,800 annually. 3.2.3 HVAC Systems The plant uses electric resistant heat to maintain setpoints during winter operation. Cooling is provided by an old, inefficient, window air conditioner. 3.2.4 Control Systems Temperature control is achieved via wall mounted thermostats without setback capabilities. 3.2.5 Lighting/Electrical Systems The plant uses mainly 4’ and 8’ T-12 fluorescent fixtures.


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3.2.6 Plumbing Systems Domestic hot water for the main building of White Rock is produced by a single State Industries, all-electric DHW heater with a capacity of 50 gallons. It was noted that the shower is no longer in use, and is utilized for storage. 3.3 Moosepac Sewer Plant 3.3.1 Building – General Moosepac consists of two buildings. One houses the air compressors, and the second the aeration basins. These buildings have intermittent occupancy only. 3.3.2 Utility Usage Utilities include electricity and potable water. Electricity is provided by Jersey Central Power and Light. As with the other two buildings, potable water is provided without charge by the municipally owned water department. Based on 2010 utility data, the average annual electric usage was 356,800 kWh, with a unit cost of $0150, kW of 5.39, and blended rate of $0.159. Annual cost was $56,600. 3.3.3 HVAC Systems Moosepac uses electric resistant heat to maintain setpoints during the winter operation. 3.3.4 Control Systems Temperature control is provided by wall mounted thermostats without setback capabilities. 3.3.5 Lighting/Electrical Systems The plant uses some 4’ T-12 fixtures for lighting. 3.3.6 Plumbing Systems This plant does not have any plumbing systems for occupant use.


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4.0 ENERGY CONSERVATION MEASURES 4.1 Municipal Building 4.1.1 ECM-MB1 Lighting Replacements A comprehensive fixture survey was conducted of the entire complex. Each switch and circuit was identified, and the number of fixtures, locations, and existing wattage established (Appendix C). Inefficient lighting fixtures include T-12 fluorescent lamps, T-12 U-tube lamps, incandescent screw type bulbs, and incandescent exit signs. Upgrading the lighting fixtures in the Municipal Building with more efficient technology will provide electrical energy savings. Energy savings for this measure were calculated by applying the existing and proposed fixture wattages to estimated time of operation. The difference between energy requirements resulted in a total annual savings of 63,700 kWh with an electrical demand reduction of about 20 kW. Supporting calculations, including assumptions for lighting hours and annual energy usage for each fixture, are provided in Appendix B. Retrofitting fixtures that utilize T-12 lamps would require replacement with electronic ballasts and T-8 lamps; T-8 U-tube lamps would be replaced with standard straight T-8 fluorescent lamps; incandescent bulbs would be replaced with compact fluorescent spiral light bulbs or flood lamps where applicable; and incandescent exit signs replaced with LEDs. Lighting has an expected life of 10 years, according to the manufacturer, and total energy savings over the life of the project are estimated at 636,580 kWh and $109,480. The implementation cost and savings related to this ECM are presented in Appendix B and summarized below:

ECM-MB1 Lighting Replacements

Budgetary Annual Utility Savings Estimated Total Potential Payback Payback

Cost Maintenance Savings ROI Incentive* (without (with

Electricity Propane Water Total Savings Incentive) Incentive)

$ kW kWh Gals kGals $ $ $ $ Years Years

30,400 20 63,700 0 0 11,000 0 11,000 2.6 18,300 2.8 1.1

* Incentive shown is per the New Jersey Direct Install Program. See section 5 for other incentive opportunities. This measure is not recommended in lieu of ECM-3. 4.1.2 ECM-MB2 Install Occupancy Sensors Review of the comprehensive lighting survey determined that lighting in several areas such as offices, breakrooms, and conference rooms is typically operated continuously throughout the day regardless of occupancy. Therefore, installing an occupancy sensor in these spaces to turn off lights when the areas are unoccupied was assessed. Using a process similar to that utilized in section 4.1.1, the energy savings for this measure were calculated by applying the known fixture wattages in the space to the estimated existing and proposed times of operation for each fixture. The difference between the two values resulted in an annual savings of 15,290 kWh. This measure requires 37 wall-mounted occupancy sensors. Occupancy sensors have an expected life of 10 years, according to the manufacturer, and total energy savings over the life of the project are estimated at 152,870 kWh and $22, 800.


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The implementation cost and savings related to this ECM are presented in Appendix B and summarized below:

ECM-MB2 Install Occupancy Sensors





8,800 0 15,290 0 0 2,300 0 2,300 1.6 5,300 3.8 1.5

* Incentive shown is per the New Jersey Direct Install Program. See section 5 for other incentive opportunities. This measure is not recommended in lieu of ECM-3. 4.1.3 ECM-MB3 Lighting Replacements with Occupancy Sensors Due to interactive effects, the energy and cost savings for occupancy sensors and lighting upgrades are not cumulative. This measure is a combination of ECMs-1 and 2 to allow for maximum energy and demand reduction. The lighting retrofits and controls have an expected lifetime of 10 years, according to the manufacturer, and total energy savings over the life of the project are estimated at 715,200 kWh and $121,200. The implementation cost and savings related to this ECM are presented in Appendix B and summarized below:

ECM-MB3 Lighting Replacements with Occupancy Sensors





39,200 20 71,520 0 0 12,100 0 12,100 2.1 23,500 3.2 1.3

* Incentive shown is per the New Jersey Direct Install Program. See section 5 for other incentive opportunities. This measure is recommended. 4.1.4 ECM-MB4 Install Web-Based Thermostats Space temperature control for the Municipal Building is achieved via 14 wall mounted thermostats. The thermostats are programmable; however, many were observed in the “Hold” position, overriding the set program. These thermostats can be replaced with newer web-based units which are password protected, limiting unauthorized changes. They also provide full remote access capability which allows the control of the associated space via an Internet connection. In addition, system performance can be tracked over the most recent three days. The implementation cost and savings related to this ECM are presented in Appendix B and summarized as follows:


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ECM-MB4 Install Web-Based Thermostats





7,000 0 920 680 0 2,800 0 2,800 2.1 4,200 2.5 1.0

* Incentive shown is per the New Jersey Direct Install Program. See section 5 for other incentive opportunities.

This measure is recommended. 4.1.5 ECM-MB5 & ECM-MB6 Building Envelope Improvements and Door Seals Air leakage represents the single largest source of heat loss or gain through envelopes of nearly all types of buildings. Beyond wasting energy, uncontrolled air leakage can adversely affect occupant comfort, air quality through ingress of contaminants from outside, and the balance of mechanical systems. The structural integrity of the building envelope can also be compromised through moisture migration. Control of air leakage involves the sealing of gaps, cracks and holes, using appropriate materials and systems to create, if possible, a continuous plane of air-tightness to completely encompass the building envelope. Part of this process also incorporates the need to decouple floor-t floor, and compartmentalize components of the building to equalize pressure differences. Numerous exterior doors, including the vestibule areas, have noticeable gaps around the door perimeter and at the center joint of double door assemblies. The lack of effective door seals results in air infiltration and heat transfer between the conditioned space and outdoors. Installing new door seals would minimize infiltration and reduce energy consumption. In addition, the roof joints should be sealed off as well to reduce energy losses from stack effect. The energy savings calculation compared the existing losses through a total crack area of 7.7 square feet. This area is eliminated through the installation of door seals and roof joint weatherstripping. It is assumed that the infiltration air is constant throughout the year, and weather bin data was used to determine the annual heating and cooling loads generated. It was found that addressing the areas identified will save an estimated 430 gallons of propane and 1,700 kWh annually. Door seals and roof joint weatherstripping have an expected life of 10 years, according to the manufacturer, and total energy savings over the life of the project are estimated at 4,260 gallons of propane, 17,000 kWh, and $13,000. The implementation cost and savings related to this ECM are presented in Appendix B and summarized as follows:


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ECM-MB5 & ECM-MB6 Building Envelope Improvements and Door Seals





30,400 0 1,700 430 0 1,300 0 1,300 0.4 NA 23.40 NA

* There is no incentive available through the New Jersey Smart Start or Direct Install Programs for this ECM. See section 5 for other incentive opportunities. This measure is not recommended. 4.1.6 ECM-MB7 Replace Domestic Hot Water Heater Domestic hot water for the Municipal Building is generated by a 50-gallon, General Electric all-electric DHW heater. Using electricity to produce domestic hot water is very expensive in comparison to other fuel sources like natural gas. In addition, during periods of zero demand, energy is lost through the skin of the tank which is known as standby losses. This measure evaluated replacing the existing DHW heater with a tankless, gas-fired, condensing hot water (HW) heater to eliminate standby losses and produce DHW more efficiently. According to the U.S. Department of Energy, 2.5% of stored capacity is lost every hour during HW heater standby. This value was applied to the total volume of the existing DHW heater storage tank to determine the annual standby losses. It was calculated that 780 kWh would be saved per year. A more detailed hot water demand analysis may be necessary to verify proper sizing. The new water heater will require gas and water piping modifications, venting, and electrical connections. Tankless hot water heaters have an expected life of 10 years, according to ASHRAE, and total energy savings over the life of the project are estimated at 7,800 kWh, totaling $1,300. The implementation cost and savings related to this ECM are presented in Appendix B and summarized below:

ECM-MB7 Replace Domestic Hot Water Heater





3,200 0 780 0 0 100 0 100 0.6 300 >25.0 >25.0

* Incentive shown is per the New Jersey Smart Start Program, Gas Water Heating Application. See section 5 for other incentive opportunities. This measure is not recommended. 4.1.7 ECM-MB8 Window Replacement The window system at the Municipal Building comprises of original, double pane windows with aluminum frames and un-insulated fill in panels. Per the building energy audit and manufacturer’s published data, it was found that the existing windows have a U-value of 1.32 and an infiltration rate of about 0.4 CFM/LF. To calculate the savings for this


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measure, the baseline energy loss was found by applying these values to the total square footage and perimeter length of the existing windows in conjunction with weather bin data. The proposed energy loss was then determined using the expected U-value of 0.67 and infiltration rate of 0.2 CFM/LF, for a new triple pane replacement window. The difference in heating and cooling losses through the windows resulted in an annual savings of about 472 gallons of propane and 2,340 kWh. Windows have an expected life of 20 years, according to the manufacturer, and total energy savings over the life of the project are estimated at 9,440 gallons of propane, 46,800 kWh, and $30,900. The implementation cost and savings related to this ECM are presented in Appendix B and summarized below:

ECM-MB8 Window Replacement





81,000 0 2,340 470 0 1,500 0 1,500 0.6 NA >25.0 NA

* There is no incentive available through the New Jersey Smart Start or Direct Install Programs for this ECM. See section 5 for other incentive opportunities.

This measure is not recommended. 4.1.8 ECM-MB9 Vending Miser Installing energy management controllers for all vending beverage and snack machines located in the Municipal Building was assessed. Installation of these devices will reduce operating costs and greenhouse gas emissions. With vending misers, refrigerated beverage vending machines use considerably less energy and will be comparable in energy performance to the new Energy Star qualified machines. The annual energy savings for this measure is expected to be about 2, 500 kWh. The vending miser has an expected life of 5 years and total energy savings over the life of the project are estimated at 12,290 kWh, and $2,000. The implementation cost and savings related to this ECM are presented in Appendix B and summarized below:

ECM-MB9 Vending Miser





300 0 2,460 0 0 400 0 400 5.1 NA 0.8 NA


This measure is recommended.


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4.1.9 ECM-MB10 Refrigerator Replacement The Municipal Building utilizes a standard refrigerator in the breakroom that serves for food and beverage storage. Savings can be achieved by replacing this unit with a new, Energy Star rated equivalent. A rebate of up to $75 is also available through the New Jersey Clean Energy Program. This measure was evaluated and the savings were less than $100; therefore, it is not recommended as part of the study. See Appendix C for calculations. A new, high efficient refrigerator has an expected life of 10 years which results in an overall life cycle savings of 2,240 kWh and $400. 4.1.10 ECM-MB11 Network Controller Personal Computers (PCs) are significant consumers of electricity, and energy use is increasing as faster processors, more memory, and more power-consuming peripherals become commonplace. According to the Department of Energy, the average PC can waste up to 400 kilowatt-hours of electricity a year by running at full power when not in use. A network controller is a software utility that addresses network energy waste and reduces operating costs by measuring, managing, and minimizing energy consumed by the network's PC users through one centralized interface without impacting PC users. It is estimated that the average per-PC savings are 150 kWh a year per computer. A total of 38 personal computers at the Municipal Building were included in the preliminary estimates. The implementation cost and savings related to this ECM are presented in Appendix B and summarized below:

ECM-MB11 Network Controller





500 0 5,700 0 0 700 0 700 6.4 NA 0.7 NA

This measure is recommended. 4.2 White Rock Sewer Plant 4.2.1 ECM-WR1 Lighting Replacements A comprehensive fixture survey was conducted. Each switch and circuit was identified, and the number of fixtures, locations, and existing wattage established (Appendix C). Inefficient lighting fixtures include those that utilize T-12 fluorescent lamps and T-12 U-tube lamps. Upgrading the lighting fixtures in the White Rock facility with more efficient technology will provide electrical energy savings. Energy savings for this measure were calculated by applying the existing and proposed fixture wattages to estimated time of operation. The difference between energy requirements resulted in a total annual saving of 4,840 kWh with an electrical demand reduction of about 2 kW. Supporting calculations, including assumptions for lighting hours and annual energy usage for each fixture, are provided in Appendix B.


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Retrofitting fixtures that utilize T-12 lamps would require replacement with electronic ballasts and T-8 lamps; T-8 U-tube lamps would be replaced with standard straight T-8 fluorescent lamps. Lighting has an expected life of 10 years, according to the manufacturer, and total energy savings over the life of the project are estimated at 48,380 kWh and $8,400. The implementation cost and savings related to this ECM are presented in Appendix B and summarized below:

ECM-WR1 Lighting Replacements





2,700 1.7 4,840 0 0 800 0 800 2.1 1,600 3.2 1.3

* Incentive shown is per the New Jersey Direct Install Program. See section 5 for other incentive opportunities. This measure is not recommended in lieu of ECM-3. 4.2.2 ECM-WR2 Install Occupancy Sensors Review of the comprehensive lighting survey determined that lighting in several areas such as offices, breakrooms, and conference rooms is typically operated continuously throughout the day regardless of occupancy. Therefore, installing an occupancy sensor in these spaces to turn off lights when the areas are unoccupied was assessed;. Using a process similar to that utilized in section 4.1.1, the energy savings for this measure were calculated by applying the known fixture wattages in the space to the estimated existing and proposed times of operation for each fixture. The difference between the two values resulted in an annual savings of 2,340 kWh. Four wall-mounted occupancy sensors are required for this measure. Occupancy sensors have an expected life of 10 years, according to the manufacturer, and total energy savings over the life of the project are estimated at 23,430 kWh and $3,500. The implementation cost and savings related to this ECM are presented in Appendix B and summarized below:

ECM-WR2 Install Occupancy Sensors





1,000 0 2,340 0 0 300 0 300 2.7 600 3.3 1.3

* Incentive shown is per the New Jersey Direct Install Program. See section 5 for other incentive opportunities. This measure is not recommended in lieu of ECM-3.


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4.2.3 ECM-WR3 Lighting Replacements with Occupancy Sensors

Due to interactive effects, the energy and cost savings for occupancy sensors and lighting upgrades are not cumulative. This measure is a combination of ECMs-1 and 2 to allow for maximum energy and demand reduction. The lighting retrofits and controls have an expected lifetime of 10 years, according to the manufacturer, and total energy savings over the life of the project are estimated at 60,350 kWh and $10,160. The implementation cost and savings related to this ECM are presented in Appendix B and summarized below:

ECM-3 Lighting Replacements with Occupancy Sensors





3,600 1.7 6,040 0 0 1,000 0 1,000 1.8 2,200 3.6 1.4

* Incentive shown is per the New Jersey Direct Install Program. See section 5 for other incentive opportunities. This measure is recommended. 4.2.4 ECM-WR4 Install Premium Efficiency Motors Many of the process motors at White Rock are standard efficiency. Premium motors require less power to operate and, therefore, reduce overall electrical consumption. Replacement of motors is based on the table below:

Building # of

Motors Lead/ Lag HP

Run Time

(Hr/Yr)Existing

Eff. Proposed

Eff. Notes

White Rock 2 Y 7.5 8,760 84.0% 91.7% Submersible

White Rock 4 Y 5 8,760 81.5% 89.5% Submersible

White Rock 2 Y 10 8,760 85.5% 91.7% Blower

White Rock 2 Y 25 8,760 87.5% 93.6% Blower Premium motors have an expected life of 15 years, according to ASHRAE, and total energy savings over the life of the project are estimated at 341,000 kWh, and $53,400. The implementation cost and savings related to this ECM are presented in Appendix B and summarized as follows:


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ECM-WR4 Install Premium Efficiency Motors





7,900 2.6 22,730 0 0 3,600 0 3,600 2.4 4,800 2.2 0.9


This measure is recommended. 4.2.5 ECM-WR5 Replace Domestic Hot Water Heater Domestic hot water for the main building is generated by a 50-gallon, State Industries all-electric domestic hot water heater. This measure evaluated replacing the existing DHW heater with a tankless, gas-fired, condensing HW heater to eliminate standby losses and produce DHW more efficiently. It was calculated that 780 kWh would be saved per year. A more detailed hot water demand analysis may be necessary to verify proper sizing. The new water heater will require gas and water piping modifications, venting, and electrical connections. Tankless hot water heaters have an expected life of 10 years, according to ASHRAE, and total energy savings over the life of the project are estimated at 7,800 kWh, totaling $1,200. The implementation cost and savings related to this ECM are presented in Appendix B and summarized below:

ECM-WR5 Replace Domestic Hot Water Heater





1,100 0 780 0 0 100 0 100 1.0 300 11.0 8.0

* Incentive shown is per the New Jersey Smart Start Program, Gas Water Heating Application. See section 5 for other incentive opportunities. This measure is recommended. 4.2.6 ECM-WR6 Replace Window AC Units The main building of the White Rock Sewer Plant utilizes old, inefficient window air conditioners for space cooling. A replacement alternative would be a new, high efficient, ductless split system. The proposed system would provide cooling for the lab and office. Both rooms would share a single condenser. Savings are achieved due to higher seasonal energy efficiency ratios (SEERs) from 11on the existing window units to 20 for the new proposed system. Ductless split AC units have an expected life of 15 years and total energy savings over the life of the project are estimated at 15,470 kWh, totaling $2,500. The implementation cost and savings related to this ECM are presented in Appendix B and summarized as follows:


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ECM-WR6 Replace Window AC Units





3,200 0 1,030 0 0 200 0 200 0.2 1,900 16.0 6.5

* Incentive shown is per the New Jersey Clean Energy Program Application. See section 5 for other incentive opportunities. This measure is recommended. 4.3 Moosepac Sewer Plant

4.3.1 ECM-M1 Lighting Replacements A comprehensive fixture survey was conducted, and each switch and circuit was identified, and the number of fixtures, locations, and existing wattage established (Appendix C). . Upgrading the T-12 fluorescent lamps with more efficient technology was assessed Retrofitting fixtures that utilize T-12 lamps would require replacement with electronic ballasts and T-8 lamps. Energy savings for this measure were calculated by applying the existing and proposed fixture wattages to estimated time of operation. The difference between energy requirements resulted in annual savings of 220 kWh with an electrical demand reduction of about 0.4 kW. Supporting calculations, including assumptions for lighting hours and annual energy usage for each fixture, are provided in Appendix B. This measure was evaluated and the savings were less than $100; therefore, it is not recommended as part of the study. See Appendix B for calculations. Lighting has an expected life of 10 years, according to the manufacturer, and total energy savings over the life of the project are estimated at 2,160 kWh and $600 4.3.2 ECM-M2 Install Premium Efficiency Motors Many of the process motors at Moosepac are standard efficiency motors. Premium motors require less power to operate and, therefore, reduce overall electrical consumption. Replacement of motors is based on the table below:

Building # of

Motors Lead/ Lag HP

Run Time

ExistingEff.

Proposed Eff. Notes

Moosepac 4 Y 5 8,760 85.0% 89.5% EQ Pump

Moosepac 3 Y 10 8,760 85.5% 91.7% Air Compressor Premium motors have an expected life of 15 years, according to ASHRAE, and total energy savings over the life of the project are estimated at 173,240 kWh, and $27,300. The implementation cost and savings related to this ECM are presented in Appendix B and summarized as follows:


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ECM-M2 Install Premium Efficiency Motors





4,200 1.3 1,150 0 0 1,800 0 1,800 2.0 2,500 2.3 0.9


This measure is recommended.


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5.0 PROJECT INCENTIVES 5.1 Incentives Overview 5.1.1 New Jersey Pay For Performance Program The Municipal Building will be eligible for incentives from the New Jersey Office of Clean Energy. The most significant incentives will be from the New Jersey Pay for Performance (P4P) Program. The P4P program is designed for qualified energy conservation projects in facilities whose demand in any of the preceding 12 months exceeds 200 kW. However, the 200 kW/month average minimum has been waived for buildings owned by local governments or municipalities and non-profit organizations. Facilities that meet this criterion must also achieve a minimum performance target of 15% energy reduction by using the EPA Portfolio Manager benchmarking tool before and after implementation of the measure(s). If the participant is a municipal electric company customer, and a customer of a regulated gas New Jersey Utility, only gas measures will be eligible under the Program. American Recovery and Reinvestment Act (ARRA) funding, when available, may allow oil, propane and municipal electric customers to be eligible for the P4P Program. Available incentives are as follows: Incentive #1: Energy Reduction Plan – This incentive is designed to offset the cost of services associated with the development of the Energy Reduction Plan (ERP). The standard incentive pays $0.10 per square foot, up to a maximum of $50,000, not to exceed 50% of facility annual energy cost, paid after approval of application. For building audits funded by the New Jersey Board of Public Utilities, which receive an initial 75% incentive toward performance of the energy audit, facilities are only eligible for an additional $0.05 per square foot, up to a maximum of $25,000, rather than the standard incentive noted above. Incentive #2: Installation of Recommended Measures – This incentive is based on projected energy saving and designed to pay approximately 60% of the total performance-based incentive. Base incentives deliver $0.11/kWh and $1.10/therm not to exceed 30% of total project cost. Incentive #3: Post-Construction Benchmarking Report – This incentive is paid after acceptance of a report proving energy savings over one year utilizing the Environmental Protection Agency (EPA) Portfolio Manager benchmarking tool. Incentive #3 base incentives deliver $0.07/kWh and $0.70/therm not to exceed 20% of total project cost. Combining incentives #2 and #3 will provide a total of $0.18/ kWh and $1.8/therm not to exceed 50% of total project cost. Additional incentives for #2 and #3 are increased by $0.005/kWh and $0.05/therm for each percentage increase above the 15% minimum target to 20%, calculated with the EPA Portfolio Manager benchmarking tool, not to exceed 50% of total project cost. 5.1.2 New Jersey Smart Start Program

For this program, specific incentives for energy conservation measures are calculated on an individual basis utilizing the 2010 New Jersey Smart Start incentive program. This program provides incentives dependent upon mechanical and electrical equipment. If applicable, incentives from this program are reflected in the ECM summaries and attached appendices. If the complex qualifies and enters into the New Jersey Pay for Performance Program, all energy savings will be included in the total site energy reduction, and savings will be applied towards the Pay for Performance incentive. A project is not applicable for both New Jersey incentive programs.


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5.1.3 ARRA Initiative “Energy Efficiency Programs through the Clean Energy Program” The American Recovery and Reinvestment Act (ARRA) Initiative is available to New Jersey oil, propane, cooperative and municipal electric customers who do not pay the Societal Benefits Charge. This charge can be seen on any electric bill as the line item “SBC Charge.” Applicants can participate in this program in conjunction with other New Jersey Clean Energy Program initiatives including Pay for Performance, Local Government Energy Audits, and Direct Install programs. Funding for this program is dispersed on a first come, first serve basis until all funds are exhausted. The program does not limit the municipality to a minimum or maximum incentive, and the availability of funding cannot be determined prior to application. If the municipality meets all qualifications, the application must be submitted to TRC Energy Solutions for review. TRC will then determine the amount of the incentive based on projected energy savings of the project. It is important to note that all applications for this incentive must be submitted before implementation of energy conservation measures. Additional information is available on New Jersey’s Clean Energy Program website. 5.1.4 Direct Install Program The Direct Install Program targets small and medium sized facilities where the peak electrical demand does not exceed 200 kW in any of the previous 12 months. Buildings must be located in New Jersey and served by one of the state’s public, regulated electric or natural gas utility companies. On a case-by-case basis, the program manager may accept a project for a customer that is within 10% of the 200 kW peak demand threshold.

The 200 kW peak demand threshold has been waived for local government entities that receive and utilize their Energy Efficiency.

Direct Install is funded through New Jersey’s Clean Energy Program and is designed to provide capital for building energy upgrade projects to fast track implementation. The program will pay up to 60% of the costs for lighting, HVAC, motors, natural gas, refrigeration, and other equipment upgrades with higher efficiency alternatives. If a building is eligible for this funding, the Direct Install Program can significantly reduce the implementation cost of energy conservation projects. The program pays a maximum amount of $50,000 per building, and up to $250,000 per customer per year. Installations must be completed by a Direct Install participating contractor, a list of which can be found on the New Jersey Clean Energy Website at http://www.njcleanenergy.com. Contractors will coordinate with the applicant to arrange installation of recommended measures identified in a previous energy assessment, such as this document. 5.2 Building Incentives 5.2.1 New Jersey Pay For Performance Program Incentives for this project are covered under the New Jersey Smart Start Program and the Direct Install Program.


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5.2.2 New Jersey Smart Start Program The Jefferson Township is eligible for several incentives available under New Jersey Smart Start Programs. The total amount of all qualified incentives for the recommended measures is about $7,800 and includes installing premium efficiency motors, a tankless gas-fired DHW heater, and lighting system upgrades. 5.2.4 Direct Install Program Jefferson Township is potentially eligible to receive funding from the Direct Install Program. . The total implementation cost for all ECMs potentially eligible for Direct Install funding is about $78,099 including the temperature setback, premium efficiency motors and upgrades to the lighting system. The program would pay 60%, or about $46,859 of these initial costs, leaving only $31,240 to be paid out of pocket. Direct Install funding has the potential to significantly reduce the payback period of Energy Conservation Measures. For the overall project, the Direct Install Program brings the simple payback of the least cost effective measure from about 20 years, to approximately 7 years, and the majority of the measures will have a payback period of less than 2 years.


Page 20 of 27

6.0 ALTERNATIVE ENERGY SCREENING EVALUATION 6.1 Geothermal

Geothermal heat pumps (GHP) transfer heat between the constant temperature of the earth and the building to maintain the building’s interior space conditions. Below the surface of the earth throughout New Jersey the temperature remains in the low 50F range throughout the year. This stable temperature provides a source for heat in the winter and a means to reject excess heat in the summer. With GHP systems, water is circulated between the building and the piping buried in the ground. The ground heat exchanger in a GHP system is made up of a closed or open loop pipe system. Most common is the closed loop in which high density polyethylene pipe is buried horizontally at 4-6 feet deep or vertically at 100 to 400 feet deep. These pipes are filled with an environmentally friendly antifreeze/water solution that acts as a heat exchanger. In the summer, the water picks up heat from the building and moves it to the ground. In the winter the system reverses and fluid picks up heat from the ground and moves it to the building. Heat pumps make collection and transfer of this heat to and from the building possible.

The building uses gas-fired rooftop units with DX cooling to meet the HVAC requirements.

This measure is not recommended because the extent of HVAC system renovation needed for implementation greatly outweighs the savings over the life of the equipment. 6.2 Solar 6.2.1 Photovoltaic Rooftop Solar Power Generation The facility was evaluated for the potential to install rooftop photovoltaic (PV) solar panels for power generation. Present technology incorporates the use of solar cell arrays that produce direct current (DC) electricity. This DC current is converted to alternating current (AC) with the use of an electrical device known as an inverter. The building’s roof has sufficient room to install a large solar cell array. A structural analysis would be required to determine if the roof framing could support a cell array. The PVWATTS solar power generation model was utilized to calculate PV power generation. The closest city available in the model is Atlantic City, New Jersey and a fixed tilt array type was utilized to calculate energy production. The PVWATT solar power generation model is provided in Appendix P. The State of New Jersey incentives for non-residential PV applications is $0.75/watt up to 30 kW of installed PV array with a maximum system capacity of 50 kW. Federal tax credits are also available for renewable energy projects up to 30% of installation cost. Municipalities do not pay federal taxes; therefore, would not be able to utilize the federal tax credit incentive. Installation of (PV) arrays in the state New Jersey will allow the owner to participate in the New Jersey solar renewable energy certificates program (SREC). This is a program that has been set up to allow entities with large amounts of environmentally unfriendly emissions to purchase credits from zero emission (PV) solar-producers. An alternative compliance penalty (ACP) is paid for by the high emission producers and is set each year on a declining scale of 3% per year. One SREC credit is equivalent to 1000 kilowatt hours of PV electrical production; these credits can be traded for period of 15 years from the date of installation. The cost of the ACP penalty for 2010 is $600; this is the amount that must be paid per SREC by the high emission producers. The expected dollar amount that will be paid to the PV producer for 2011 is expected to be $700/SREC credit. Payments that will be received from the PV producer will change from year to year dependent upon supply and demand. Renewable Energy Consultants is a third party SREC broker that has been approved by the New Jersey Clean Energy Program. As stated above there is no definitive way to calculate an exact price that will be received by the PV producer per SREC


Page 21 of 27

over the next 15 years. Renewable Energy Consultants estimated an average of $487/ SREC per year and this number was utilized in the cash flow for this report. For the 2010 calendar year the entire Municipal Complex had a maximum electricity demand of 80 kW and a minimum of 61.8 kW. The monthly average over the observed 12 month period was 68.67 kW. The existing load justifies the use of the maximum incentive cap of 50 kW of installed PV solar array; where incentives can be applied to only 40 kW of the system. The system costs for PV installations were derived from contractor budgetary pricing in the state of New Jersey for estimates of total cost of system installation. It should be noted that the cost of installation is currently about $7.25 per watt or $7,250 per kW of installed system, for a 40 kW system. Other cost considerations will also need to be considered. PV panels have an approximate 20 year life span; however, the inverter device that converts DC electricity to AC has a life span of 10 to 12 years and will need to be replaced multiple times during the useful life of the PV system. The implementation cost and savings related to this ECM are presented in Appendix B and summarized as follows:

Photovoltaic (PV) Rooftop Solar Power Generation – 40 kW System

Budgetary Annual Utility Savings Total

New Jersey

Renewable

New Jersey

Renewable Payback Payback

Cost Savings Energy

Incentive* SREC** (without

incentive) (with

incentives)

Electricity Natural Gas Total

$ kW kWh Therms $ $ $ $ Years Years

290,000 0 50,009 0 8,269 8,269 49,480 NA 35.1 29.1

*Incentive based on New Jersey Renewable Energy Program for non-residential applications of $0.75 per Watt of installed capacity ** Estimated Solar Renewable Energy Certificate Program (SREC) for 15 years at $487/1000 kWh

Due to the fact that this measure does not fit within the payback criteria of 10 years or the life expectancy of the system we do not recommend this measure for installation. In addition, Jefferson Township will not be able to take advantage of any tax credits due to their tax exempt status. 6.2.2 Solar Thermal Hot Water Plant Active solar thermal systems use solar collectors to gather the sun’s energy to heat water, another fluid, or air. An absorber in the collector converts the sun’s energy into heat. The heat is then transferred by circulating water, antifreeze, or sometimes air to another location for immediate use or storage for later utilization. Applications for active solar thermal energy include providing hot water, heating swimming pools, space heating, and preheating air in residential and commercial buildings. A standard solar hot water system is typically composed of solar collectors, heat storage vessel, piping, circulators, and controls. Systems are typically integrated to work alongside a conventional heating system that provides heat when solar resources are not sufficient. The solar collectors are usually placed on the roof of the building, oriented south, and tilted around the site’s latitude, to maximize the amount of radiation collected on a yearly basis. Several options exist for using active solar thermal systems for space heating. The most common method involves using glazed collectors to heat a liquid held in a storage tank (similar to an active solar hot water system). The most practical system would transfer the heat from the panels to thermal storage tanks and transfer solar produced thermal energy to use for domestic hot water production. DHW is presently produced by gas-fired water heaters and, therefore, this measure would offer natural gas utility savings.


Page 22 of 27

Currently, an incentive is not available for installation of thermal solar systems. A Federal tax credit of 30% of installation cost for the thermal applications is available; however, the Township of Jefferson does not pay Federal taxes and, therefore, would not benefit from this program. The implementation cost and savings related to this ECM are presented in Appendix B and summarized as follows:

Solar Thermal Domestic Hot Water Plant – Municipal Building

Budgetary Annual Utility Savings Total New Jersey Renewable Payback Payback

Cost

Savings Energy

Incentive (without

incentive) (with incentive)

Electricity Natural Gas Total

$ kW kWh Therms $ $ $ Years Years

12,920 0 7,625 0 1,096 1,096 NA 11.9 NA

* No incentive is available in New Jersey at this time.

This measure is not recommended. 6.3 Wind Small wind turbines use a horizontal axis propeller, or rotor, to capture the kinetic energy of the wind and convert it into rotary motion to drive a generator which usually is designed specifically for the wind turbine. The rotor consists of two or three blades, usually made from wood or fiberglass. These materials give the turbine the needed strength and flexibility, and have the added advantage of not interfering with television signals. The structural backbone of the wind turbine is the mainframe, and includes the slip-rings that connect the wind turbine, which rotates as it points into changing wind directions, and the fixed tower wiring. The tail aligns the rotor into the wind. To avoid turbulence and capture greater wind energy, turbines are mounted on towers. Turbines should be mounted at least 30 feet above any structure or natural feature within 300 feet of the installation. Smaller turbines can utilize shorter towers. For example, a 250-watt turbine may be mounted on a 30-50 foot tower, while a 10 kW turbine will usually need a tower of 80-120 feet. Tower designs include tubular or latticed, guyed or self-supporting. Wind turbine manufacturers also provide towers. The New Jersey Clean Energy Program for small wind installations has designated numerous pre-approved wind turbines for installation in the State of New Jersey. Incentives for wind turbine installations are based on kilowatt hours saved in the first year. Systems sized under 16,000 kWh per year of production will receive a $3.20 per kWh incentive. Systems producing over 16,000 kWh will receive $51,200 for the first 16,000 kWh of production with an additional $0.50 per kWh up to a maximum cap of 750,000 kWh per year. Federal tax credits are also available for renewable energy projects up to 30% of installation cost for systems less than 100 kW. However, as noted previously, municipalities do not pay federal taxes and is, therefore, not eligible for the tax credit incentive. The most important part of any small wind generation project is the mean annual wind speed at the height of which the turbine will be installed. In the Jefferson Township area, the map indicates a mean annual wind speed of about 12 miles per hour. For the Municipal Building, there are site restrictions such as parking lots and surrounding structures that would greatly affect a tower location. This measure requires further study to determine location, work scope, as well as local permitting requirements. In addition, site issues may render the measure unfeasible. Therefor it is not recommended at this time.


Page 23 of 27

6.4 Combined Heat and Power Generation (CHP)

Combined heat and power, cogeneration, is self-production of electricity on-site with beneficial recovery of the heat byproduct from the electrical generator. Common CHP equipment includes reciprocating engine-driven, micro turbines, steam turbines, and fuel cells. Typical CHP customers include industrial, commercial, institutional, educational institutions, and multifamily residential facilities. CHP systems that are commercially viable at the present time are sized approximately 50 kW and above, with numerous options in blocks grouped around 300 kW, 800 kW, 1,200 kW and larger. Typically, CHP systems are used to produce a portion of the electricity needed by a facility some or all of the time, with the balance of electric needs satisfied by purchase from the grid.

Any proposed CHP project will need to consider many factors, such as existing system load, use of thermal energy produced, system size, natural gas fuel availability, and proposed plant location. The Municipal Complex has sufficient need for electrical generation and the ability to use most of the thermal byproduct during the winter, thermal usage during the summer months is low. Thermal energy produced by the CHP plant in the warmer months will be wasted. An absorption chiller could be installed to utilize the heat to produce chilled water; however, there is no chilled water distribution system in the building. The most viable selection for a CHP plant at this location would be a reciprocating engine natural gas-fired unit. Purchasing this system and performing modifications to the existing HVAC and electrical systems would greatly outweigh the savings over the life of the equipment. This measure is not recommended.

6.5 Biomass Power Generation

Biomass power generation is a process in which waste organic materials are used to produce electricity or thermal energy. These materials would otherwise be sent to the landfill or expelled to the atmosphere. To participate in NJCEP's Customer On-Site Renewable Energy program, participants must install an on-site sustainable biomass or fuel cell energy generation system. Incentives for bio-power installations are available to support up to 1MW-dc of rated capacity.

*Class I organic residues are eligible for funding through the NJCEP CORE program. Class I wastes include the following renewable supply of organic material:

Wood wastes not adulterated with chemicals, glues or adhesives Agricultural residues (corn stover, rice hulls or nut shells, manures, poultry litter, horse manure,

etc) and/or methane gases from landfills Food wastes Municipal tree trimming and grass clipping wastes Paper and cardboard wastes Non adulterated construction wood wastes, pallets

The NJDEP evaluates biomass resources not identified in the RPS.

Examples of eligible facilities for a CORE incentive include:

Digestion of sewage sludge Landfill gas facilities Combustion of wood wastes to steam turbine


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Gasification of wood wastes to reciprocating engine Gasification or pyrolysis of bio-solid wastes to generation equipment

* from NJOCE Website This measure is not recommended due to noise issues and because the Municipal Building does not have a steady waste stream to utilize as a fuel source.

6.6 Demand Response Curtailment

Presently, electricity is delivered by Jersey Central Power & Light, which receives the electricity from the Jersey Power and Light Company. Utility Curtailment is an agreement with the utility provider’s regional transmission organization and an approved Curtailment Service Provider (CSP) to shed electrical load by either turning major equipment off or energizing all or part of a facility utilizing an emergency generator; therefore, reducing the electrical demand on the utility grid. This program is to benefit the utility company during high demand periods and utility provider offers incentives to the CSP to participate in this program. Enrolling in the program will require program participants to drop electrical load or turn on emergency generators during high electrical demand conditions or during emergencies. Part of the program also will require that program participants reduce their required load or run emergency generators with notice to test the system. A pre-approved CSP will require a minimum of 100 kW of load reduction to participate in any curtailment program. The Jefferson Township Municipal Building had a monthly average electricity demand of 68.73 kW and a maximum demand of 80.00 kW from December 2009 through November 2010 This measure is not recommended because the facility does not have adequate load to meet the required minimum load reduction.

New Jersey BPU - Energy Audits

Page 25 of 27

7.0 EPA PORTFOLIO MANAGER The United States Environmental Protection Agency (EPA) is a federal agency in charge of regulating environment waste and policy in the United States. The EPA has released the EPA Portfolio Manager for public use. The program is designed to allow property owners and managers to share, compare and improve upon their facility’s energy consumption. Inputting such parameters as electricity, heating fuel, building characteristics and location into the website based program generates a naturalized energy rating score out of 100. Once an account is registered, monthly utility data can be entered to track the savings progress and retrieve an updated energy rating score on a monthly basis. The Jefferson Township is considered an average energy consumer per the Portfolio Manager with a Site Energy Usage Index (EUI) of 90.1 kBTU/ft2/year. The EUI can be improved by addressing wasted energy from such sources as excess ventilation, electric heating, poor building envelope components, oversized water heaters, and inefficient lighting systems. By implementing the measures discussed in this report, it is expected that the EUI can be reduced to approximately 75 kBTU/ft2/year. The EPA Portfolio Manager did not generate an energy rating score for the two sewer plants because more than 10% of the floor area falls into the category “Other”, which is not eligible for an energy star rating. A full EPA Energy Star Portfolio Manager Report is located in Appendix D. The user name and password for the building’s EPA Portfolio Manager Account has been provided to Jim Leach.


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8.0 CONCLUSIONS & RECOMMENDATIONS The energy audit conducted by CHA at the Township of Jefferson, New Jersey identified potential ECMs for temperature setback, premium efficiency motors, building envelope improvements, door seals, domestic hot water heater replacement; lighting upgrades with occupancy sensors were also assessed. Potential annual savings of about $22,700 may be realized for the recommended ECMs, with a summary of the costs, savings, and paybacks as follows: 8.1 Municipal Building

ECM-MB3 Lighting Replacements with Occupancy Sensors





39,200 20 71,520 0 0 12,100 0 12,100 2.1 23,500 3.2 1.3


ECM-MB4 Install Web-Based Thermostats





7,000 0 920 680 0 2,800 0 2,800 2.1 4,200 2.5 1.0


ECM-MB9 Vending Miser





300 0 2,460 0 0 400 0 400 5.1 NA 0.8 NA


ECM-MB11 Network Controller





500 0 5,700 0 0 700 0 700 6.4 NA 0.7 NA


Page 27 of 27

8.2 White Rock WWTP

ECM-3 Lighting Replacements with Occupancy Sensors





3,600 1.7 6,040 0 0 1,000 0 1,000 1.8 2,200 3.6 1.4


ECM-WR4 Install Premium Efficiency Motors





7,900 2.6 22,730 0 0 3,600 0 3,600 2.4 4,800 2.2 0.9


ECM-WR5 Replace Domestic Hot Water Heater





1,100 0 780 0 0 100 0 100 1.0 300 11.0 8.0

* Incentive shown is per the New Jersey Smart Start Program, Gas Water Heating Application. See section 5 for other incentive opportunities.

ECM-WR6 Replace Window AC Units





3,200 0 1,030 0 0 200 0 200 0.2 1,900 16.0 6.5

* Incentive shown is per the New Jersey Clean Energy Program Application. See section 5 for other incentive opportunities. 8.3 Moosepac WWTP

ECM-M2 Install Premium Efficiency Motors





4,200 1.3 1,150 0 0 1,800 0 1,800 2.0 2,500 2.3 0.9

Appendix A

Utility Usage

Municipal Building

New Jersey BPU Energy Audit Program

CHA Project No.: 22983

Jefferson TWP Municipal Building

Propane Usage

1033 Weldon Rd Propane Supplier:

Eastern Propane

Date Propane (Gallons) $Cost $/Gallon

1/3/2009 417 813.74$ 1.950$

1/13/2009 355 639.72$ 1.800$

1/24/2009 308 627.91$ 2.040$

2/12/2009 304 578.36$ 1.900$

3/3/2009 602 1,144.56$ 1.900$

3/25/2009 401 761.66$ 1.898$

5/7/2009 350 626.32$ 1.790$

12/8/2009 301 644.35$ 2.140$

1/12/2010 710 1,775.25$ 2.500$

1/21/2010 317 754.70$ 2.380$

1/28/2010 223 557.00$ 2.500$

2/4/2010 326 792.42$ 2.430$

2/15/2010 404 942.02$ 2.330$

3/2/2010 568 1,346.87$ 2.370$

3/17/2010 357 845.85$ 2.370$

4/12/2010 212 477.90$ 2.250$

11/3/2010 245 582.62$ 2.380$

11/18/2010 194 505.44$ 2.600$

12/2/2010 293 761.28$ 2.600$

12/13/2010 342 888.68$ 2.600$

12/18/2010 212 550.16$ 2.600$

1/6/2011 721 1,945.62$ 2.700$

1/14/2011 388 1,048.14$ 2.700$

1/25/2011 432 1,167.48$ 2.700$

2/8/2011 483 1,306.53$ 2.703$

2/21/2011 424 1,143.72$ 2.700$

3/1/2011 221 630.42$ 2.850$

3/22/2011 483 1,366.89$ 2.830$

4/12/2011 455 1,201.20$ 2.640$

Total (All) 11,051 26,426.81$ 2.391$

Total (2010) 4,403 10,780.19$ 2.448$

$-$5

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Charges ($)

Purchases (Gallons)

Dat

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Jefferson TWP Municipal Building Electric Service

1033 Weldon Rd. Delivery - Jersey Central Power & Light Co

Supplier - Jersey Central Power & Light Co

Account No.: 10 00 02 0987 78

Meter No.: G17812203

Consumption Demand Total Demand Consumption Blended Rate Consumption Demand

Month (kWh) (kW) ($) ($) ($) ($/kWh) ($/kWh) ($/kW)

March-09 30,000 63.20 $4,649.03 $344.20 $4,304.83 0.155$ 0.143$ 5.45$

April-09 25,800 69.60 $4,097.09 $385.61 $3,711.48 0.159$ 0.144$ 5.54$

May-09 30,000 70.40 $5,278.70 $419.18 $4,859.52 0.176$ 0.162$ 5.95$

June-09 31,200 67.40 $5,368.25 $398.36 $4,969.89 0.172$ 0.159$ 5.91$

July-09 24,400 76.20 $4,361.11 $459.43 $3,901.68 0.179$ 0.160$ 6.03$

August-09 30,400 75.40 $5,253.48 $453.88 $4,799.60 0.173$ 0.158$ 6.02$

September-09 23,800 67.80 $3,779.65 $373.97 $3,405.68 0.159$ 0.143$ 5.52$

October-09 25,600 49.40 $3,909.40 $254.92 $3,654.48 0.153$ 0.143$ 5.16$

November-09 30,000 69.40 $4,704.53 $384.32 $4,320.21 0.157$ 0.144$ 5.54$

December-09 28,100 66.40 $4,461.11 $364.91 $4,096.20 0.159$ 0.146$ 5.50$

January-10 26,200 63.40 $4,217.69 $345.50 $3,872.19 0.161$ 0.148$ 5.45$

February-10 24,400 61.80 $3,945.78 $335.15 $3,610.63 0.162$ 0.148$ 5.42$

March-10 25,000 61.60 $3,996.89 $333.85 $3,663.04 0.160$ 0.147$ 5.42$

April-10 22,800 61.80 $3,681.47 $335.15 $3,346.32 0.161$ 0.147$ 5.42$

May-10 25,400 75.60 $4,440.14 $455.26 $3,984.88 0.175$ 0.157$ 6.02$

June-10 26,800 80.00 $4,583.87 $754.19 $3,829.68 0.171$ 0.143$ 9.43$

July-10 25,600 77.20 $4,384.02 $466.37 $3,917.65 0.171$ 0.153$ 6.04$

August-10 26,200 79.20 $4,494.45 $480.25 $4,014.20 0.172$ 0.153$ 6.06$

September-10 25,400 69.20 $4,182.82 $383.02 $3,799.80 0.165$ 0.150$ 5.53$

October-10 27,200 62.40 $4,404.37 $339.03 $4,065.34 0.162$ 0.149$ 5.43$

November-10 27,000 66.20 $4,386.08 $363.61 $4,022.47 0.162$ 0.149$ 5.49$

December-10 25,400 65.60 $4,111.75 $359.73 $3,752.02 0.162$ 0.148$ 5.48$

January-11 33,400 69.20 $5,296.60 $383.02 $4,913.58 0.159$ 0.147$ 5.53$

February-11 26,800 69.20 $4,236.72 $383.02 $3,853.70 0.158$ 0.144$ 5.53$

March-11 26,200 60.20 $3,909.79 $324.79 $3,585.00 0.149$ 0.137$ 5.40$

April-11 23,600 61.80 $3,570.75 $335.15 $3,235.60 0.151$ 0.137$ 5.42$

Total (All) 696,700 80.00 $113,705.54 $10,215.87 $103,489.67 0.163$ 0.149$ 5.81$

Total (2010) 307,400 80.00 $50,829.33 $4,951.11 $45,878.22 0.165$ 0.149$ 6.01$

Charges Unit Costs

Utility Data - Jefferson TWP

Electric Main

Utilit

y D

ata

- J

eff

ers

on T

WP

Ele

ctr

icity

Chart

Main

010

20

30

40

50

60

70

80

90

0

5,0

00

10,0

00

15,0

00

20,0

00

25,0

00

30,0

00

35,0

00

40,0

00

Mar-09

Apr-09

May-09

Jun-09

Jul-09

Aug-09

Sep-09

Oct-09

Nov-09

Dec-09

Jan-10

Feb-10

Mar-10

Apr-10

May-10

Jun-10

Jul-10

Aug-10

Sep-10

Oct-10

Nov-10

Dec-10

Jan-11

Feb-11

Mar-11

Apr-11

Demand (kW)

Usage (kWh)

Mo

nth

Ele

ctr

ic U

sa

ge -

Je

ffe

rso

n T

WP

Mu

nic

ipa

l B

uild

ing

To

tal U

sa

ge

(kW

h)

Pe

ak D

em

an

d (

kW

)

White Rock WWTP

White Rock WWTP Electric Service

Mirror Pl. Delivery - Jersey Central Power & Light Co


Account No.: 10 00 01 7673 08




February-09 42,600 70.40 $6,615.05 $390.79 $6,224.26 0.155$ 0.146$ 5.55$

March-09 36,240 68.40 $5,564.75 $377.85 $5,186.90 0.154$ 0.143$ 5.52$

April-09 36,120 60.80 $5,499.04 $328.68 $5,170.36 0.152$ 0.143$ 5.41$

May-09 27,680 48.00 $4,738.66 $263.72 $4,474.94 0.171$ 0.162$ 5.49$

June-09 30,920 53.20 $5,225.71 $299.81 $4,925.90 0.169$ 0.159$ 5.64$

July-09 25,040 48.00 $4,265.96 $263.72 $4,002.24 0.170$ 0.160$ 5.49$

August-09 30,000 47.60 $5,004.70 $260.94 $4,743.76 0.167$ 0.158$ 5.48$

September-09 25,760 46.80 $3,918.99 $238.10 $3,680.89 0.152$ 0.143$ 5.09$

October-09 26,440 50.40 $4,033.70 $261.39 $3,772.31 0.153$ 0.143$ 5.19$

November-09 37,920 58.40 $5,753.37 $313.15 $5,440.22 0.152$ 0.143$ 5.36$

December-09 40,960 69.60 $6,425.69 $385.61 $6,040.08 0.157$ 0.147$ 5.54$

January-10 42,800 68.40 $6,660.28 $377.85 $6,282.43 0.156$ 0.147$ 5.52$

February-10 38,520 68.40 $6,044.28 $377.85 $5,666.43 0.157$ 0.147$ 5.52$

March-10 33,640 64.80 $5,261.40 $354.56 $4,906.84 0.156$ 0.146$ 5.47$

April-10 29,040 52.80 $4,521.54 $276.92 $4,244.62 0.156$ 0.146$ 5.24$

May-10 26,560 51.20 $4,460.92 $258.93 $4,201.99 0.168$ 0.158$ 5.06$

June-10 31,240 52.40 $5,059.88 $294.26 $4,765.62 0.162$ 0.153$ 5.62$

July-10 24,000 49.20 $3,949.14 $272.05 $3,677.09 0.165$ 0.153$ 5.53$

August-10 27,080 46.40 $4,396.97 $252.62 $4,144.35 0.162$ 0.153$ 5.44$

September-10 25,760 46.80 $4,090.85 $238.10 $3,852.75 0.159$ 0.150$ 5.09$

October-10 37,520 57.20 $5,999.68 $397.00 $5,602.68 0.160$ 0.149$ 6.94$

November-10 36,400 65.20 $5,757.46 $357.14 $5,400.32 0.158$ 0.148$ 5.48$

December-10 42,240 67.20 $6,567.18 $370.08 $6,197.10 0.155$ 0.147$ 5.51$

January-11 41,840 70.80 $6,532.41 $393.38 $6,139.03 0.156$ 0.147$ 5.56$

February-11 38,800 70.40 $5,943.60 $390.79 $5,552.81 0.153$ 0.143$ 5.55$

March-11 35,520 64.80 $5,192.05 $354.56 $4,837.49 0.146$ 0.136$ 5.47$

Total (All) 870,640 70.80 $137,483.26 $8,349.85 $129,133.41 0.158$ 0.148$ 5.50$

Total (2010) 394,800 68.40 $62,769.58 $3,827.36 $58,942.22 0.159$ 0.149$ 5.55$

Charges Unit Costs


Electric White Rock

Utilit

y D

ata

- J

eff

ers

on T

WP

Ele

ctr

icity

Chart

White R

ock

010

20

30

40

50

60

70

80

0

5,0

00

10,0

00

15,0

00

20,0

00

25,0

00

30,0

00

35,0

00

40,0

00

45,0

00

Feb-09

Mar-09

Apr-09

May-09

Jun-09

Jul-09

Aug-09

Sep-09

Oct-09

Nov-09

Dec-09

Jan-10

Feb-10

Mar-10

Apr-10

May-10

Jun-10

Jul-10

Aug-10

Sep-10

Oct-10

Nov-10

Dec-10

Jan-11

Feb-11

Mar-11

Demand (kW)

Usage (kWh)

Mo

nth

Ele

ctr

ic U

sa

ge -

Je

ffe

rso

n T

WP

Wh

ite R

ock

To

tal U

sa

ge

(kW

h)

Pe

ak D

em

an

d (

kW

)

Moosepac WWTP

Moosepac WWTP Electric Service

Chamberlain Rd. Delivery - Jersey Central Power & Light Co


Account No.: 10 00 02 3386 04




July-09 28,760 43.40 $4,818.39 $231.80 $4,586.59 0.168$ 0.159$ 5.34$

August-09 27,200 43.00 $4,560.78 $229.02 $4,331.76 0.168$ 0.159$ 5.33$

September-09 27,560 49.10 $4,186.90 $252.98 $3,933.92 0.152$ 0.143$ 5.15$

October-09 30,560 51.10 $4,616.58 $265.92 $4,350.66 0.151$ 0.142$ 5.20$

November-09 31,000 50.00 $4,688.82 $258.80 $4,430.02 0.151$ 0.143$ 5.18$

December-09 32,960 53.40 $5,157.32 $280.80 $4,876.52 0.156$ 0.148$ 5.26$

January-10 30,560 52.10 $4,772.43 $272.39 $4,500.04 0.156$ 0.147$ 5.23$

February-10 27,480 51.00 $4,334.15 $265.27 $4,068.88 0.158$ 0.148$ 5.20$

March-10 32,920 52.10 $5,075.58 $272.39 $4,803.19 0.154$ 0.146$ 5.23$

April-10 26,840 51.60 $4,197.07 $269.15 $3,927.92 0.156$ 0.146$ 5.22$

May-10 27,120 47.40 $4,531.03 $259.56 $4,271.47 0.167$ 0.158$ 5.48$

June-10 27,720 45.80 $4,484.85 $248.45 $4,236.40 0.162$ 0.153$ 5.42$

July-10 27,000 46.00 $4,377.98 $249.84 $4,128.14 0.162$ 0.153$ 5.43$

August-10 30,520 46.90 $4,913.46 $256.09 $4,657.37 0.161$ 0.153$ 5.46$

September-10 28,000 45.20 $4,409.94 $227.74 $4,182.20 0.157$ 0.149$ 5.04$

October-10 37,080 51.70 $5,865.96 $332.75 $5,533.21 0.158$ 0.149$ 6.44$

November-10 32,600 54.40 $5,134.26 $287.27 $4,846.99 0.157$ 0.149$ 5.28$

December-10 28,920 53.60 $4,545.19 $282.09 $4,263.10 0.157$ 0.147$ 5.26$

January-11 34,360 52.10 $5,325.36 $272.39 $5,052.97 0.155$ 0.147$ 5.23$

February-11 30,440 61.30 $4,713.24 $331.91 $4,381.33 0.155$ 0.144$ 5.41$

March-11 30,840 53.20 $4,488.07 $279.50 $4,208.57 0.146$ 0.136$ 5.25$

Total (All) 630,440 61.30 $99,197.36 $5,626.11 $93,571.25 0.157$ 0.148$ 5.34$

Total (2010) 356,760 54.40 $56,641.90 $3,222.99 $53,418.91 0.159$ 0.150$ 5.39$

Charges Unit Costs


Electric Moosepac

Utilit

y D

ata

- J

eff

ers

on T

WP

Ele

ctr

icity

Chart

Moosepac

010

20

30

40

50

60

70

0

5,0

00

10,0

00

15,0

00

20,0

00

25,0

00

30,0

00

35,0

00

40,0

00

Jul-09

Aug-09

Sep-09

Oct-09

Nov-09

Dec-09

Jan-10

Feb-10

Mar-10

Apr-10

May-10

Jun-10

Jul-10

Aug-10

Sep-10

Oct-10

Nov-10

Dec-10

Jan-11

Feb-11

Mar-11

Demand (kW)

Usage (kWh)

Mo

nth

Ele

ctr

ic U

sa

ge -

Je

ffe

rso

n T

WP

Mo

ose

pac

To

tal U

sa

ge

(kW

h)

Pe

ak D

em

an

d (

kW

)

Appendix B

ECM Listings

Municipal Building

En

erg

y A

ud

it o

f Je

ffe

rso

n T

WP

Fa

cil

itie

s -

Mu

nic

ipa

l B

uil

din

gE

CM

-1

CH

A P

roje

ct

No

. 22

98

3 -

Ma

nu

factu

rin

g a

nd

En

erg

yC

os

t o

f E

lec

tric

ity

:$0.1

49

$/k

Wh

EC

M-1

Lig

hti

ng

Re

pla

cem

en

ts

$6.0

1$/k

W

No

. o

f

Fix

ture

sS

tan

dard

Fix

ture

Co

de

NY

SE

RD

A F

ixtu

re C

od

e

Wa

tts

pe

r

Fix

ture

kW

/Sp

ac

e

Ex

ist

Co

ntr

ol

An

nu

al

Ho

urs

An

nu

al k

Wh

Nu

mb

er

of

Fix

ture

sS

tan

dard

Fix

ture

Co

de

Fix

ture

Co

de

Wa

tts

pe

r

Fix

ture

kW

/Sp

ac

e

Re

tro

fit

Co

ntr

ol

An

nu

al

Ho

urs

An

nu

al

kW

h

An

nu

al k

Wh

Sa

ve

d

An

nu

al k

W

Sa

ve

d

An

nu

al $

Sa

ve

d

Re

tro

fit

Co

st

NJ

Lig

hti

ng

Inc

en

tiv

e

Sim

ple

Pa

yb

ac

k

Wit

h O

ut

Inc

en

tiv

e

Sim

ple

Pa

yb

ac

k

Fie

ld

Co

de

No.

of

fixt

ure

s

befo

re t

he

retr

ofit

"Lig

hting F

ixtu

re C

ode"

Exa

mple

2T

40 R

F(U

)

= 2

'x2' T

roff

40 w

Recess.

Flo

or

2 lam

ps U

shape

Code f

rom

T

able

of

Sta

ndard

Fix

ture

Watt

ages

Valu

e f

rom

Table

of

Sta

ndard

Fix

ture

Watt

ages

(Watt

s/F

ixt)

*

(Fix

t N

o.)

Pre

-inst.

contr

ol devic

e

Estim

ate

d d

aily

hours

for

the

usage g

roup

(kW

/space)

*

(Annual H

ours

)

No.

of

fixt

ure

s

aft

er

the r

etr

ofit

"Lig

hting F

ixtu

re C

ode"

Exa

mple

2T

40 R

F(U

)

= 2

'x2' T

roff

40

w R

ecess.

Flo

or

2 lam

ps U

shape

Code f

rom

T

able

of

Sta

ndard

Fix

ture

Watt

ages

Valu

e f

rom

Table

of

Sta

ndard

Fix

ture

Watt

ages

(Watt

s/F

ixt)

*

(Num

ber

of

Fix

ture

s)

Retr

ofit

contr

ol devic

e

Estim

ate

d

annual hours

for

the u

sage

gro

up

(kW

/space)

* (A

nnual

Hours

)

(Origin

al A

nnual

kW

h)

- (R

etr

ofit

Annual kW

h)

(Origin

al A

nnual

kW

) -

(Retr

ofit

Annual kW

)

(kW

h S

aved)

*

($/k

Wh)

Cost

for

renovations t

o

lighting

syste

m

Pre

scriptive

Lig

hting

Measure

s

Length

of

tim

e

for

renovations

cost

to b

e

recovere

d

Length

of

tim

e f

or

renovations c

ost

to

be r

ecovere

d

Tow

n H

all

179

1W

32 C

F 2

(E

LE

)F

42LL

60

0.1

SW

3120

187

1W

32 C

F 2

(E

LE

)F

42LL

60

0.1

SW

3,1

20

187

-

0.0

-$

-

$

$0

412

2B

34 R

F 2

(u)

(MA

G)

FU

2E

E72

0.9

SW

3120

2,6

96

12

2T

17 R

F 2

(E

LE

) F

22IL

L33

0.4

SW

3,1

20

1,2

36

1,4

60

0.5

251.3

2$

1,2

15.0

0$

$180

4.8

4.1

106

1S

P 6

5 I

I65/1

65

0.1

SW

3120

203

1C

F 2

6C

FQ

26/1

-L27

0.0

SW

3,1

20

84

119

0.0

20.4

1$

6.7

5$

$0

0.3

0.3

168-A

15

W 4

0 C

F 4

(M

AG

)F

44S

S188

2.8

SW

2000

5,6

40

15

W 2

8 C

F 4

F44S

SIL

L96

1.4

SW

2,0

00

2,8

80

2,7

60

1.4

510.7

7$

2,1

26.2

5$

$300

4.2

3.6

129

7S

P 7

5 I

I75/1

75

0.5

SW

2000

1,0

50

7C

F 2

6C

FQ

26/1

-L27

0.2

SW

2,0

00

378

672

0.3

124.3

6$

141.7

5$

$0

1.1

1.1

129

3S

P 7

5 I

I75/1

75

0.2

SW

2000

450

3C

F 2

6C

FQ

26/1

-L27

0.1

SW

2,0

00

162

288

0.1

53.3

0$

60.7

5$

$0

1.1

1.1

168-A

4W

40 C

F 4

(M

AG

)F

44S

S188

0.8

SW

2000

1,5

04

4W

28 C

F 4

F44S

SIL

L96

0.4

SW

2,0

00

768

736

0.4

136.2

0$

567.0

0$

$80

4.2

3.6

168-A

8W

40 C

F 4

(M

AG

)F

44S

S188

1.5

SW

2080

3,1

28

8W

28 C

F 4

F44S

SIL

L96

0.8

SW

2,0

80

1,5

97

1,5

31

0.7

281.1

8$

1,1

34.0

0$

$160

4.0

3.5

410

2B

34 R

F 2

(u)

(MA

G)

FU

2E

E72

0.7

SW

3120

2,2

46

10

2T

17 R

F 2

(E

LE

) F

22IL

L33

0.3

SW

3,1

20

1,0

30

1,2

17

0.4

209.4

3$

1,0

12.5

0$

$150

4.8

4.1

44

2B

34 R

F 2

(u)

(MA

G)

FU

2E

E72

0.3

SW

3120

899

42T

17 R

F 2

(E

LE

) F

22IL

L33

0.1

SW

3,1

20

412

487

0.2

83.7

7$

405.0

0$

$60

4.8

4.1

45

2B

34 R

F 2

(u)

(MA

G)

FU

2E

E72

0.4

SW

3120

1,1

23

52T

17 R

F 2

(E

LE

) F

22IL

L33

0.2

SW

3,1

20

515

608

0.2

104.7

2$

506.2

5$

$75

4.8

4.1

48

2B

34 R

F 2

(u)

(MA

G)

FU

2E

E72

0.6

SW

3120

1,7

97

82T

17 R

F 2

(E

LE

) F

22IL

L33

0.3

SW

3,1

20

824

973

0.3

167.5

4$

810.0

0$

$120

4.8

4.1

168-A

9W

40 C

F 4

(M

AG

)F

44S

S188

1.7

SW

2080

3,5

19

9W

28 C

F 4

F44S

SIL

L96

0.9

SW

2,0

80

1,7

97

1,7

22

0.8

316.3

3$

1,2

75.7

5$

$180

4.0

3.5

168-A

1W

40 C

F 4

(M

AG

)F

44S

S188

0.2

SW

2000

376

1W

28 C

F 4

F44S

SIL

L96

0.1

SW

2,0

00

192

184

0.1

34.0

5$

141.7

5$

$20

4.2

3.6

168-A

1W

40 C

F 4

(M

AG

)F

44S

S188

0.2

SW

2000

376

1W

28 C

F 4

F44S

SIL

L96

0.1

SW

2,0

00

192

184

0.1

34.0

5$

141.7

5$

$20

4.2

3.6

41

2B

34 R

F 2

(u)

(MA

G)

FU

2E

E72

0.1

SW

2080

150

12T

17 R

F 2

(E

LE

) F

22IL

L33

0.0

SW

2,0

80

69

81

0.0

14.9

0$

101.2

5$

$15

6.8

5.8

172-A

1W

20 W

F 2

(M

AG

)F

22S

S56

0.1

SW

2080

116

1W

17 W

F 2

F22IL

L33

0.0

SW

2,0

80

69

48

0.0

8.7

9$

101.2

5$

$0

11.5

11.5

168-A

1W

40 C

F 4

(M

AG

)F

44S

S188

0.2

SW

2080

391

1W

28 C

F 4

F44S

SIL

L96

0.1

SW

2,0

80

200

191

0.1

35.1

5$

141.7

5$

$20

4.0

3.5

172-A

1W

20 W

F 2

(M

AG

)F

22S

S56

0.1

SW

2080

116

1W

17 W

F 2

F22IL

L33

0.0

SW

2,0

80

69

48

0.0

8.7

9$

101.2

5$

$0

11.5

11.5

172-A

1W

20 W

F 2

(M

AG

)F

22S

S56

0.1

SW

2080

116

1W

17 W

F 2

F22IL

L33

0.0

SW

2,0

80

69

48

0.0

8.7

9$

101.2

5$

$0

11.5

11.5

168-A

2W

40 C

F 4

(M

AG

)F

44S

S188

0.4

SW

2080

782

2W

28 C

F 4

F44S

SIL

L96

0.2

SW

2,0

80

399

383

0.2

70.3

0$

283.5

0$

$40

4.0

3.5

168-A

6W

40 C

F 4

(M

AG

)F

44S

S188

1.1

SW

2080

2,3

46

6W

28 C

F 4

F44S

SIL

L96

0.6

SW

2,0

80

1,1

98

1,1

48

0.6

210.8

9$

850.5

0$

$120

4.0

3.5

168-A

2W

40 C

F 4

(M

AG

)F

44S

S188

0.4

SW

2080

782

2W

28 C

F 4

F44S

SIL

L96

0.2

SW

2,0

80

399

383

0.2

70.3

0$

283.5

0$

$40

4.0

3.5

168-A

2W

40 C

F 4

(M

AG

)F

44S

S188

0.4

SW

2080

782

2W

28 C

F 4

F44S

SIL

L96

0.2

SW

2,0

80

399

383

0.2

70.3

0$

283.5

0$

$40

4.0

3.5

168-A

2W

40 C

F 4

(M

AG

)F

44S

S188

0.4

SW

2080

782

2W

28 C

F 4

F44S

SIL

L96

0.2

SW

2,0

80

399

383

0.2

70.3

0$

283.5

0$

$40

4.0

3.5

168-A

4W

40 C

F 4

(M

AG

)F

44S

S188

0.8

SW

2080

1,5

64

4W

28 C

F 4

F44S

SIL

L96

0.4

SW

2,0

80

799

765

0.4

140.5

9$

567.0

0$

$80

4.0

3.5

172-A

1W

20 W

F 2

(M

AG

)F

22S

S56

0.1

SW

2080

116

1W

17 W

F 2

F22IL

L33

0.0

SW

2,0

80

69

48

0.0

8.7

9$

101.2

5$

$0

11.5

11.5

168-A

4W

40 C

F 4

(M

AG

)F

44S

S188

0.8

SW

2080

1,5

64

4W

28 C

F 4

F44S

SIL

L96

0.4

SW

2,0

80

799

765

0.4

140.5

9$

567.0

0$

$80

4.0

3.5

168-A

6W

40 C

F 4

(M

AG

)F

44S

S188

1.1

SW

2080

2,3

46

6W

28 C

F 4

F44S

SIL

L96

0.6

SW

2,0

80

1,1

98

1,1

48

0.6

210.8

9$

850.5

0$

$120

4.0

3.5

168-A

2W

40 C

F 4

(M

AG

)F

44S

S188

0.4

SW

3120

1,1

73

2W

28 C

F 4

F44S

SIL

L96

0.2

SW

3,1

20

599

574

0.2

98.8

1$

283.5

0$

$40

2.9

2.5

168-A

4W

40 C

F 4

(M

AG

)F

44S

S188

0.8

SW

2080

1,5

64

4W

28 C

F 4

F44S

SIL

L96

0.4

SW

2,0

80

799

765

0.4

140.5

9$

567.0

0$

$80

4.0

3.5

168-A

2W

40 C

F 4

(M

AG

)F

44S

S188

0.4

SW

2080

782

2W

28 C

F 4

F44S

SIL

L96

0.2

SW

2,0

80

399

383

0.2

70.3

0$

283.5

0$

$40

4.0

3.5

168-A

6W

40 C

F 4

(M

AG

)F

44S

S188

1.1

SW

2080

2,3

46

6W

28 C

F 4

F44S

SIL

L96

0.6

SW

2,0

80

1,1

98

1,1

48

0.6

210.8

9$

850.5

0$

$120

4.0

3.5

168-A

4W

40 C

F 4

(M

AG

)F

44S

S188

0.8

SW

2080

1,5

64

4W

28 C

F 4

F44S

SIL

L96

0.4

SW

2,0

80

799

765

0.4

140.5

9$

567.0

0$

$80

4.0

3.5

44

2B

34 R

F 2

(u)

(MA

G)

FU

2E

E72

0.3

SW

3120

899

42T

17 R

F 2

(E

LE

) F

22IL

L33

0.1

SW

3,1

20

412

487

0.2

83.7

7$

405.0

0$

$60

4.8

4.1

168-A

2W

40 C

F 4

(M

AG

)F

44S

S188

0.4

SW

2080

782

2W

28 C

F 4

F44S

SIL

L96

0.2

SW

2,0

80

399

383

0.2

70.3

0$

283.5

0$

$40

4.0

3.5

168-A

2W

40 C

F 4

(M

AG

)F

44S

S188

0.4

SW

2080

782

2W

28 C

F 4

F44S

SIL

L96

0.2

SW

2,0

80

399

383

0.2

70.3

0$

283.5

0$

$40

4.0

3.5

244

2T

32 R

F 3

(E

LE

)F

43LE

110

0.2

SW

2080

458

2T

32 R

F 3

(E

LE

)F

43LE

110

0.2

SW

2,0

80

458

-

0.0

-$

-

$

$0

168-A

2W

40 C

F 4

(M

AG

)F

44S

S188

0.4

SW

2080

782

2W

28 C

F 4

F44S

SIL

L96

0.2

SW

2,0

80

399

383

0.2

70.3

0$

283.5

0$

$40

4.0

3.5

168-A

4W

40 C

F 4

(M

AG

)F

44S

S188

0.8

SW

2080

1,5

64

4W

28 C

F 4

F44S

SIL

L96

0.4

SW

2,0

80

799

765

0.4

140.5

9$

567.0

0$

$80

4.0

3.5

41

2B

34 R

F 2

(u)

(MA

G)

FU

2E

E72

0.1

SW

3120

225

12T

17 R

F 2

(E

LE

) F

22IL

L33

0.0

SW

3,1

20

103

122

0.0

20.9

4$

101.2

5$

$15

4.8

4.1

168-A

2W

40 C

F 4

(M

AG

)F

44S

S188

0.4

SW

2080

782

2W

28 C

F 4

F44S

SIL

L96

0.2

SW

2,0

80

399

383

0.2

70.3

0$

283.5

0$

$40

4.0

3.5

168-A

2W

40 C

F 4

(M

AG

)F

44S

S188

0.4

SW

2080

782

2W

28 C

F 4

F44S

SIL

L96

0.2

SW

2,0

80

399

383

0.2

70.3

0$

283.5

0$

$40

4.0

3.5

168-A

4W

40 C

F 4

(M

AG

)F

44S

S188

0.8

SW

2080

1,5

64

4W

28 C

F 4

F44S

SIL

L96

0.4

SW

2,0

80

799

765

0.4

140.5

9$

567.0

0$

$80

4.0

3.5

172-A

1W

20 W

F 2

(M

AG

)F

22S

S56

0.1

SW

2080

116

1W

17 W

F 2

F22IL

L33

0.0

SW

2,0

80

69

48

0.0

8.7

9$

101.2

5$

$0

11.5

11.5

168-A

6W

40 C

F 4

(M

AG

)F

44S

S188

1.1

SW

2080

2,3

46

6W

28 C

F 4

F44S

SIL

L96

0.6

SW

2,0

80

1,1

98

1,1

48

0.6

210.8

9$

850.5

0$

$120

4.0

3.5

27-A

4X

X 9

CF

2E

CF

9/2

20

0.1

SW

8736

699

4X

1.5

C L

ED

ELE

D1.5

/23

0.0

SW

8,7

36

105

594

0.1

93.4

2$

513.0

0$

$0

5.5

5.5

X2

2X

X 3

.0 W

CF

2E

LE

D1.5

/23

0.0

SW

8736

52

2

XX

3.0

W C

F 2

ELE

D1.5

/23

0.0

SW

8,7

36

52

-

0.0

-$

-

$

$0

234

3S

P 1

00 W

I 2

i100/2

200

0.6

SW

8736

5,2

42

3W

P 4

2 1

CF

42/2

-L100

0.3

SW

8,7

36

2,6

21

2,6

21

0.3

412.1

4$

60.7

5$

$0

0.1

0.1

232

2R

100 C

I 1

i100/1

100

0.2

SW

8736

1,7

47

2C

F 2

6C

FQ

26/1

-L27

0.1

SW

8,7

36

472

1,2

75

0.1

200.5

7$

40.5

0$

$0

0.2

0.2

232

2R

100 C

I 1

i100/1

100

0.2

SW

8736

1,7

47

2C

F 2

6C

FQ

26/1

-L27

0.1

SW

8,7

36

472

1,2

75

0.1

200.5

7$

40.5

0$

$0

0.2

0.2

232

2R

100 C

I 1

i100/1

100

0.2

SW

8736

1,7

47

2C

F 2

6C

FQ

26/1

-L27

0.1

SW

8,7

36

472

1,2

75

0.1

200.5

7$

40.5

0$

$0

0.2

0.2

232

2R

100 C

I 1

i100/1

100

0.2

SW

8736

1,7

47

2C

F 2

6C

FQ

26/1

-L27

0.1

SW

8,7

36

472

1,2

75

0.1

200.5

7$

40.5

0$

$0

0.2

0.2

229

10

WP

200 I 1

i200/1

200

2.0

SW

3640

7,2

80

10

WP

42 2

CF

42/1

-L48

0.5

SW

3,6

40

1,7

47

5,5

33

1.5

934.0

1$

405.0

0$

$0

0.4

0.4

229

7W

P200 I 1

i200/1

200

1.4

SW

3640

5,0

96

7W

P 4

2 2

CF

42/1

-L48

0.3

SW

3,6

40

1,2

23

3,8

73

1.1

653.8

1$

283.5

0$

$0

0.4

0.4

Hall

2

Rear

Hall

Hall

Restr

oom

Are

a

Hall

1

Meeting R

oom

Confe

rence R

oom

Tax

Off

ice

Wom

ens H

andic

apped R

estr

oom

Pla

nnin

g

Vault

Copy C

ente

r

Jim

's O

ffic

e

Mayor's S

ecre

tary

's O

ffic

e

Mayor's O

ffic

e

CF

O

Back H

all

Fin

ance

CF

O's

Secre

tary

Code E

nfo

rcem

ent

Payro

ll

RE

TR

OF

IT C

ON

DIT

ION

S

Are

a D

escri

pti

on

Little R

oom

Lobby

EX

IST

ING

CO

ND

ITIO

NS

Uniq

ue d

escription o

f th

e location -

Room

num

ber/

Room

nam

e:

Flo

or

num

ber

(if

applic

able

)

Lobby

Meeting R

oom

Meeting R

oom

Bre

ak R

oom

Kitchen

Kitchen

Kitchen H

all

Kitchen S

tora

ge

Custo

dia

l O

ffic

e

Mens R

estr

oom

Wom

ens R

estr

oom

Health D

irecto

r

Health D

epart

ment

Sanitary

Fire D

epart

ment

Pro

secuto

r

Assesor

CO

ST

& S

AV

ING

S A

NA

LY

SIS

Build

ing D

epart

ment

Rear

Vestibule

Purc

hasin

g

Build

ing Inspecto

r

Utilit

y D

epart

ment

Mens H

andic

apped R

estr

oom

Cle

rk's

Depart

ment

Exi

t S

igns (

Old

)

Exi

t S

igns (

New

)

Main

Entr

ance

NW

Entr

ance

Gara

ge E

ntr

ance

Rear

Entr

ance

East

Rear

Entr

ance

Fro

nt

Park

ing L

ot

Rear

Park

ing L

ot

7/2

1/2

011

Page 6

, E

CM

-1 M

ain

Buildin

g

En

erg

y A

ud

it o

f Je

ffe

rso

n T

WP

Fa

cil

itie

s -

Mu

nic

ipa

l B

uil

din

gE

CM

-1

CH

A P

roje

ct

No

. 22

98

3 -

Ma

nu

factu

rin

g a

nd

En

erg

yC

os

t o

f E

lec

tric

ity

:$0.1

49

$/k

Wh

EC

M-1

Lig

hti

ng

Re

pla

cem

en

ts

$6.0

1$/k

W

No

. o

f

Fix

ture

sS

tan

dard

Fix

ture

Co

de

NY

SE

RD

A F

ixtu

re C

od

e

Wa

tts

pe

r

Fix

ture

kW

/Sp

ac

e

Ex

ist

Co

ntr

ol

An

nu

al

Ho

urs

An

nu

al k

Wh

Nu

mb

er

of

Fix

ture

sS

tan

dard

Fix

ture

Co

de

Fix

ture

Co

de

Wa

tts

pe

r

Fix

ture

kW

/Sp

ac

e

Re

tro

fit

Co

ntr

ol

An

nu

al

Ho

urs

An

nu

al

kW

h

An

nu

al k

Wh

Sa

ve

d

An

nu

al k

W

Sa

ve

d

An

nu

al $

Sa

ve

d

Re

tro

fit

Co

st

NJ

Lig

hti

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Inc

en

tiv

e

Sim

ple

Pa

yb

ac

k

Wit

h O

ut

Inc

en

tiv

e

Sim

ple

Pa

yb

ac

k

Fie

ld

Co

de

No.

of

fixt

ure

s

befo

re t

he

retr

ofit

"Lig

hting F

ixtu

re C

ode"

Exa

mple

2T

40 R

F(U

)

= 2

'x2' T

roff

40 w

Recess.

Flo

or

2 lam

ps U

shape

Code f

rom

T

able

of

Sta

ndard

Fix

ture

Watt

ages

Valu

e f

rom

Table

of

Sta

ndard

Fix

ture

Watt

ages

(Watt

s/F

ixt)

*

(Fix

t N

o.)

Pre

-inst.

contr

ol devic

e

Estim

ate

d d

aily

hours

for

the

usage g

roup

(kW

/space)

*

(Annual H

ours

)

No.

of

fixt

ure

s

aft

er

the r

etr

ofit

"Lig

hting F

ixtu

re C

ode"

Exa

mple

2T

40 R

F(U

)

= 2

'x2' T

roff

40

w R

ecess.

Flo

or

2 lam

ps U

shape

Code f

rom

T

able

of

Sta

ndard

Fix

ture

Watt

ages

Valu

e f

rom

Table

of

Sta

ndard

Fix

ture

Watt

ages

(Watt

s/F

ixt)

*

(Num

ber

of

Fix

ture

s)

Retr

ofit

contr

ol devic

e

Estim

ate

d

annual hours

for

the u

sage

gro

up

(kW

/space)

* (A

nnual

Hours

)

(Origin

al A

nnual

kW

h)

- (R

etr

ofit

Annual kW

h)

(Origin

al A

nnual

kW

) -

(Retr

ofit

Annual kW

)

(kW

h S

aved)

*

($/k

Wh)

Cost

for

renovations t

o

lighting

syste

m

Pre

scriptive

Lig

hting

Measure

s

Length

of

tim

e

for

renovations

cost

to b

e

recovere

d

Length

of

tim

e f

or

renovations c

ost

to

be r

ecovere

d

RE

TR

OF

IT C

ON

DIT

ION

S

Are

a D

escri

pti

on

EX

IST

ING

CO

ND

ITIO

NS

Uniq

ue d

escription o

f th

e location -

Room

num

ber/

Room

nam

e:

Flo

or

num

ber

(if

applic

able

)

CO

ST

& S

AV

ING

S A

NA

LY

SIS

168-A

2W

40 C

F 4

(M

AG

)F

44S

S188

0.4

SW

2912

1,0

95

2W

28 C

F 4

F44S

SIL

L96

0.2

SW

2,9

12

559

536

0.2

93.1

1$

283.5

0$

$40

3.0

2.6

168-A

2W

40 C

F 4

(M

AG

)F

44S

S188

0.4

SW

2912

1,0

95

2W

28 C

F 4

F44S

SIL

L96

0.2

SW

2,9

12

559

536

0.2

93.1

1$

283.5

0$

$40

3.0

2.6

168-A

2W

40 C

F 4

(M

AG

)F

44S

S188

0.4

SW

2912

1,0

95

2W

28 C

F 4

F44S

SIL

L96

0.2

SW

2,9

12

559

536

0.2

93.1

1$

283.5

0$

$40

3.0

2.6

414

2B

34 R

F 2

(u)

(MA

G)

FU

2E

E72

1.0

SW

8736

8,8

06

14

2T

17 R

F 2

(E

LE

) F

22IL

L33

0.5

SW

8,7

36

4,0

36

4,7

70

0.5

750.0

9$

1,4

17.5

0$

$210

1.9

1.6

168-A

4W

40 C

F 4

(M

AG

)F

44S

S188

0.8

SW

2912

2,1

90

4W

28 C

F 4

F44S

SIL

L96

0.4

SW

2,9

12

1,1

18

1,0

72

0.4

186.2

1$

567.0

0$

$80

3.0

2.6

41

2B

34 R

F 2

(u)

(MA

G)

FU

2E

E72

0.1

SW

2912

210

12T

17 R

F 2

(E

LE

) F

22IL

L33

0.0

SW

2,9

12

96

114

0.0

19.7

3$

101.2

5$

$15

5.1

4.4

168-A

4W

40 C

F 4

(M

AG

)F

44S

S188

0.8

SW

2912

2,1

90

4W

28 C

F 4

F44S

SIL

L96

0.4

SW

2,9

12

1,1

18

1,0

72

0.4

186.2

1$

567.0

0$

$80

3.0

2.6

168-A

2W

40 C

F 4

(M

AG

)F

44S

S188

0.4

SW

2912

1,0

95

2W

28 C

F 4

F44S

SIL

L96

0.2

SW

2,9

12

559

536

0.2

93.1

1$

283.5

0$

$40

3.0

2.6

168-A

2W

40 C

F 4

(M

AG

)F

44S

S188

0.4

SW

2000

752

2W

28 C

F 4

F44S

SIL

L96

0.2

SW

2,0

00

384

368

0.2

68.1

0$

283.5

0$

$40

4.2

3.6

168

6W

40 C

F 2

(M

AG

)F

42S

S94

0.6

SW

2000

1,1

28

6W

28 C

F 2

F42S

SIL

L48

0.3

SW

2,0

00

576

552

0.3

102.1

5$

607.5

0$

$0

5.9

5.9

168

1W

40 C

F 2

(M

AG

)F

42S

S94

0.1

SW

2912

274

1W

28 C

F 2

F42S

SIL

L48

0.0

SW

2,9

12

140

134

0.0

23.2

8$

101.2

5$

$0

4.3

4.3

168

1W

40 C

F 2

(M

AG

)F

42S

S94

0.1

SW

2912

274

1W

28 C

F 2

F42S

SIL

L48

0.0

SW

2,9

12

140

134

0.0

23.2

8$

101.2

5$

$0

4.3

4.3

168

1W

40 C

F 2

(M

AG

)F

42S

S94

0.1

SW

2912

274

1W

28 C

F 2

F42S

SIL

L48

0.0

SW

2,9

12

140

134

0.0

23.2

8$

101.2

5$

$0

4.3

4.3

168-A

2W

40 C

F 4

(M

AG

)F

44S

S188

0.4

SW

8736

3,2

85

2W

28 C

F 4

F44S

SIL

L96

0.2

SW

8,7

36

1,6

77

1,6

07

0.2

252.7

8$

283.5

0$

$40

1.1

1.0

42

2B

34 R

F 2

(u)

(MA

G)

FU

2E

E72

0.1

SW

8736

1,2

58

22T

17 R

F 2

(E

LE

) F

22IL

L33

0.1

SW

8,7

36

577

681

0.1

107.1

6$

202.5

0$

$30

1.9

1.6

168-A

3W

40 C

F 4

(M

AG

)F

44S

S188

0.6

SW

2912

1,6

42

3W

28 C

F 4

F44S

SIL

L96

0.3

SW

2,9

12

839

804

0.3

139.6

6$

425.2

5$

$60

3.0

2.6

70

8W

32 C

F 1

F41LL

32

0.3

SW

8736

2,2

36

8W

32 C

F 1

F41LL

32

0.3

SW

8,7

36

2,2

36

-

0.0

-$

-

$

$0

168-A

3W

40 C

F 4

(M

AG

)F

44S

S188

0.6

SW

2912

1,6

42

3W

28 C

F 4

F44S

SIL

L96

0.3

SW

2,9

12

839

804

0.3

139.6

6$

425.2

5$

$60

3.0

2.6

167

3W

34 W

F 1

(M

AG

)F

41E

E43

0.1

SW

8736

1,1

27

3W

28 W

F 1

F41S

SIL

L26

0.1

SW

8,7

36

681

446

0.1

70.0

6$

303.7

5$

$0

4.3

4.3

45

2B

34 R

F 2

(u)

(MA

G)

FU

2E

E72

0.4

SW

8736

3,1

45

52T

17 R

F 2

(E

LE

) F

22IL

L33

0.2

SW

8,7

36

1,4

41

1,7

04

0.2

267.8

9$

506.2

5$

$75

1.9

1.6

172-A

1W

20 W

F 2

(M

AG

)F

22S

S56

0.1

SW

2080

116

1W

17 W

F 2

F22IL

L33

0.0

SW

2,0

80

69

48

0.0

8.7

9$

101.2

5$

$0

11.5

11.5

172-A

1W

20 W

F 2

(M

AG

)F

22S

S56

0.1

SW

2080

116

1W

17 W

F 2

F22IL

L33

0.0

SW

2,0

80

69

48

0.0

8.7

9$

101.2

5$

$0

11.5

11.5

168-A

2W

40 C

F 4

(M

AG

)F

44S

S188

0.4

SW

2912

1,0

95

2W

28 C

F 4

F44S

SIL

L96

0.2

SW

2,9

12

559

536

0.2

93.1

1$

283.5

0$

$40

3.0

2.6

168-A

2W

40 C

F 4

(M

AG

)F

44S

S188

0.4

SW

2912

1,0

95

2W

28 C

F 4

F44S

SIL

L96

0.2

SW

2,9

12

559

536

0.2

93.1

1$

283.5

0$

$40

3.0

2.6

168-A

2W

40 C

F 4

(M

AG

)F

44S

S188

0.4

SW

2912

1,0

95

2W

28 C

F 4

F44S

SIL

L96

0.2

SW

2,9

12

559

536

0.2

93.1

1$

283.5

0$

$40

3.0

2.6

172-A

1W

20 W

F 2

(M

AG

)F

22S

S56

0.1

SW

2080

116

1W

17 W

F 2

F22IL

L33

0.0

SW

2,0

80

69

48

0.0

8.7

9$

101.2

5$

$0

11.5

11.5

284

39.0

119,4

66

284

5,4

07

18.7

55,8

08

63,6

58

20.3

$10,9

48

$30,4

29

$3,8

25

20.3

$1,4

63

63,6

58

$9,4

85

$10,9

48

2.8

2.4

To

tal savin

gs

kW

h S

avin

gs

Dem

an

d S

avin

gs

To

tal

Chie

f's O

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e

Chie

f's S

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Polic

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tation H

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Locker

Room

Locker

Room

Restr

oom

Dete

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Kitchen

Sto

rage

Sm

all

Locker

Are

a

Room

1

Room

2

Patr

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Shift

Superv

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Com

pute

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oom

Dis

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Dis

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Polic

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Polic

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estr

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Polic

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Vio

lations B

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Vio

lations B

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Vio

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Wom

en O

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Restr

oom

Polic

e S

tation

Record

s R

oom

7/2

1/2

011

Page 7

, E

CM

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ain

Buildin

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En

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WP

Fa

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No

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RD

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Fix

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No.

of

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"Lig

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ixtu

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Exa

mple

2T

40 R

F(U

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= 2

'x2' T

roff

40 w

Recess.

Flo

or

2 lam

ps U

shape

Code f

rom

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able

of

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ndard

Fix

ture

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ages

Valu

e f

rom

Table

of

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ndard

Fix

ture

Watt

ages

(Watt

s/F

ixt)

*

(Fix

t N

o.)

Pre

-inst.

contr

ol devic

e

Estim

ate

d

annual hours

for

the u

sage

gro

up

(kW

/space)

*

(Annual H

ours

)

No.

of

fixt

ure

s

aft

er

the r

etr

ofit

"Lig

hting F

ixtu

re C

ode"

Exa

mple

2T

40 R

F(U

)

= 2

'x2' T

roff

40

w R

ecess.

Flo

or

2 lam

ps U

shape

Code f

rom

T

able

of

Sta

ndard

Fix

ture

Watt

ages

Valu

e f

rom

Table

of

Sta

ndard

Fix

ture

Watt

ages

(Watt

s/F

ixt)

*

(Num

ber

of

Fix

ture

s)

Retr

ofit

contr

ol devic

e

Estim

ate

d

annual hours

for

the u

sage

gro

up

(kW

/space)

* (A

nnual

Hours

)

(Origin

al A

nnual

kW

h)

- (R

etr

ofit

Annual kW

h)

(Origin

al A

nnual

kW

) -

(Retr

ofit

Annual kW

)

(kW

Saved)

*

($/k

Wh)

Cost

for

renovations t

o

lighting

syste

m

Length

of

tim

e

for

renovations

cost

to b

e

recovere

d

Length

of

tim

e f

or

renovations c

ost

to

be r

ecovere

d

Tow

n H

all

179

1W

32 C

F 2

(E

LE

)F

42LL

60

0.1

SW

3120

187.2

1W

32 C

F 2

(E

LE

)F

42LL

60

0.1

none

3120

187.2

0.0

0.0

$0.0

0$0.0

0$0.0

0

412

2B

34 R

F 2

(u)

(MA

G)

FU

2E

E72

0.9

SW

3120

2,6

95.7

12

2B

34 R

F 2

(u)

(MA

G)

FU

2E

E72

0.9

none

3120

2,6

95.7

0.0

0.0

$0.0

0$0.0

0$0.0

0

106

1S

P 6

5 I

I65/1

65

0.1

SW

3120

202.8

1S

P 6

5 I

I65/1

65

0.1

none

3120

202.8

0.0

0.0

$0.0

0$0.0

0$0.0

0

168-A

15

W 4

0 C

F 4

(M

AG

)F

44S

S188

2.8

SW

2000

5,6

40.0

15

W 4

0 C

F 4

(M

AG

)F

44S

S188

2.8

occ

1000

2,8

20.0

2,8

20.0

0.0

$420.1

8$237.5

0$40.0

00.6

0.5

129

7S

P 7

5 I

I75/1

75

0.5

SW

2000

1,0

50.0

7S

P 7

5 I

I75/1

75

0.5

none

2000

1,0

50.0

0.0

0.0

$0.0

0$0.0

0$0.0

0

129

3S

P 7

5 I

I75/1

75

0.2

SW

2000

450.0

3S

P 7

5 I

I75/1

75

0.2

none

2000

450.0

0.0

0.0

$0.0

0$0.0

0$0.0

0

168-A

4W

40 C

F 4

(M

AG

)F

44S

S188

0.8

SW

2000

1,5

04.0

4W

40 C

F 4

(M

AG

)F

44S

S188

0.8

occ

1000

752.0

752.0

0.0

$112.0

5$237.5

0$40.0

02.1

1.8

168-A

8W

40 C

F 4

(M

AG

)F

44S

S188

1.5

SW

2080

3,1

28.3

8W

40 C

F 4

(M

AG

)F

44S

S188

1.5

occ

1560

2,3

46.2

782.1

0.0

$116.5

3$237.5

0$40.0

02.0

1.7

410

2B

34 R

F 2

(u)

(MA

G)

FU

2E

E72

0.7

SW

3120

2,2

46.4

10

2B

34 R

F 2

(u)

(MA

G)

FU

2E

E72

0.7

none

3120

2,2

46.4

0.0

0.0

$0.0

0$0.0

0$0.0

0

44

2B

34 R

F 2

(u)

(MA

G)

FU

2E

E72

0.3

SW

3120

898.6

42B

34 R

F 2

(u)

(MA

G)

FU

2E

E72

0.3

none

3120

898.6

0.0

0.0

$0.0

0$0.0

0$0.0

0

45

2B

34 R

F 2

(u)

(MA

G)

FU

2E

E72

0.4

SW

3120

1,1

23.2

52B

34 R

F 2

(u)

(MA

G)

FU

2E

E72

0.4

none

3120

1,1

23.2

0.0

0.0

$0.0

0$0.0

0$0.0

0

48

2B

34 R

F 2

(u)

(MA

G)

FU

2E

E72

0.6

SW

3120

1,7

97.1

82B

34 R

F 2

(u)

(MA

G)

FU

2E

E72

0.6

none

3120

1,7

97.1

0.0

0.0

$0.0

0$0.0

0$0.0

0

168-A

9W

40 C

F 4

(M

AG

)F

44S

S188

1.7

SW

2080

3,5

19.4

9W

40 C

F 4

(M

AG

)F

44S

S188

1.7

occ

1560

2,6

39.5

879.8

0.0

$131.1

0$237.5

0$40.0

01.8

1.5

168-A

1W

40 C

F 4

(M

AG

)F

44S

S188

0.2

SW

2000

376.0

1W

40 C

F 4

(M

AG

)F

44S

S188

0.2

occ

1000

188.0

188.0

0.0

$28.0

1$237.5

0$40.0

08.5

7.1

168-A

1W

40 C

F 4

(M

AG

)F

44S

S188

0.2

SW

2000

376.0

1W

40 C

F 4

(M

AG

)F

44S

S188

0.2

occ

1000

188.0

188.0

0.0

$28.0

1$237.5

0$40.0

08.5

7.1

41

2B

34 R

F 2

(u)

(MA

G)

FU

2E

E72

0.1

SW

2080

149.8

12B

34 R

F 2

(u)

(MA

G)

FU

2E

E72

0.1

none

2080

149.8

0.0

0.0

$0.0

0$0.0

0$0.0

0

172-A

1W

20 W

F 2

(M

AG

)F

22S

S56

0.1

SW

2080

116.5

1W

20 W

F 2

(M

AG

)F

22S

S56

0.1

none

2080

116.5

0.0

0.0

$0.0

0$0.0

0$0.0

0

168-A

1W

40 C

F 4

(M

AG

)F

44S

S188

0.2

SW

2080

391.0

1W

40 C

F 4

(M

AG

)F

44S

S188

0.2

occ

1560

293.3

97.8

0.0

$14.5

7$237.5

0$40.0

016.3

13.6

172-A

1W

20 W

F 2

(M

AG

)F

22S

S56

0.1

SW

2080

116.5

1W

20 W

F 2

(M

AG

)F

22S

S56

0.1

none

2080

116.5

0.0

0.0

$0.0

0$0.0

0$0.0

0

172-A

1W

20 W

F 2

(M

AG

)F

22S

S56

0.1

SW

2080

116.5

1W

20 W

F 2

(M

AG

)F

22S

S56

0.1

none

2080

116.5

0.0

0.0

$0.0

0$0.0

0$0.0

0

168-A

2W

40 C

F 4

(M

AG

)F

44S

S188

0.4

SW

2080

782.1

2W

40 C

F 4

(M

AG

)F

44S

S188

0.4

occ

1560

586.6

195.5

0.0

$29.1

3$237.5

0$40.0

08.2

6.8

168-A

6W

40 C

F 4

(M

AG

)F

44S

S188

1.1

SW

2080

2,3

46.2

6W

40 C

F 4

(M

AG

)F

44S

S188

1.1

occ

1560

1,7

59.7

586.6

0.0

$87.4

0$237.5

0$40.0

02.7

2.3

168-A

2W

40 C

F 4

(M

AG

)F

44S

S188

0.4

SW

2080

782.1

2W

40 C

F 4

(M

AG

)F

44S

S188

0.4

occ

1560

586.6

195.5

0.0

$29.1

3$237.5

0$40.0

08.2

6.8

168-A

2W

40 C

F 4

(M

AG

)F

44S

S188

0.4

SW

2080

782.1

2W

40 C

F 4

(M

AG

)F

44S

S188

0.4

occ

1560

586.6

195.5

0.0

$29.1

3$237.5

0$40.0

08.2

6.8

168-A

2W

40 C

F 4

(M

AG

)F

44S

S188

0.4

SW

2080

782.1

2W

40 C

F 4

(M

AG

)F

44S

S188

0.4

occ

1560

586.6

195.5

0.0

$29.1

3$237.5

0$40.0

08.2

6.8

168-A

4W

40 C

F 4

(M

AG

)F

44S

S188

0.8

SW

2080

1,5

64.2

4W

40 C

F 4

(M

AG

)F

44S

S188

0.8

occ

1560

1,1

73.1

391.0

0.0

$58.2

6$237.5

0$40.0

04.1

3.4

172-A

1W

20 W

F 2

(M

AG

)F

22S

S56

0.1

SW

2080

116.5

1W

20 W

F 2

(M

AG

)F

22S

S56

0.1

none

2080

116.5

0.0

0.0

$0.0

0$0.0

0$0.0

0

168-A

4W

40 C

F 4

(M

AG

)F

44S

S188

0.8

SW

2080

1,5

64.2

4W

40 C

F 4

(M

AG

)F

44S

S188

0.8

occ

1560

1,1

73.1

391.0

0.0

$58.2

6$237.5

0$40.0

04.1

3.4

168-A

6W

40 C

F 4

(M

AG

)F

44S

S188

1.1

SW

2080

2,3

46.2

6W

40 C

F 4

(M

AG

)F

44S

S188

1.1

none

2080

2,3

46.2

0.0

0.0

$0.0

0$0.0

0$0.0

0

168-A

2W

40 C

F 4

(M

AG

)F

44S

S188

0.4

SW

3120

1,1

73.1

2W

40 C

F 4

(M

AG

)F

44S

S188

0.4

none

3120

1,1

73.1

0.0

0.0

$0.0

0$0.0

0$0.0

0

168-A

4W

40 C

F 4

(M

AG

)F

44S

S188

0.8

SW

2080

1,5

64.2

4W

40 C

F 4

(M

AG

)F

44S

S188

0.8

occ

1560

1,1

73.1

391.0

0.0

$58.2

6$237.5

0$40.0

04.1

3.4

168-A

2W

40 C

F 4

(M

AG

)F

44S

S188

0.4

SW

2080

782.1

2W

40 C

F 4

(M

AG

)F

44S

S188

0.4

occ

1560

586.6

195.5

0.0

$29.1

3$237.5

0$40.0

08.2

6.8

168-A

6W

40 C

F 4

(M

AG

)F

44S

S188

1.1

SW

2080

2,3

46.2

6W

40 C

F 4

(M

AG

)F

44S

S188

1.1

occ

1560

1,7

59.7

586.6

0.0

$87.4

0$237.5

0$40.0

02.7

2.3

168-A

4W

40 C

F 4

(M

AG

)F

44S

S188

0.8

SW

2080

1,5

64.2

4W

40 C

F 4

(M

AG

)F

44S

S188

0.8

occ

1560

1,1

73.1

391.0

0.0

$58.2

6$237.5

0$40.0

04.1

3.4

44

2B

34 R

F 2

(u)

(MA

G)

FU

2E

E72

0.3

SW

3120

898.6

42B

34 R

F 2

(u)

(MA

G)

FU

2E

E72

0.3

none

3120

898.6

0.0

0.0

$0.0

0$0.0

0$0.0

0

168-A

2W

40 C

F 4

(M

AG

)F

44S

S188

0.4

SW

2080

782.1

2W

40 C

F 4

(M

AG

)F

44S

S188

0.4

occ

1560

586.6

195.5

0.0

$29.1

3$237.5

0$40.0

08.2

6.8

168-A

2W

40 C

F 4

(M

AG

)F

44S

S188

0.4

SW

2080

782.1

2W

40 C

F 4

(M

AG

)F

44S

S188

0.4

occ

1560

586.6

195.5

0.0

$29.1

3$237.5

0$40.0

08.2

6.8

244

2T

32 R

F 3

(E

LE

)F

43LE

110

0.2

SW

2080

457.6

2T

32 R

F 3

(E

LE

)F

43LE

110

0.2

occ

1560

343.2

114.4

0.0

$17.0

5$237.5

0$40.0

013.9

11.6

168-A

2W

40 C

F 4

(M

AG

)F

44S

S188

0.4

SW

2080

782.1

2W

40 C

F 4

(M

AG

)F

44S

S188

0.4

occ

1560

586.6

195.5

0.0

$29.1

3$237.5

0$40.0

08.2

6.8

168-A

4W

40 C

F 4

(M

AG

)F

44S

S188

0.8

SW

2080

1,5

64.2

4W

40 C

F 4

(M

AG

)F

44S

S188

0.8

occ

1560

1,1

73.1

391.0

0.0

$58.2

6$237.5

0$40.0

04.1

3.4

41

2B

34 R

F 2

(u)

(MA

G)

FU

2E

E72

0.1

SW

3120

224.6

12B

34 R

F 2

(u)

(MA

G)

FU

2E

E72

0.1

none

3120

224.6

0.0

0.0

$0.0

0$0.0

0$0.0

0

168-A

2W

40 C

F 4

(M

AG

)F

44S

S188

0.4

SW

2080

782.1

2W

40 C

F 4

(M

AG

)F

44S

S188

0.4

occ

1560

586.6

195.5

0.0

$29.1

3$237.5

0$40.0

08.2

6.8

168-A

2W

40 C

F 4

(M

AG

)F

44S

S188

0.4

SW

2080

782.1

2W

40 C

F 4

(M

AG

)F

44S

S188

0.4

occ

1560

586.6

195.5

0.0

$29.1

3$237.5

0$40.0

08.2

6.8

168-A

4W

40 C

F 4

(M

AG

)F

44S

S188

0.8

SW

2080

1,5

64.2

4W

40 C

F 4

(M

AG

)F

44S

S188

0.8

occ

1560

1,1

73.1

391.0

0.0

$58.2

6$237.5

0$40.0

04.1

3.4

172-A

1W

20 W

F 2

(M

AG

)F

22S

S56

0.1

SW

2080

116.5

1W

20 W

F 2

(M

AG

)F

22S

S56

0.1

none

2080

116.5

0.0

0.0

$0.0

0$0.0

0$0.0

0

168-A

6W

40 C

F 4

(M

AG

)F

44S

S188

1.1

SW

2080

2,3

46.2

6W

40 C

F 4

(M

AG

)F

44S

S188

1.1

occ

1560

1,7

59.7

586.6

0.0

$87.4

0$237.5

0$40.0

02.7

2.3

27-A

4X

X 9

CF

2E

CF

9/2

20

0.1

SW

8736

698.9

4X

X 9

CF

2E

CF

9/2

20

0.1

none

8736

698.9

0.0

0.0

$0.0

0$0.0

0$0.0

0

X2

2X

X 3

.0 W

CF

2E

LE

D1.5

/23

0.0

SW

8736

52.4

2X

X 3

.0 W

CF

2E

LE

D1.5

/23

0.0

none

8736

52.4

0.0

0.0

$0.0

0$0.0

0$0.0

0

234

3S

P 1

00 W

I 2

i100/2

200

0.6

SW

8736

5,2

41.6

3S

P 1

00 W

I 2

i100/2

200

0.6

daylig

ht

8736

5,2

41.6

0.0

0.0

$0.0

0$0.0

0$0.0

0

232

2R

100 C

I 1

i100/1

100

0.2

SW

8736

1,7

47.2

2R

100 C

I 1

i100/1

100

0.2

daylig

ht

8736

1,7

47.2

0.0

0.0

$0.0

0$0.0

0$0.0

0

232

2R

100 C

I 1

i100/1

100

0.2

SW

8736

1,7

47.2

2R

100 C

I 1

i100/1

100

0.2

daylig

ht

8736

1,7

47.2

0.0

0.0

$0.0

0$0.0

0$0.0

0

232

2R

100 C

I 1

i100/1

100

0.2

SW

8736

1,7

47.2

2R

100 C

I 1

i100/1

100

0.2

daylig

ht

8736

1,7

47.2

0.0

0.0

$0.0

0$0.0

0$0.0

0

232

2R

100 C

I 1

i100/1

100

0.2

SW

8736

1,7

47.2

2R

100 C

I 1

i100/1

100

0.2

daylig

ht

8736

1,7

47.2

0.0

0.0

$0.0

0$0.0

0$0.0

0

229

10

WP

200 I 1

i200/1

200

2.0

SW

3640

7,2

80.0

10

WP

200 I 1

i200/1

200

2.0

daylig

ht

3640

7,2

80.0

0.0

0.0

$0.0

0$0.0

0$0.0

0

229

7W

P200 I 1

i200/1

200

1.4

SW

3640

5,0

96.0

7W

P200 I 1

i200/1

200

1.4

daylig

ht

3640

5,0

96.0

0.0

0.0

$0.0

0$0.0

0$0.0

0

CO

ST

& S

AV

ING

S A

NA

LY

SIS

Are

a D

escri

pti

on

Uniq

ue d

escription o

f th

e location -

Room

num

ber/

Room

nam

e:

Flo

or

num

ber

(if

applic

able

)

EX

IST

ING

CO

ND

ITIO

NS

RE

TR

OF

IT C

ON

DIT

ION

S

Little R

oom

Payro

ll

Build

ing D

epart

ment

Rear

Vestibule

Purc

hasin

g

Bre

ak R

oom

Exi

t S

igns (

Old

)

Exi

t S

igns (

New

)

Main

Entr

ance

NW

Entr

ance

Gara

ge E

ntr

ance

Rear

Entr

ance

East

Rear

Entr

ance

Fro

nt

Park

ing L

ot

Rear

Park

ing L

ot

Tax

Off

ice

Mayor's S

ecre

tary

's O

ffic

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Mayor's O

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e

CF

O

Back H

all

Fin

ance

CF

O's

Secre

tary

Code E

nfo

rcem

ent

Lobby

Lobby

Meeting R

oom

Meeting R

oom

Confe

rence R

oom

Rear

Hall

Hall

2

Hall

1

Hall

Restr

oom

Are

a

Meeting R

oom

Kitchen

Kitchen

Kitchen H

all

Kitchen S

tora

ge

Custo

dia

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ffic

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Mens R

estr

oom

Wom

ens R

estr

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Health D

irecto

r

Health D

epart

ment

Sanitary

Fire D

epart

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Pro

secuto

r

Assesor

Wom

ens H

andic

apped R

estr

oom

Pla

nnin

g

Vault

Copy C

ente

r

Jim

's O

ffic

e

Build

ing Inspecto

r

Utilit

y D

epart

ment

Mens H

andic

apped R

estr

oom

Cle

rk's

Depart

ment

7/2

1/2

011

Page 8

, E

CM

-2 M

ain

Buildin

g

En

erg

y A

ud

it o

f Je

ffe

rso

n T

WP

Fa

cil

itie

s -

Mu

nic

ipa

l B

uil

din

gE

CM

-2C

HA

Pro

jec

t N

o.

22

98

3 -

Ma

nu

factu

rin

g a

nd

En

erg

yC

os

t o

f E

lec

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ity

:$0.1

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$/k

Wh

EC

M-2

In

sta

ll O

ccu

pa

nc

y S

en

so

rs$6.0

1$/k

W

No

. o

f

Fix

ture

sS

tan

dard

Fix

ture

Co

de

NY

SE

RD

A F

ixtu

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od

e

Wa

tts

pe

r

Fix

ture

kW

/Sp

ac

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Ex

ist

Co

ntr

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An

nu

al

Ho

urs

An

nu

al k

Wh

Nu

mb

er

of

Fix

ture

sS

tan

dard

Fix

ture

Co

de

Fix

ture

Co

de

Wa

tts

pe

r

Fix

ture

kW

/Sp

ac

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Re

tro

fit

Co

ntr

ol

An

nu

al

Ho

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nu

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d

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al k

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nu

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No.

of

fixt

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befo

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he

retr

ofit

"Lig

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ixtu

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Exa

mple

2T

40 R

F(U

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= 2

'x2' T

roff

40 w

Recess.

Flo

or

2 lam

ps U

shape

Code f

rom

T

able

of

Sta

ndard

Fix

ture

Watt

ages

Valu

e f

rom

Table

of

Sta

ndard

Fix

ture

Watt

ages

(Watt

s/F

ixt)

*

(Fix

t N

o.)

Pre

-inst.

contr

ol devic

e

Estim

ate

d

annual hours

for

the u

sage

gro

up

(kW

/space)

*

(Annual H

ours

)

No.

of

fixt

ure

s

aft

er

the r

etr

ofit

"Lig

hting F

ixtu

re C

ode"

Exa

mple

2T

40 R

F(U

)

= 2

'x2' T

roff

40

w R

ecess.

Flo

or

2 lam

ps U

shape

Code f

rom

T

able

of

Sta

ndard

Fix

ture

Watt

ages

Valu

e f

rom

Table

of

Sta

ndard

Fix

ture

Watt

ages

(Watt

s/F

ixt)

*

(Num

ber

of

Fix

ture

s)

Retr

ofit

contr

ol devic

e

Estim

ate

d

annual hours

for

the u

sage

gro

up

(kW

/space)

* (A

nnual

Hours

)

(Origin

al A

nnual

kW

h)

- (R

etr

ofit

Annual kW

h)

(Origin

al A

nnual

kW

) -

(Retr

ofit

Annual kW

)

(kW

Saved)

*

($/k

Wh)

Cost

for

renovations t

o

lighting

syste

m

Length

of

tim

e

for

renovations

cost

to b

e

recovere

d

Length

of

tim

e f

or

renovations c

ost

to

be r

ecovere

d

CO

ST

& S

AV

ING

S A

NA

LY

SIS

Are

a D

escri

pti

on

Uniq

ue d

escription o

f th

e location -

Room

num

ber/

Room

nam

e:

Flo

or

num

ber

(if

applic

able

)

EX

IST

ING

CO

ND

ITIO

NS

RE

TR

OF

IT C

ON

DIT

ION

S

168-A

2W

40 C

F 4

(M

AG

)F

44S

S188

0.4

SW

2912

1,0

94.9

2W

40 C

F 4

(M

AG

)F

44S

S188

0.4

occ

2184

821.2

273.7

0.0

$40.7

9$237.5

0$40.0

05.8

4.8

168-A

2W

40 C

F 4

(M

AG

)F

44S

S188

0.4

SW

2912

1,0

94.9

2W

40 C

F 4

(M

AG

)F

44S

S188

0.4

occ

2184

821.2

273.7

0.0

$40.7

9$237.5

0$40.0

05.8

4.8

168-A

2W

40 C

F 4

(M

AG

)F

44S

S188

0.4

SW

2912

1,0

94.9

2W

40 C

F 4

(M

AG

)F

44S

S188

0.4

occ

2184

821.2

273.7

0.0

$40.7

9$237.5

0$40.0

05.8

4.8

414

2B

34 R

F 2

(u)

(MA

G)

FU

2E

E72

1.0

SW

8736

8,8

05.9

14

2B

34 R

F 2

(u)

(MA

G)

FU

2E

E72

1.0

none

8736

8,8

05.9

0.0

0.0

$0.0

0$0.0

0$0.0

0

168-A

4W

40 C

F 4

(M

AG

)F

44S

S188

0.8

SW

2912

2,1

89.8

4W

40 C

F 4

(M

AG

)F

44S

S188

0.8

none

2912

2,1

89.8

0.0

0.0

$0.0

0$0.0

0$0.0

0

41

2B

34 R

F 2

(u)

(MA

G)

FU

2E

E72

0.1

SW

2912

209.7

12B

34 R

F 2

(u)

(MA

G)

FU

2E

E72

0.1

none

2912

209.7

0.0

0.0

$0.0

0$0.0

0$0.0

0

168-A

4W

40 C

F 4

(M

AG

)F

44S

S188

0.8

SW

2912

2,1

89.8

4W

40 C

F 4

(M

AG

)F

44S

S188

0.8

occ

2184

1,6

42.4

547.5

0.0

$81.5

7$237.5

0$40.0

02.9

2.4

168-A

2W

40 C

F 4

(M

AG

)F

44S

S188

0.4

SW

2912

1,0

94.9

2W

40 C

F 4

(M

AG

)F

44S

S188

0.4

occ

2184

821.2

273.7

0.0

$40.7

9$237.5

0$40.0

05.8

4.8

168-A

2W

40 C

F 4

(M

AG

)F

44S

S188

0.4

SW

2000

752.0

2W

40 C

F 4

(M

AG

)F

44S

S188

0.4

occ

1000

376.0

376.0

0.0

$56.0

2$237.5

0$40.0

04.2

3.5

168

6W

40 C

F 2

(M

AG

)F

42S

S94

0.6

SW

2000

1,1

28.0

6W

40 C

F 2

(M

AG

)F

42S

S94

0.6

occ

1000

564.0

564.0

0.0

$84.0

4$237.5

0$40.0

02.8

2.4

168

1W

40 C

F 2

(M

AG

)F

42S

S94

0.1

SW

2912

273.7

1W

40 C

F 2

(M

AG

)F

42S

S94

0.1

none

2912

273.7

0.0

0.0

$0.0

0$0.0

0$0.0

0

168

1W

40 C

F 2

(M

AG

)F

42S

S94

0.1

SW

2912

273.7

1W

40 C

F 2

(M

AG

)F

42S

S94

0.1

none

2912

273.7

0.0

0.0

$0.0

0$0.0

0$0.0

0

168

1W

40 C

F 2

(M

AG

)F

42S

S94

0.1

SW

2912

273.7

1W

40 C

F 2

(M

AG

)F

42S

S94

0.1

none

2912

273.7

0.0

0.0

$0.0

0$0.0

0$0.0

0

168-A

2W

40 C

F 4

(M

AG

)F

44S

S188

0.4

SW

8736

3,2

84.7

2W

40 C

F 4

(M

AG

)F

44S

S188

0.4

none

8736

3,2

84.7

0.0

0.0

$0.0

0$0.0

0$0.0

0

42

2B

34 R

F 2

(u)

(MA

G)

FU

2E

E72

0.1

SW

8736

1,2

58.0

22B

34 R

F 2

(u)

(MA

G)

FU

2E

E72

0.1

none

8736

1,2

58.0

0.0

0.0

$0.0

0$0.0

0$0.0

0

168-A

3W

40 C

F 4

(M

AG

)F

44S

S188

0.6

SW

2912

1,6

42.4

3W

40 C

F 4

(M

AG

)F

44S

S188

0.6

none

2912

1,6

42.4

0.0

0.0

$0.0

0$0.0

0$0.0

0

70

8W

32 C

F 1

F41LL

32

0.3

SW

8736

2,2

36.4

8W

32 C

F 1

F41LL

32

0.3

none

8736

2,2

36.4

0.0

0.0

$0.0

0$0.0

0$0.0

0

168-A

3W

40 C

F 4

(M

AG

)F

44S

S188

0.6

SW

2912

1,6

42.4

3W

40 C

F 4

(M

AG

)F

44S

S188

0.6

none

2912

1,6

42.4

0.0

0.0

$0.0

0$0.0

0$0.0

0

167

3W

34 W

F 1

(M

AG

)F

41E

E43

0.1

SW

8736

1,1

26.9

3W

34 W

F 1

(M

AG

)F

41E

E43

0.1

none

8736

1,1

26.9

0.0

0.0

$0.0

0$0.0

0$0.0

0

45

2B

34 R

F 2

(u)

(MA

G)

FU

2E

E72

0.4

SW

8736

3,1

45.0

52B

34 R

F 2

(u)

(MA

G)

FU

2E

E72

0.4

none

8736

3,1

45.0

0.0

0.0

$0.0

0$0.0

0$0.0

0

172-A

1W

20 W

F 2

(M

AG

)F

22S

S56

0.1

SW

2080

116.5

1W

20 W

F 2

(M

AG

)F

22S

S56

0.1

none

2080

116.5

0.0

0.0

$0.0

0$0.0

0$0.0

0

172-A

1W

20 W

F 2

(M

AG

)F

22S

S56

0.1

SW

2080

116.5

1W

20 W

F 2

(M

AG

)F

22S

S56

0.1

none

2080

116.5

0.0

0.0

$0.0

0$0.0

0$0.0

0

168-A

2W

40 C

F 4

(M

AG

)F

44S

S188

0.4

SW

2912

1,0

94.9

2W

40 C

F 4

(M

AG

)F

44S

S188

0.4

occ

2184

821.2

273.7

0.0

$40.7

9$237.5

0$40.0

05.8

4.8

168-A

2W

40 C

F 4

(M

AG

)F

44S

S188

0.4

SW

2912

1,0

94.9

2W

40 C

F 4

(M

AG

)F

44S

S188

0.4

occ

2184

821.2

273.7

0.0

$40.7

9$237.5

0$40.0

05.8

4.8

168-A

2W

40 C

F 4

(M

AG

)F

44S

S188

0.4

SW

2912

1,0

94.9

2W

40 C

F 4

(M

AG

)F

44S

S188

0.4

occ

2184

821.2

273.7

0.0

$40.7

9$237.5

0$40.0

05.8

4.8

172-A

1W

20 W

F 2

(M

AG

)F

22S

S56

0.1

SW

2080

116.5

1W

20 W

F 2

(M

AG

)F

22S

S56

0.1

none

2080

116.5

0.0

0.0

$0.0

0$0.0

0$0.0

0

284

39.0

119,4

66

284

39

104,1

79

15,2

87

02,2

78

$8,7

88

1,4

80

0.0

$0

15,2

87

$2,2

78

$2,2

78

3.9

3.2

To

tal S

avin

gs

To

tal

Dem

an

d S

avin

gs

kW

h S

avin

gs

Polic

e S

tation

Record

s R

oom

Chie

f's O

ffic

e

Chie

f's S

ecre

tary

Polic

e S

tation H

allw

ays

Locker

Room

Locker

Room

Restr

oom

Dete

ctive

Lt.

Dete

ctive

Kitchen

Sto

rage

Polic

e S

tation L

obby

Polic

e S

tation M

ens R

estr

oom

Polic

e S

tation W

om

ens R

estr

oom

Vio

lations B

ure

au 1

Vio

lations B

ure

au 2

Vio

lations B

ure

au 3

Wom

en O

ffic

ers

Restr

oom

Sm

all

Locker

Are

a

Room

1

Room

2

Patr

ol C

om

mand

Shift

Superv

isor

Com

pute

r R

oom

Dis

patc

h

Dis

patc

h

Polic

e S

tation L

obby

7/2

1/2

011

Page 9

, E

CM

-2 M

ain

Buildin

g

En

erg

y A

ud

it o

f J

eff

ers

on

TW

P F

ac

ilit

ies

- M

un

icip

al B

uild

ing

EC

M-3

CH

A P

roje

ct

No

. 2

29

83

- M

an

ufa

ctu

rin

g a

nd

En

erg

yC

os

t o

f E

lec

tric

ity

:$0

.14

9$/k

Wh

EC

M-3

Co

mb

ine

d L

igh

tin

g R

ep

lac

em

en

ts w

ith

Oc

cu

pa

nc

y S

en

so

rs$6

.01

$/k

W

No

. o

f

Fix

ture

sS

tan

dard

Fix

ture

Co

de

NY

SE

RD

A F

ixtu

re C

od

e

Watt

s p

er

Fix

ture

kW

/Sp

ace

Exis

t

Co

ntr

ol

An

nu

al

Ho

urs

An

nu

al kW

h

Nu

mb

er

of

Fix

ture

sS

tan

dard

Fix

ture

Co

de

Fix

ture

Co

de

Watt

s p

er

Fix

ture

kW

/Sp

ace

Retr

ofi

t

Co

ntr

ol

An

nu

al

Ho

urs

An

nu

al

kW

h

An

nu

al kW

h

Saved

An

nu

al kW

Saved

An

nu

al $

Saved

Retr

ofi

t C

ost

NJ L

igh

tin

g

Incen

tive

Sim

ple

Payb

ack

Wit

h O

ut

Incen

tive

Sim

ple

Payb

ack

Fie

ld

Co

de

No. of

fixtu

res

befo

re the r

etr

ofit

"Lig

hting F

ixtu

re C

ode"

Exam

ple

2

T

40

R F

(U)

=

2'x

2' T

roff

40

w R

ecess. F

loor

2 lam

ps U

shape

Code f

rom

T

able

of

Sta

ndard

Fix

ture

Wattages

Valu

e f

rom

Table

of

Sta

ndard

Fix

ture

Wattages

(Watts/F

ixt)

*

(Fix

t N

o.)

Pre

-inst.

contr

ol devic

e

Estim

ate

d d

aily

hours

for

the

usage g

roup

(kW

/space)

*

(Ann

ual H

ours

)

No. of

fixtu

res

aft

er

the r

etr

ofit

"Lig

hting F

ixtu

re C

ode"

Exam

ple

2T

40

R F

(U)

=

2'x

2' T

roff

40

w

Recess. F

loor

2 lam

ps U

shape

Code f

rom

T

able

of

Sta

ndard

Fix

ture

Wattages

Valu

e f

rom

Table

of

Sta

ndard

Fix

ture

Wattages

(Watts/F

ixt)

*

(Num

ber

of

Fix

ture

s)

Retr

ofit

contr

ol devic

e

Estim

ate

d

an

nu

al h

ou

rs

for

the u

sage

gro

up

(kW

/space)

* (A

nn

ual

Hou

rs)

(Origin

al A

nn

ual

kW

h)

- (R

etr

ofit

An

nu

al kW

h)

(Origin

al A

nn

ual

kW

) -

(Retr

ofit

An

nu

al kW

)

(kW

h S

aved)

*

($/k

Wh

)

Cost fo

r

ren

ovation

s to

ligh

tin

g s

yste

m

Pre

scriptive

Lig

htin

g

Measu

res

Len

gth

of

tim

e

for

ren

ovation

s

cost to

be

recovere

d

Len

gth

of

tim

e f

or

ren

ovation

s c

ost to

be r

ecovere

d

Tow

n H

all

Tow

n H

all

17

91

W

32

C F

2 (

ELE

)F

42

LL

60

0.1

SW

31

20

1

87

1W

32

C F

2 (

ELE

)F

42

LL

60

0.1

non

e3

,12

0

18

7

-

0.0

-$

-$

-$

41

2

2B

34

R F

2 (

u)

(MA

G)

FU

2E

E7

2

0.9

SW

31

20

2,6

96

12

2T

17

R F

2 (

ELE

) F

22

ILL

33

0.4

non

e3

,12

0

1,2

36

1,4

60

0.5

25

1.3

2$

1,2

15

.00

$

18

0$

4.8

4.1

10

61

S

P 6

5 I

I65

/16

5

0.1

SW

31

20

2

03

1C

F 2

6C

FQ

26

/1-L

27

0.0

non

e3

,12

0

84

11

9

0.0

20

.41

$

6.7

5$

-$

0.3

0.3

16

8-A

15

W

40

C F

4 (

MA

G)

F44

SS

18

8

2.8

SW

20

00

5,6

40

15

W 2

8 C

F 4

F44

SS

ILL

96

1.4

occ

1,0

00

1,4

40

4,2

00

1.4

72

5.3

3$

2,3

63

.75

$

34

0$

3.3

2.8

12

97

S

P 7

5 I

I75

/17

5

0.5

SW

20

00

1,0

50

7C

F 2

6C

FQ

26

/1-L

27

0.2

non

e2

,00

0

37

8

67

2

0.3

12

4.3

6$

14

1.7

5$

-$

1.1

1.1

12

93

S

P 7

5 I

I75

/17

5

0.2

SW

20

00

4

50

3C

F 2

6C

FQ

26

/1-L

27

0.1

non

e2

,00

0

16

2

28

8

0.1

53

.30

$

60

.75

$

-$

1.1

1.1

16

8-A

4

W 4

0 C

F 4

(M

AG

)F

44

SS

18

8

0.8

SW

20

00

1,5

04

4W

28

C F

4F

44

SS

ILL

96

0.4

occ

1,0

00

38

4

1,1

20

0.4

19

3.4

2$

80

4.5

0$

12

0$

4.2

3.5

16

8-A

8

W 4

0 C

F 4

(M

AG

)F

44

SS

18

8

1.5

SW

20

80

3,1

28

8W

28

C F

4F

44

SS

ILL

96

0.8

occ

1,5

60

1,1

98

1,9

30

0.7

34

0.6

9$

1,3

71

.50

$

20

0$

4.0

3.4

41

0

2B

34

R F

2 (

u)

(MA

G)

FU

2E

E7

2

0.7

SW

31

20

2,2

46

10

2T

17

R F

2 (

ELE

) F

22

ILL

33

0.3

non

e3

,12

0

1,0

30

1,2

17

0.4

20

9.4

3$

1,0

12

.50

$

15

0$

4.8

4.1

44

2B

34

R F

2 (

u)

(MA

G)

FU

2E

E7

2

0.3

SW

31

20

8

99

42T

17

R F

2 (

ELE

) F

22

ILL

33

0.1

non

e3

,12

0

41

2

48

7

0.2

83

.77

$

40

5.0

0$

60

$

4.8

4.1

45

2B

34

R F

2 (

u)

(MA

G)

FU

2E

E7

2

0.4

SW

31

20

1,1

23

52T

17

R F

2 (

ELE

) F

22

ILL

33

0.2

non

e3

,12

0

51

5

60

8

0.2

10

4.7

2$

50

6.2

5$

75

$

4.8

4.1

48

2B

34

R F

2 (

u)

(MA

G)

FU

2E

E7

2

0.6

SW

31

20

1,7

97

82T

17

R F

2 (

ELE

) F

22

ILL

33

0.3

non

e3

,12

0

82

4

97

3

0.3

16

7.5

4$

81

0.0

0$

12

0$

4.8

4.1

16

8-A

9

W 4

0 C

F 4

(M

AG

)F

44

SS

18

8

1.7

SW

20

80

3,5

19

9W

28

C F

4F

44

SS

ILL

96

0.9

occ

1,5

60

1,3

48

2,1

72

0.8

38

3.2

7$

1,5

13

.25

$

22

0$

3.9

3.4

16

8-A

1

W 4

0 C

F 4

(M

AG

)F

44

SS

18

8

0.2

SW

20

00

3

76

1W

28

C F

4F

44

SS

ILL

96

0.1

occ

1,0

00

96

28

0

0.1

48

.36

$

37

9.2

5$

60

$

7.8

6.6

16

8-A

1

W 4

0 C

F 4

(M

AG

)F

44

SS

18

8

0.2

SW

20

00

3

76

1W

28

C F

4F

44

SS

ILL

96

0.1

occ

1,0

00

96

28

0

0.1

48

.36

$

37

9.2

5$

60

$

7.8

6.6

41

2B

34

R F

2 (

u)

(MA

G)

FU

2E

E7

2

0.1

SW

20

80

1

50

12T

17

R F

2 (

ELE

) F

22

ILL

33

0.0

non

e2

,08

0

69

81

0.0

14

.90

$

10

1.2

5$

15

$

6.8

5.8

17

2-A

1

W 2

0 W

F 2

(M

AG

)F

22

SS

56

0.1

SW

20

80

1

16

1W

17

W F

2F

22

ILL

33

0.0

non

e2

,08

0

69

48

0.0

8.7

9$

10

1.2

5$

-$

11

.51

1.5

16

8-A

1

W 4

0 C

F 4

(M

AG

)F

44

SS

18

8

0.2

SW

20

80

3

91

1W

28

C F

4F

44

SS

ILL

96

0.1

occ

1,5

60

15

0

24

1

0.1

42

.59

$

37

9.2

5$

60

$

8.9

7.5

17

2-A

1

W 2

0 W

F 2

(M

AG

)F

22

SS

56

0.1

SW

20

80

1

16

1W

17

W F

2F

22

ILL

33

0.0

non

e2

,08

0

69

48

0.0

8.7

9$

10

1.2

5$

-$

11

.51

1.5

17

2-A

1

W 2

0 W

F 2

(M

AG

)F

22

SS

56

0.1

SW

20

80

1

16

1W

17

W F

2F

22

ILL

33

0.0

non

e2

,08

0

69

48

0.0

8.7

9$

10

1.2

5$

-$

11

.51

1.5

16

8-A

2

W 4

0 C

F 4

(M

AG

)F

44

SS

18

8

0.4

SW

20

80

7

82

2W

28

C F

4F

44

SS

ILL

96

0.2

occ

1,5

60

30

0

48

3

0.2

85

.17

$

52

1.0

0$

80

$

6.1

5.2

16

8-A

6

W 4

0 C

F 4

(M

AG

)F

44

SS

18

8

1.1

SW

20

80

2,3

46

6W

28

C F

4F

44

SS

ILL

96

0.6

occ

1,5

60

89

9

1,4

48

0.6

25

5.5

1$

1,0

88

.00

$

16

0$

4.3

3.6

16

8-A

2

W 4

0 C

F 4

(M

AG

)F

44

SS

18

8

0.4

SW

20

80

7

82

2W

28

C F

4F

44

SS

ILL

96

0.2

occ

1,5

60

30

0

48

3

0.2

85

.17

$

52

1.0

0$

80

$

6.1

5.2

16

8-A

2

W 4

0 C

F 4

(M

AG

)F

44

SS

18

8

0.4

SW

20

80

7

82

2W

28

C F

4F

44

SS

ILL

96

0.2

occ

1,5

60

30

0

48

3

0.2

85

.17

$

52

1.0

0$

80

$

6.1

5.2

16

8-A

2

W 4

0 C

F 4

(M

AG

)F

44

SS

18

8

0.4

SW

20

80

7

82

2W

28

C F

4F

44

SS

ILL

96

0.2

occ

1,5

60

30

0

48

3

0.2

85

.17

$

52

1.0

0$

80

$

6.1

5.2

16

8-A

4

W 4

0 C

F 4

(M

AG

)F

44

SS

18

8

0.8

SW

20

80

1,5

64

4W

28

C F

4F

44

SS

ILL

96

0.4

occ

1,5

60

59

9

96

5

0.4

17

0.3

4$

80

4.5

0$

12

0$

4.7

4.0

17

2-A

1

W 2

0 W

F 2

(M

AG

)F

22

SS

56

0.1

SW

20

80

1

16

1W

17

W F

2F

22

ILL

33

0.0

non

e2

,08

0

69

48

0.0

8.7

9$

10

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T

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aily

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roup

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ours

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No. of

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w

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ber

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OF

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Uniq

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Jefferson TWP - Municipal Building ECM-4

Title Unoccupied Space Temperature Setpoint Adjustment

Project:

Site: Municipal Building/ Admin Area Only

Description

Given $2.45 5 (From Bills)

$0.165 $/kWh (From Bills)

Wall Area 3,420 square feet (From survey)

Window Area 1,080 square feet (From survey)

Roof Area 12,710 square feet (From survey) 19,500

17,210 square feet 6,600

56,658$ (From Bills) 20400

0.74 Btu/(h*sqft*degf) (From window survey)

Wall U factor 0.04 Btu/(h*sqft*degf) (From wall survey) 46,500

Roof U factor 0.03 Btu/(h*sqft*degf) (From roof survey)

12 Mbh/Ton

92 Mbh/gallon

Assumptions 80% Existing

1.10 kW/Ton Existing

0.03 cfm/ft2 Based on Envelope

Supply Air CFM 10,000

Outside Air CFM 5,000

Return Air CFM 5,000

Return Air Temp Htg. 72

Clg. 74

Unoccupied Cycling Rate 15%

Based on Design

Cooling Conversion

Heating Btu Conversion

RTU Efficiency

RTU Cooling Efficiency

Air Infiltration & Leakage

Exi

stin

g

Occupied Indoor Heating Temperature Setpoint

Reset unoccupied space temperature setpoint up in summer and down in winter.

Heating Energy Cost

Electric Energy Cost

Total Envelope Area

Building Heating Costs

Window U factor

70 Degrees F Current




Pro

posed


Exi

stin

g


Unoccupied Indoor Heating Temperature Setpoint

Occupied Indoor Cooling Temperature Setpoint

Unoccupied Indoor Cooling Temperature Setpoint

70 Degrees F Proposed




Formula Overall U Factor = ((Window U factor x Window Area ) + (Wall U factor x Wall Area ) + (Roof U factor x Roof Area ))/ (Total Envelope Area)

Cooling Conduction (MBH) = Overall U Factor x Area x ((OA Temperature - Occupied Temperature)*Occupied Hours)+(OA Temperature - Unoccupied Temperature)*Unoccupied Hours))/1,000 btu/MBH

Heating Conduction (MBH) = Overall U Factor x Area x ((Occupied Temperature - OA Temperature)*Occupied Hours)+(Unoccupied Temperature - OA Temperature)*Unoccupied Hours))/1,000 btu/MBH

Cooling Infiltration (MBH) = Air Infiltration & Leakage x Area x ((OA Temperature - Occupied Temperature)*Occupied Hours)+(OA Temperature - Unoccupied Temperature)*Unoccupied Hours))/1,000 btu/MBH

Heating Infiltration (MBH) = Air Infiltration & Leakage x Area x ((Occupied Temperature - OA Temperature)*Occupied Hours)+(Unoccupied Temperature - OA Temperature)*Unoccupied Hours))/1,000 btu/MBH

Heat loss = (Heating Conduction) + (Heating Infiltration) Heating Energy = (Heat Loss) / ((Boiler Efficiency) x (Conversion Factor ))

Cooling loss = (Cooling Conduction) + (Cooling Infiltration) Cooling Energy = (Cooling Loss) * (Chiller Efficiency) / (Conversion Factor )

Calculations Overall U Factor=(( Window U factor x Window Area ) + ( Wall U factor x Wall Area ) + ( Roof U factor x Roof Area ) )/ ( Total Envelope Area)

Overall U Factor=(( 0.74 x 1080 ) + ( 0.04 x 3420 ) + ( 0.03 x 12710 ))/( 17210 ) = 0.079 Btu/(h*sqft*degf)

Fan/ Pump Energy 3.7 kW

Total Envelope energy loss per year without temperature setback

OA Temp

Unoccupied

Hours

Cooling

Conduction

(MBH)

Heating

Conduction

(MBH)

Cooling

Infiltration

(MBH)

Heating

Infiltration

(MBH)

97 8 19 597 0 203 0

92 34 77 1,895 0 645 0

87 94 196 3,484 0 1,186 0

82 206 379 4,135 0 1,407 0

77 391 609 2,494 0 849 0

72 583 813 0 0 0 0

67 589 810 0 0 0 1,129

62 547 760 0 4,567 0 2,825

57 510 706 0 9,047 0 4,265

52 499 690 0 13,550 0 5,771

47 484 688 0 18,299 0 7,352

42 545 767 0 25,604 0 9,980

37 611 839 0 33,641 0 12,868

32 466 629 0 29,444 0 11,104

27 272 366 0 19,600 0 7,303

22 167 222 0 13,430 0 4,958

17 89 117 0 7,869 0 2,885

12 40 51 0 3,769 0 1,376

7 14 17 0 1,371 0 498

2 2 2 0 175 0 63

-3 0 0 0 0 0 0

-8 1 2 0 205 0 73

-13 1 1 0 108 0 39

-18 0 0 0 0 0 0

Subtotal = 6153 Hours 8760 Hours 12,007 MBH 180,680 MBH 4,086 MBH 72,490

Total Hours

Pro

posed


Unoccupied Indoor Heating Temperature Setpoint

Occupied Indoor Cooling Temperature Setpoint

Unoccupied Indoor Cooling Temperature Setpoint

Jefferson TWP - Municipal Building ECM-4Total Envelope energy loss per year with temperature setback

OA Temp

Unoccupied

Hours Total Hours

Cooling

Conduction

(MBH)

Heating

Conduction

(MBH)

Cooling

Infiltration

(MBH)

Heating

Infiltration

(MBH)

Mix

Air

Temp

Cooling

MBH

Heating

MBH

97 8 19 473 0 161 0

92 34 77 1,382 0 470 0

87 94 196 2,079 0 708 0

82 206 379 1,044 0 355 0

77 391 609 0 0 0 0

72 583 813 0 0 0 0

67 589 810 0 0 0 0

62 547 760 0 833 0 283

57 510 706 0 5,563 0 1,893

52 499 690 0 10,144 0 3,452

47 484 688 0 14,994 0 5,103

42 545 767 0 21,884 0 7,448

37 611 839 0 29,473 0 10,030

32 466 629 0 26,261 0 8,937

27 272 366 0 17,742 0 6,038

22 167 222 0 12,292 0 4,183

17 89 117 0 7,260 0 2,471

12 40 51 0 3,494 0 1,189

7 14 17 0 1,278 0 435

2 2 2 0 163 0 56

-3 0 0 0 0 0 0

-8 1 2 0 196 0 67

-13 1 1 0 102 0 35

-18 0 0 0 0 0 0

Subtotal = 6153 Hours 8760 Hours 4,505 MBH 151,678 MBH 1,533 MBH 51,620 0 0

Existing Heat loss=( Existing Heating Conduction) + ( Existing Heating Infiltration ) + (Existing Heating Vetilation)

Existing Heat loss=( ) + ( )+ ( 0 253,170 MBH

Proposed Heat loss=( Proposed Heating Conduction)+( Proposed Heating Infiltration) + (Proposed Heating Ventilation)

Proposed Heat loss=( ) + ( )+ ( 0 203,298 MBH 19.7% Reduction

Existing Cooling loss=( Existing Cooling Conduction)+( Existing Cooling Infiltration) Existing Colling Ventilation

Existing Cooling loss=( ) + ( ) + ( 0 ) = 16,093 MBH

Proposed Cooling loss=( Proposed Cooling Conduction)+( Proposed Cooling Infiltration) + (Proposed Cooling Ventilation)

Proposed Cooling loss=( ) + ( ) + ( 0 6,038 MBH 62.5% Reduction

Existing Heating Energy =( Existing Heat Loss)/(( Boiler Efficiency)*( ) =Existing Heating Energy =( )/(( 80% )*( ) = 3,459 gallons

Proposed Heating Energy =( Proposed Heat Loss)/(( Boiler Efficiency)*( ) =

Proposed Heating Energy =( )/(( 80% )*( ) = 2,777 gallons 19.7% Reduction

Existing Cooling Energy =( Existing Cooling Loss) x ( Chiller Efficiency)/( ) =

Existing Cooling Energy =( )*( 1.10 )/( ) = 1,475 kWh

Proposed Cooling Energy =( Proposed Cooling Loss) x (Chiller Efficiency)/( ) =

Proposed Cooling Energy =( )*( 1.10 )/( ) = 553 kWh Reduction

Results Annual Existing Heating 3,459 gallons => 8,467$

Annual Existing Cooling 1,475 kWh => 244$

Annual Existing Fan/ Pump Energy 14,148 kWh => 2,339$

TOTAL EXIST COST PER YEAR =================================>> 11,051$

Annual Proposed Heating 2,777 gallons => 6,799$

Annual Proposed Cooling 553 kWh => 92$

Annual Proposed Fan/ Pump Energy 14,148 kWh => 2,339$

TOTAL POPOSED COST PER YEAR =================================>> 9,230$

SAVINGS AT 100% GUARANTEE

Annual Heating Savings 681 gallons => 1,668$ 19.70% of existing

Annual Electrical Savings 922 kWh => 152$

TOTAL EXIST COST SAVINGS PER YEAR =================================>> 1,820$ 16.47% Reduction

1 $/MCF (Nat'l Gas) 1,030,000 1 MCF Mbh/MCF 1,030

2 $/CCF (Nat'l Gas) 103,000 2 CCF Mbh/CCF 103

3 $/CF (Nat'l Gas) 1,030 3 CF Mbh/CF 1.030

4 $/Therm (Nat'l Gas) 100,000 4 Therm Mbh/Therm 100

5 $/gal (LP Gas) 91,500 5 gallons Mbh/gallon 91.5

6 $/gal (Fuel Oil #2) 139,000 6 gallons Mbh/gallon 139

7 $/lb Steam 975 7 lb Steam Mbh/lb Steam 0.975

8 $/1000 lbs Steam 975,000 8 1000 lbs Steam Mbh/1000 lbs Steam 975

Conversion Factor

6,038 12

Conversion Factor

203,298 92

Conversion Factor

16,093 12

12,007 4,086

4,505 1,533

Conversion Factor253,170 92

Ventilation

180,680 72,490

151,678 51,620

ECM-5 & ECM-6

Jefferson Township - Municipal Building - REDUCE INFILTRATION THROUGH EXTERIOR BUILDING CRACKS

Notes: STACK COEFFICIENT WIND COEFFICIENT

1. Infiltration CFM is based on field measured crack areas and calculated using ASHRAE Methods. # of StoriesCoeff A Shielding Class

2. All identified infilatration points will be sealed as part of this measure. 1 0.015 # of Stories 1 2 3 4 5

3. Calculations utilize Trenton, NJ weather data. 2 0.0299 1 0.0119 0.0092 0.0065 0.0039 0.0012

3 0.0449 2 0.0157 0.0121 0.0086 0.0051 0.0016

7.7 …EXISTING CRACK AREA IN SQ.FT. (AREA) 4 0.06283 3 0.0184 0.0143 0.0101 0.006 0.0018

50% …% INFILTRATION VS. EXFILTRATION (%INF) 5 0.07858 4 0.02183 0.01697 0.012 0.0071 0.00213

2 …LOCAL SHIELDING CLASS (LSC) 6 0.09433 5 0.02508 0.01952 0.0138 0.00815 0.00243

1 …# OF STORIES TO BUILDING (FLOORS) 7 0.11008 6 0.02833 0.02207 0.0156 0.0092 0.00273

144.0000 ...EFFECTIVE LEAKAGE AREA - IN^2/FT^2 (EFL) 8 0.12583 7 0.03158 0.02462 0.0174 0.01025 0.00303

0.0150 …STACK COEFFICIENT, A (A) 9 0.14158 8 0.03483 0.02717 0.0192 0.0113 0.00333

0.0092 …STACK COEFFICIENT, B (B) 10 0.15733 9 0.03808 0.02972 0.021 0.01235 0.00363

8.2 …AVERAGE WIND VELOCITY (VEL) 10 0.04133 0.03227 0.0228 0.0134 0.00393

70 ...SPACE HEATING SETPOINT (HTSP)

60 ...UNOCCUPIED SPACE HEATING SETPOINT (HTSPUNOC)

48.7 ...AVERAGE O.A. TEMP. DURING HEATING SEASON (OAHT) LOCAL SHIELDING CLASSES

5,063 ...HRS/YR OF HEATING SEASON FROM WEATHER DATA (HHPY) CLASS DESCRIPTION

74 ...SPACE COOLING SETPOINT (CLSP) 1 No obstructions or local shielding

79.2 ...AVERAGE O.A. TEMP. DURING COOLING SEASON (OACT) 2 Light Local shielding; few obstructions, few trees, or small shed

3,690 ...HRS/YR OF COOLING SEASON FROM WEATHER DATA (CHPY) 3 Moderate local shielding, some obstructions within two house heights, thick hedge,

84.0 ...HRS/WK OF ACTUAL BUILDING OCCUPANCY (HRSOCC) solid fence, or one neighboring house

4 Heavy shielding; obstuctions around most of perimeter, buildings or trees within 30 ft in

(Heat Leak Occ)AREA * %INF * EFL *((A * (HTSP - OAHT)) + (B * VEL^2))^.5 =================535.4 HLOCC (CFM) most directions; typical suburban shielding.

(Heat Leak Unocc)AREA * %INF * EFL *((A * (HTSPUNOC - OAHT)) + (B * VEL^2))^.5 =================490.7 HLUNOCC (CFM) 5 Very heavy shielding; large obstructins surrounding perimeter within two building heights;

typical downtown shielding

(Cool Leak Occ)AREA * EFL *((A * (CLSP - OACT)) + (B * VEL^2))^.5 =================922.1 CLOCC (CFM)

Gals ...TYPE OF FUEL (GAS CCF, OIL GAL, COAL TONS)

$2.448 ...FUELCOST

91,600 ...BTUs / UNIT (BTUs/UNIT)

20% ...LOSSES OF HEATING SYSTEM (EOSH) SCOPE OF WORK IS BASED UPON THE FOLLOWING FIELD-MEASURED CRACK AREAS:

(Occupied 1.08 * HLOCC * (HTSP - OAHT) * HRSOCC * HHPY /

Heating) 70 / (BTUs/UNIT) / (1-EOSH) ===================================426 Gals LPG (2) Dbl & (2) Sgl Doors 60' perimeter x 1/8" crack = 0.63 Sq.FT

FUELCOST * FUEL SAVED =================================================$1,043.2 SAVINGS 34' overhead door weatherstrip x 1/8" crack = 0.35 Sq.FT

643' roof joint weatherstrip x 1/8" crack = 6.70 Sq.FT

12 ...COOLING MMBTU REQUIRED TO COOL 1000 CFM/YR (CBTU) all other = 0.00 Sq.FT

12,000 ....AVG BTU/TON EFF. OF CHILLER (BTU/TON)

1.10 ....AVG. KW/TON OF SUPPORT EQUIPMENT (KWSUPT) TOTAL: = 7.675 Sq.FT

0.1500$ ...ELECTRICITY UNIT ($) COST/KWHR (ELECCOST)

100% …COOLING FACTOR - % OF FACILITY THAT IS COOLED (CF)

(Cooling CLOCC * CBTU / 1000 * HRSOCC / 50 * 1,000,000 * CF / 12000 ===============1,549 TON-HRS

Savings) TON-HRS * KWSUPT =============================================1,704 kWh

ELECCOST * KWH SAVED =================================================$255.6 SAVINGS

# Type Unit $/ ea

2 Sgl ea $200 $400

2 Dbl ea $250 $500

34 OH lf $15 $510

643 Roof Joint $12 $7,716

$9,126


Downsize and Insulate Domestic Hot Water Storage Tank

Notes:

1. There is a 50 gallon electric tank on site

2. The tank measures approximately 2' in diameter and 4' in length and is insulated with asbestos.

3. The hot water temperature is 120 deg. F.

5. Based on calculations by the design engineer, the new water tank shall have

a capacity of 20 gallons.

2 …EXISTING TANK DIAMETER IN FEET (DEXIST)

4 …EXISTING TANK LENGTH IN FEET (LEXIST)

7 …EXISTING TANK VOLUME IN CUBIC FEET (CFEXIST) = PI * (DEXIST/2)^2 * LEXIST

50 …EXISTING TANK VOLUME IN GALLONS (GALEXIST) = 7.48 * CFEXIST

21 …EXISTING TANK SURFACE AREA IN CUBIC FEET (SAEXIST) = 2 * PI * DEXIST/2 * LEXIST + (2 * PI * (DEXIST/2)^2)

0.3 …EXISTING INSULATION U-VALUE (UEXIST)

70 …AVERAGE AMBIENT ROOM TEMPERATURE (AMBTEMP)

120 …AVERAGE HOT WATER TEMPERATURE (HWTEMP)

0 …PROPOSED TANK DIAMETER IN FEET (DRETRO)

0 …PROPOSED TANK LENGTH IN FEET (LRETRO)

0 …PROPOSED TANK VOLUME IN CUBIC FEET (CFRETRO) = PI * (DRETRO/2)^2 * LRETRO

0 …PROPOSED TANK VOLUME IN GALLONS (GALRETRO) = 7.48 * CFRETRO

0 …PROPOSED TANK SURFACE AREA IN CUBIC FEET (SARETRO) = 2 * PI * DRETRO/2 * LRETRO + (2 * PI * (DRETRO/2)^2)

0.125 …PROPOSED INSULATION U-VALUE (URETRO)

8760 ...HRS/YR OF OPERATION (HPY)

EX

IST

INGElectricity ...TYPE OF FUEL (GAS MCF, OIL GAL, COAL TONS)

$0.1654 ... COST / UNIT OF FUEL


100% …EXISTING HOT WATER HEATING SYSTEM EFFICIENCY (EEFF) EX

IST

ING

PR

OP

OS

ED

Electricity ...TYPE OF FUEL (GAS MCF, OIL GAL, COAL TONS)



100% …PROPOSED HOT WATER HEATING SYSTEM EFFICIENCY (PEFF)

(Existing Tank UEXIST * SAEXIST * (HWTEMP - AMBTEMP) * HPY / (EEFF * BTUs/UNIT) ==========782.4 kWh

Losses)

(Retrofit Tank URETRO * SARETRO * (HWTEMP - AMBTEMP) * HPY / (PEFF * BTUs/UNIT) ============0.0 kWh

Losses)

Savings 782 kWh

# of Occupants 20

Days/ week 7 $129.37

Weeks/ Yr 52

Usage 1.8 Gal/ Occ/ Day

Total DHW Usage 13104 Gals

MA Water Temp 50

Supply Water Temp 120

Energy Usage 7,640,942 Btu's

Equivalent 2238.8 kWh

Indirect DHW Heater LPG $1,450

Installation Cost $1,200

Material $580

TOTAL $3,230

PR

OP

OS

ED


ENERGY SAVINGS ANALYSIS

Window Replacement

Municipal Building

Jefferson Township, NJ

Window Area 1,080 SF Prop Occupied Htg Temp. 70 °F

Internal Balance Temp. 60 °F Prop Unoccupied Htg Temp. 60 °F

Heating System Efficiency 80% Prop Occupied Clng Temp. 74 °F

Cooling EER 1.2 (Btu/Watt) Prop Unoccupied Clng Temp. 78 °F

Existing U factor 0.74 Btu/(h*sqft*degf) $/ kWh $0.17

Proposed U factor 0.45 Btu/(h*sqft*degf) $/ Gal LPG $2.45

Avg

Outdoor Air

Temp. Bins

°F

Proposed

Occupied Bin

Hours

Unoccupied Bin

Hours

Existing

Occupied

Energy

Mbtu

Existing

Unoccupied

Energy

Mbtu

Proposed

Occupied

Energy

Mbtu

Proposed

Unoccupied

Energy

Mbtu

Heating

Energy

Savings

(Gals)

Cooling

Energy

Savings

(kWh)

Total

Cost

Savings

Location # of Total Sqft.

97 11 8 197 126 150 77 0 81 $13 SW 18 540

92 43 34 618 382 376 232 0 327 $54 NE 9 270

87 103 94 1,067 673 649 409 0 568 $94 NW 2 60

82 173 206 1,104 658 672 400 0 575 $95 SE 7 210

77 218 391 523 0 318 0 0 171 $28

72 230 583 0 0 0 0 0 - $0 1080

67 221 589 530 0 323 0 0 173 $29

62 213 547 1,362 0 828 0 0 445 $74 Replacement Cost $ 75 / Sqft

57 196 510 2,033 1,224 1,236 744 17 - $43 Total Cost $81,000

52 191 499 2,747 3,190 1,671 1,940 32 - $78

47 204 484 3,747 5,029 2,279 3,058 47 - $115

42 222 545 4,971 7,839 3,023 4,767 69 - $168

37 229 611 6,028 11,223 3,666 6,825 92 - $226

32 163 466 4,936 10,436 3,001 6,346 82 - $201

27 93 272 3,205 7,180 1,949 4,366 56 - $136

22 55 167 2,129 5,066 1,294 3,081 38 - $94

17 28 89 1,183 3,067 719 1,865 23 - $56

12 11 40 498 1,547 303 941 11 - $27

7 3 14 171 577 104 351 4 - $10

2 0 2 19 76 12 46 1 - $1

-3 0 0 0 0 0 0 0 - $0

-8 1 1 45 70 27 43 1 - $1

-13 0 1 12 48 7 29 0 - $1

TOTALS 2,607 6,153 37,125 58,411 22,606 35,520 472 2,340 $1,543

Window Breakdown

Energy Analysis Prepared For: Energy Costs ($0.000 per kwh) $0.165Facility Occupied Hours per Week 60Number of Cold Drink Vending Machines 1Number of Uncooled Snack Machines 1Power Requirements of Cold Drink Machine (avg watts) 345Power Requirements of Snack Machine (avg watts) 150VendingMiser Sale Price (for cold drink machines) $175.00SnackMiser Sale Price (for snack machines) $160.00

Savings Analysis

Before After

Cold Drink Machines $500.07 $233.09 Cost of Operation3,024 1,410 kWh

53% % Energy Savings

Snack Machines $216.68 $77.38 Cost of Operation

1,310 468 kWh

64% % Energy Savings

Project Summary

Present kWh Projected kWh kWh Savings per

Year4,335 1,878 2,457

Present Cost Projected Costs Annual Savings Per Cent Savings Total Project CostBreak Even

(Months)$716.75 $310.48 $406.27 57% $335.00 9.9

Five Year Savings on 2 Machines = $2,031.35

Five Year Return on Investment = 506%

Version 1.0

Year 1 Year 2 Year 3 Year 4 Year 5

Cost With Miser $310.48 $620.95 $931.43 $1,241.91 $1,552.39

Cost Without Misers $716.75 $1,433.50 $2,150.24 $2,866.99 $3,583.74

Total Number of machines 2

Cold Drink and Snack Vending Machine Energy Conservation Project

Input Variables

Source Data for Generating Chart

$0

$500

$1,000

$1,500

$2,000

$2,500

$3,000

$3,500

$4,000

Year 1 Year 2 Year 3 Year 4 Year 5

Five Year Operational Costs for Vending Machines

Cost Without Misers

Cost With Miser


IDAnnual

kWh

Existing GE 1054

Proposed GE 830

Cost of replacement unit $1,199

Annual kWh Saved 224

Annual $ Saved $37.04

Cost $2,398


Notes:

1. Savings are for the installation of a centralized computer management system installed on the client server

that will centralize the power management functions that are native to the Windows environment.

2. Energy savings per computer are based on historical information from previous installations encompassing

tens of thousands of computers.

3. There are approximately 500 computers in all

Background Data

Average Consumption and Savings Figures kWh

Average Total Consumption per PC per Year 500-700

Average Energy and Cost Waste per PC per Year 350-450

Average savings transparantly available via Surveyor 150

Number of PCs 38

Return on Investment Analysis

kWh

Annual Energy Savings 5,700

LPG

Heating Penalty -111

Cost Savings $943

-$271

TOTAL $672

Cost/ License $12

Total Cost $456

Network Controller Savings Calculations

Jefferson TWP - Municipal Building Alternative Energy ECM-1

ID Jefferson Town Ship

State New Jersey

Latitude 40.9°N

Longitude 74.79°W

DC Rating: 40 kW

DC to AC Derate Factor 0.77

Array Type : Fixed Tilt

Array Tilt : 40.9°

Array Azimuth : 180°

Cost of Electricity : $ 0.17/ kWh

Month

Solar

Radiation

(kWh/ m2/ day)

AC Energy

(kWh)

Energy

Value

($)

January 3.13 3,108 $514

February 3.93 3,505 $580

March 5.04 4,761 $787

April 5.3 4,664 $771

May 5.57 4,953 $819

June 5.8 4,863 $804

July 5.48 4,650 $769

August 5.46 4,677 $773

September 5.29 4,496 $743

October 4.74 4,323 $715

November 3.43 3,110 $514

December 2.98 2,899 $479

Annual 4.68 50,009 $8,269

Station ID

PV System Specifications

Energy Specifications

Results

Energy Savings Analysis - Solar Domestic Hot Water Heating Alternative Energy ECM-2

Municipal Building

Jefferson TownshipGas cost / Therm n/a

Solar Array Area (square Feet) 129 A1 ( Total of 4 panels) Elect Cost / kWh $0.17

Collector Efficiency 50% A2

Average Gallons per Day 200 A3 Electrical 7,625 kWh $1,261

Storage Tank Size 50.00 A4 Add'l Elect Usage 1,000 kWh $165

Percent Hot Water 100% A5 Total $1,096

Hot water temperature 120 A6

Supply water Temperature 55 A7 Project Cost $100.00 per sq.ft. 12,920$

Existing DHW Heater Efficiency 100% A8 Simple Payback 11.79 Years

Unit Cost $0.17 A9

Month

Days per

Month

Average Daily

Rad.

Max Daily

Sol.

Energy

Max. Sol.

Energy

Piping

Losses

Useful

Energy

Hot Water

Use

Hot Water

Use

Existing

Usage

Solar

Energy

Used Equivalent

BTU/SF/Day Mbtu Mbtu Mbtu Mbtu/Mo. Gallons Mbtu/Mo. kWh kBTU kWh

A B C D E F G H I J K

Note 1

D x A1 X

A2 / 1000 B x D 5% x G

A3 X A4

Note 2

8.3#/gal x H

x (TD) / 1000 I / 100 / A9

If G<i, G

else I

January 31 583 38 1,175 59 1,116 6,200 3,363 985 1,116 327

February 28 781 51 1,421 71 1,350 5,600 3,038 890 1,350 396

March 31 1067 69 2,150 107 2,042 6,200 3,363 985 2,042 598

April 30 1353 88 2,638 132 2,506 6,000 3,255 954 2,506 734

May 31 1650 107 3,324 166 3,158 6,200 3,363 985 3,158 925

June 30 1738 113 3,388 169 3,219 6,000 3,255 954 3,219 943

July 31 1793 117 3,612 181 3,432 6,200 3,363 985 3,363 985

August 31 1584 103 3,191 160 3,032 6,200 3,363 985 3,032 888

September 30 1331 86 2,595 130 2,465 6,000 3,255 954 2,465 722

October 31 957 62 1,928 96 1,832 6,200 3,363 985 1,832 537

November 30 583 38 1,137 57 1,080 6,000 3,255 954 1,080 316December 31 451 29 909 45 863 6,200 3,363 985 863 253

365 901 27,467 1,373 26,094 73,000 39,597 11,602 26,025 7,625

Notes:

1) Average Daily radiation fromASHRAE HANDBOOK

2) Water use estimated

Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec

Btu/Sft. 602 856 1205 1522 1744 1902 1871 1649 1363 1015 634 507

Average Daily Radiation for Newark, NJ

Jefferson TWP - Municipal Building Alternative Energy ECM-3

Summary Assumptions

Proposed System 5 kW

# of Turbines 2

Power Output (kWh/year) 12,695

Average Cost of Electricity ($/kWh) $0.15

$1,878.86

Installed Price $49,000

5 kW

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(kW

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Pre

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Length

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for

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SIL

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0.6

SW

2,9

12

1,6

77

1,6

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0.6

276.2

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2.6

168-A

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(M

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S188

0.6

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0.8

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L96

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(M

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$380

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$837

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Estim

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(kW

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(Num

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Retr

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Estim

ate

d

annual hours

for

the u

sage

gro

up

(kW

/space)

* (A

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Hours

)

(Origin

al A

nnual

kW

h)

- (R

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Annual kW

h)

(Origin

al A

nnual

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(Retr

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(kW

Saved)

*

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Wh)

Cost

for

renovations t

o

lighting

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Length

of

tim

e

for

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cost

to b

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d

Length

of

tim

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or

renovations c

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to

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d

168-A

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F 4

(M

AG

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44S

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1.1

SW

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84.7

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F 4

(M

AG

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44S

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1.1

occ

2184

2,4

63.6

821.2

0.0

$122.3

6$237.5

0$40.0

01.9

1.6

168-A

3W

40 C

F 4

(M

AG

)F

44S

S188

0.6

SW

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1,6

42.4

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40 C

F 4

(M

AG

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44S

S188

0.6

occ

2184

1,2

31.8

410.6

0.0

$61.1

8$237.5

0$40.0

03.9

3.2

168-A

4W

40 C

F 4

(M

AG

)F

44S

S188

0.8

SW

2912

2,1

89.8

4W

40 C

F 4

(M

AG

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Page

45

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53

Pre

par

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y:__

____

____

___

Ch

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____

____

___

Jefferson TWP - White Rock ECM-5

Downsize and Insulate Domestic Hot Water Storage Tank

Notes:

1. There is a 50 gallon electric tank on site

2. The tank measures approximately 2' in diameter and 4' in length and is insulated with asbestos.

3. The hot water temperature is 120 deg. F.

5. Based on calculations by the design engineer, the new water tank shall have

a capacity of 20 gallons.

2 …EXISTING TANK DIAMETER IN FEET (DEXIST)

4 …EXISTING TANK LENGTH IN FEET (LEXIST)

7 …EXISTING TANK VOLUME IN CUBIC FEET (CFEXIST) = PI * (DEXIST/2)^2 * LEXIST

50 …EXISTING TANK VOLUME IN GALLONS (GALEXIST) = 7.48 * CFEXIST

21 …EXISTING TANK SURFACE AREA IN CUBIC FEET (SAEXIST) = 2 * PI * DEXIST/2 * LEXIST + (2 * PI * (DEXIST/2)^2)

0.3 …EXISTING INSULATION U-VALUE (UEXIST)

70 …AVERAGE AMBIENT ROOM TEMPERATURE (AMBTEMP)

120 …AVERAGE HOT WATER TEMPERATURE (HWTEMP)

0 …PROPOSED TANK DIAMETER IN FEET (DRETRO)

0 …PROPOSED TANK LENGTH IN FEET (LRETRO)

0 …PROPOSED TANK VOLUME IN CUBIC FEET (CFRETRO) = PI * (DRETRO/2)^2 * LRETRO

0 …PROPOSED TANK VOLUME IN GALLONS (GALRETRO) = 7.48 * CFRETRO

0 …PROPOSED TANK SURFACE AREA IN CUBIC FEET (SARETRO) = 2 * PI * DRETRO/2 * LRETRO + (2 * PI * (DRETRO/2)^2)

0.125 …PROPOSED INSULATION U-VALUE (URETRO)

8760 ...HRS/YR OF OPERATION (HPY)

EX

IST

INGElectricity ...TYPE OF FUEL (GAS MCF, OIL GAL, COAL TONS)



100% …EXISTING HOT WATER HEATING SYSTEM EFFICIENCY (EEFF) EX

IST

ING

PR

OP

OS

ED

Electricity ...TYPE OF FUEL (GAS MCF, OIL GAL, COAL TONS)



100% …PROPOSED HOT WATER HEATING SYSTEM EFFICIENCY (PEFF)

(Existing Tank UEXIST * SAEXIST * (HWTEMP - AMBTEMP) * HPY / (EEFF * BTUs/UNIT) ==========782.4 kWh

Losses)

(Retrofit Tank URETRO * SARETRO * (HWTEMP - AMBTEMP) * HPY / (PEFF * BTUs/UNIT) ============0.0 kWh

Losses)

Savings 782 kWh

# of Occupants 4

Days/ week 7 $124.39

Weeks/ Yr 52

Usage 1.8 Gal/ Occ/ Day

Total DHW Usage 2620.8 Gals

MA Water Temp 60

Supply Water Temp 120

Energy Usage 1,309,876 Btu's

Equivalent 383.8 kWh

383.8 kWh

TOTAL SAVINGS 782.4 kWh

Tankless Electric DHW Heater $640

Electrical Labor $300

Materials $160

TOTAL $1,100

PR

OP

OS

ED

Jefferson TWP - White Rock ECM-6

EER kW/ Ton Tons

Existing 11 1.1 2

Proposed 20 0.6 2

EFLH 1,050

Existing 2,291 kWh

Proposed 1,260 kWh

Annual kWh Saved 1,031 kWh

Annual $ Saved $164

Cost $3,238

Moosepac WWTP

En

erg

y A

ud

it o

f Je

ffe

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n T

WP

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cil

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. 22

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de

NY

SE

RD

A F

ixtu

re C

od

e

Wa

tts

pe

r

Fix

ture

kW

/Sp

ac

e

Ex

ist

Co

ntr

ol

An

nu

al

Ho

urs

An

nu

al k

Wh

Nu

mb

er

of

Fix

ture

sS

tan

dard

Fix

ture

Co

de

Fix

ture

Co

de

Wa

tts

pe

r

Fix

ture

kW

/Sp

ac

e

Re

tro

fit

Co

ntr

ol

An

nu

al

Ho

urs

An

nu

al

kW

h

An

nu

al k

Wh

Sa

ve

d

An

nu

al k

W

Sa

ve

d

An

nu

al $

Sa

ve

d

Re

tro

fit

Co

st

NJ

Lig

hti

ng

Inc

en

tiv

e

Sim

ple

Pa

yb

ac

k

Wit

h O

ut

Inc

en

tiv

e

Sim

ple

Pa

yb

ac

k

Fie

ld

Co

de

No.

of

fixt

ure

s

befo

re t

he

retr

ofit

"Lig

hting F

ixtu

re C

ode"

Exa

mple

2T

40 R

F(U

)

= 2

'x2' T

roff

40 w

Recess.

Flo

or

2 lam

ps U

shape

Code f

rom

T

able

of

Sta

ndard

Fix

ture

Watt

ages

Valu

e f

rom

Table

of

Sta

ndard

Fix

ture

Watt

ages

(Watt

s/F

ixt)

*

(Fix

t N

o.)

Pre

-inst.

contr

ol devic

e

Estim

ate

d d

aily

hours

for

the

usage g

roup

(kW

/space)

*

(Annual H

ours

)

No.

of

fixt

ure

s

aft

er

the r

etr

ofit

"Lig

hting F

ixtu

re C

ode"

Exa

mple

2T

40 R

F(U

)

= 2

'x2' T

roff

40

w R

ecess.

Flo

or

2 lam

ps U

shape

Code f

rom

T

able

of

Sta

ndard

Fix

ture

Watt

ages

Valu

e f

rom

Table

of

Sta

ndard

Fix

ture

Watt

ages

(Watt

s/F

ixt)

*

(Num

ber

of

Fix

ture

s)

Retr

ofit

contr

ol devic

e

Estim

ate

d

annual hours

for

the u

sage

gro

up

(kW

/space)

* (A

nnual

Hours

)

(Origin

al A

nnual

kW

h)

- (R

etr

ofit

Annual kW

h)

(Origin

al A

nnual

kW

) -

(Retr

ofit

Annual kW

)

(kW

h S

aved)

*

($/k

Wh)

Cost

for

renovations t

o

lighting

syste

m

Pre

scriptive

Lig

hting

Measure

s

Length

of

tim

e

for

renovations

cost

to b

e

recovere

d

Length

of

tim

e f

or

renovations c

ost

to

be r

ecovere

d

24

T 3

4 W

F 2

(M

AG

) R

L/R

B

F42E

S80

0.3

SW

520

166

4W

28 W

F 2

F42S

SIL

L48

0.2

SW

520

100

67

0.1

18.2

6$

1,0

00.0

0$

$100

54.8

49.3

29

T 3

4 W

F 2

(M

AG

) R

L/R

B

F42E

S80

0.7

SW

520

374

9W

28 W

F 2

F42S

SIL

L48

0.4

SW

520

225

150

0.3

41.0

9$

2,2

50.0

0$

$225

54.8

49.3

13

1.0

541

13

96

0.6

324

216

0.4

$59

$3,2

50

$325

0.4

$27

216

$32

$59

54.8

49.3

Moosepac S

ew

er

Tre

atm

ent

Filt

er

Room

RE

TR

OF

IT C

ON

DIT

ION

S

Are

a D

escri

pti

on

EX

IST

ING

CO

ND

ITIO

NS

Uniq

ue d

escription o

f th

e location -

Room

num

ber/

Room

nam

e:

Flo

or

num

ber

(if

applic

able

)

To

tal savin

gs

kW

h S

avin

gs

Dem

an

d S

avin

gs

To

tal

CO

ST

& S

AV

ING

S A

NA

LY

SIS

Pum

p R

oom

7/2

1/2

011

Page 1

9, E

CM

-1 M

oosepac

En

erg

y A

ud

it o

f Je

ffe

rso

n T

WP

Fa

cil

itie

s -

Mo

os

ep

ac S

ew

er

Tre

atm

en

tE

CM

-2C

HA

Pro

jec

t N

o.

22

98

3 -

Ma

nu

factu

rin

g a

nd

En

erg

yC

os

t o

f E

lec

tric

ity

:$0.1

50

$/k

Wh

EC

M-2

In

sta

ll O

ccu

pa

nc

y S

en

so

rs$5.3

9$/k

W

No

. o

f

Fix

ture

sS

tan

dard

Fix

ture

Co

de

NY

SE

RD

A F

ixtu

re C

od

e

Wa

tts

pe

r

Fix

ture

kW

/Sp

ac

e

Ex

ist

Co

ntr

ol

An

nu

al

Ho

urs

An

nu

al k

Wh

Nu

mb

er

of

Fix

ture

sS

tan

dard

Fix

ture

Co

de

Fix

ture

Co

de

Wa

tts

pe

r

Fix

ture

kW

/Sp

ac

e

Re

tro

fit

Co

ntr

ol

An

nu

al

Ho

urs

An

nu

al

kW

h

An

nu

al k

Wh

Sa

ve

d

An

nu

al k

W

Sa

ve

d

An

nu

al $

Sa

ve

d

Re

tro

fit

Co

st

NJ

Lig

hti

ng

Inc

en

tiv

e

Sim

ple

Pa

yb

ac

k

Wit

h O

ut

Inc

en

tiv

e

Sim

ple

Pa

yb

ac

k

Fie

ld

Co

de

No.

of

fixt

ure

s

befo

re t

he

retr

ofit

"Lig

hting F

ixtu

re C

ode"

Exa

mple

2T

40 R

F(U

)

= 2

'x2' T

roff

40 w

Recess.

Flo

or

2

lam

ps U

shape

Code f

rom

T

able

of

Sta

ndard

Fix

ture

Watt

ages

Valu

e f

rom

Table

of

Sta

ndard

Fix

ture

Watt

ages

(Watt

s/F

ixt)

*

(Fix

t N

o.)

Pre

-inst.

contr

ol devic

e

Estim

ate

d

annual hours

for

the u

sage

gro

up

(kW

/space)

*

(Annual H

ours

)

No.

of

fixt

ure

s

aft

er

the r

etr

ofit

"Lig

hting F

ixtu

re C

ode"

Exa

mple

2T

40 R

F(U

)

= 2

'x2' T

roff

40

w R

ecess.

Flo

or

2 lam

ps U

shape

Code f

rom

T

able

of

Sta

ndard

Fix

ture

Watt

ages

Valu

e f

rom

Table

of

Sta

ndard

Fix

ture

Watt

ages

(Watt

s/F

ixt)

*

(Num

ber

of

Fix

ture

s)

Retr

ofit

contr

ol devic

e

Estim

ate

d

annual hours

for

the u

sage

gro

up

(kW

/space)

* (A

nnual

Hours

)

(Origin

al A

nnual

kW

h)

- (R

etr

ofit

Annual kW

h)

(Origin

al A

nnual

kW

) -

(Retr

ofit

Annual kW

)

(kW

Saved)

*

($/k

Wh)

Cost

for

renovations t

o

lighting

syste

m

Length

of

tim

e

for

renovations

cost

to b

e

recovere

d

Length

of

tim

e f

or

renovations c

ost

to

be r

ecovere

d

24

T 3

4 W

F 2

(M

AG

) R

L/R

B

F42E

S80

0.3

SW

520

166.4

4T

34 W

F 2

(M

AG

) R

L/R

B

F42E

S80

0.3

none

520

166.4

0.0

0.0

$0.0

0$0.0

0$0.0

0

29

T 3

4 W

F 2

(M

AG

) R

L/R

B

F42E

S80

0.7

SW

520

374.4

9T

34 W

F 2

(M

AG

) R

L/R

B

F42E

S80

0.7

none

520

374.4

0.0

0.0

$0.0

0$0.0

0$0.0

0

13

1.0

541

13

1541

00

0$0

0

0.0

$0

0$0

$0

#D

IV/0

!#D

IV/0

!

Filt

er

Room

Moosepac S

ew

er

Tre

atm

ent

CO

ST

& S

AV

ING

S A

NA

LY

SIS

Are

a D

escri

pti

on

Uniq

ue d

escription o

f th

e location -

Room

num

ber/

Room

nam

e:

Flo

or

num

ber

(if

applic

able

)

EX

IST

ING

CO

ND

ITIO

NS

RE

TR

OF

IT C

ON

DIT

ION

S

Pum

p R

oom

To

tal S

avin

gs

To

tal

Dem

an

d S

avin

gs

kW

h S

avin

gs

7/2

1/2

011

Page 2

0, E

CM

-2 M

oosepac

En

erg

y A

ud

it o

f J

eff

ers

on

TW

P F

ac

ilit

ies

- M

oo

se

pa

c S

ew

er

Tre

atm

en

tE

CM

-3

CH

A P

roje

ct

No

. 2

29

83

- M

an

ufa

ctu

rin

g a

nd

En

erg

yC

os

t o

f E

lec

tric

ity

:$0

.15

0$/k

Wh

EC

M-3

Co

mb

ine

d L

igh

tin

g R

ep

lac

em

en

ts w

ith

Oc

cu

pa

nc

y S

en

so

rs$5

.39

$/k

W

No

. o

f

Fix

ture

sS

tan

dard

Fix

ture

Co

de

NY

SE

RD

A F

ixtu

re C

od

e

Watt

s p

er

Fix

ture

kW

/Sp

ace

Exis

t

Co

ntr

ol

An

nu

al

Ho

urs

An

nu

al kW

h

Nu

mb

er

of

Fix

ture

sS

tan

dard

Fix

ture

Co

de

Fix

ture

Co

de

Watt

s p

er

Fix

ture

kW

/Sp

ace

Retr

ofi

t

Co

ntr

ol

An

nu

al

Ho

urs

An

nu

al

kW

h

An

nu

al kW

h

Saved

An

nu

al kW

Saved

An

nu

al $

Saved

Retr

ofi

t C

ost

NJ L

igh

tin

g

Incen

tive

Sim

ple

Payb

ack

Wit

h O

ut

Incen

tive

Sim

ple

Payb

ack

Fie

ld

Co

de

No. of

fixtu

res

befo

re the r

etr

ofit

"Lig

hting F

ixtu

re C

ode"

Exam

ple

2

T

40

R F

(U)

=

2'x

2' T

roff

40

w R

ecess. F

loor

2

lam

ps U

shape

Code f

rom

T

able

of

Sta

ndard

Fix

ture

Wattages

Valu

e f

rom

Table

of

Sta

ndard

Fix

ture

Wattages

(Watts/F

ixt)

*

(Fix

t N

o.)

Pre

-inst.

contr

ol devic

e

Estim

ate

d d

aily

hours

for

the

usage g

roup

(kW

/space)

*

(Ann

ual H

ours

)

No. of

fixtu

res

aft

er

the r

etr

ofit

"Lig

hting F

ixtu

re C

ode"

Exam

ple

2T

40

R F

(U)

=

2'x

2' T

roff

40

w

Recess. F

loor

2 lam

ps U

shape

Code f

rom

T

able

of

Sta

ndard

Fix

ture

Wattages

Valu

e f

rom

Table

of

Sta

ndard

Fix

ture

Wattages

(Watts/F

ixt)

*

(Num

ber

of

Fix

ture

s)

Retr

ofit

contr

ol devic

e

Estim

ate

d

an

nu

al h

ou

rs

for

the u

sage

gro

up

(kW

/space)

* (A

nn

ual

Hou

rs)

(Origin

al A

nn

ual

kW

h)

- (R

etr

ofit

An

nu

al kW

h)

(Origin

al A

nn

ual

kW

) -

(Retr

ofit

An

nu

al kW

)

(kW

h S

aved)

*

($/k

Wh

)

Cost fo

r

ren

ovation

s to

ligh

tin

g s

yste

m

Pre

scriptive

Lig

htin

g

Measu

res

Len

gth

of

tim

e

for

ren

ovation

s

cost to

be

recovere

d

Len

gth

of

tim

e f

or

ren

ovation

s c

ost to

be r

ecovere

d

24

T

34

W F

2 (

MA

G)

RL/R

B

F42

ES

80

0.3

SW

52

0

16

6

4W

28

W F

2F

42

SS

ILL

48

0.2

non

e5

20

10

0

67

0.1

18

.26

$

1,0

00

.00

$

10

0$

54

.84

9.3

29

T

34

W F

2 (

MA

G)

RL/R

B

F42

ES

80

0.7

SW

52

0

37

4

9W

28

W F

2F

42

SS

ILL

48

0.4

non

e5

20

22

5

15

0

0.3

41

.09

$

2,2

50

.00

$

22

5$

54

.84

9.3

RE

TR

OF

IT C

ON

DIT

ION

S

Uniq

ue d

escription o

f th

e location -

Room

nu

mber/

Room

nam

e: F

loor

nu

mber

(if

applic

able

)

CO

ST

& S

AV

ING

S A

NA

LY

SIS

Are

a D

escri

pti

on

EX

IST

ING

CO

ND

ITIO

NS

Filt

er

Room

Moosepac S

ew

er

Tre

atm

ent

Pum

p R

oom

7/2

1/2

01

1P

ag

e 2

1,

EC

M-3

Moosep

ac

En

erg

y A

ud

it o

f J

eff

ers

on

TW

P F

ac

ilit

ies

- M

oo

se

pa

c S

ew

er

Tre

atm

en

tE

CM

-3

CH

A P

roje

ct

No

. 2

29

83

- M

an

ufa

ctu

rin

g a

nd

En

erg

yC

os

t o

f E

lec

tric

ity

:$0

.15

0$/k

Wh

EC

M-3

Co

mb

ine

d L

igh

tin

g R

ep

lac

em

en

ts w

ith

Oc

cu

pa

nc

y S

en

so

rs$5

.39

$/k

W

No

. o

f

Fix

ture

sS

tan

dard

Fix

ture

Co

de

NY

SE

RD

A F

ixtu

re C

od

e

Watt

s p

er

Fix

ture

kW

/Sp

ace

Exis

t

Co

ntr

ol

An

nu

al

Ho

urs

An

nu

al kW

h

Nu

mb

er

of

Fix

ture

sS

tan

dard

Fix

ture

Co

de

Fix

ture

Co

de

Watt

s p

er

Fix

ture

kW

/Sp

ace

Retr

ofi

t

Co

ntr

ol

An

nu

al

Ho

urs

An

nu

al

kW

h

An

nu

al kW

h

Saved

An

nu

al kW

Saved

An

nu

al $

Saved

Retr

ofi

t C

ost

NJ L

igh

tin

g

Incen

tive

Sim

ple

Payb

ack

Wit

h O

ut

Incen

tive

Sim

ple

Payb

ack

Fie

ld

Co

de

No. of

fixtu

res

befo

re the r

etr

ofit

"Lig

hting F

ixtu

re C

ode"

Exam

ple

2

T

40

R F

(U)

=

2'x

2' T

roff

40

w R

ecess. F

loor

2

lam

ps U

shape

Code f

rom

T

able

of

Sta

ndard

Fix

ture

Wattages

Valu

e f

rom

Table

of

Sta

ndard

Fix

ture

Wattages

(Watts/F

ixt)

*

(Fix

t N

o.)

Pre

-inst.

contr

ol devic

e

Estim

ate

d d

aily

hours

for

the

usage g

roup

(kW

/space)

*

(Ann

ual H

ours

)

No. of

fixtu

res

aft

er

the r

etr

ofit

"Lig

hting F

ixtu

re C

ode"

Exam

ple

2T

40

R F

(U)

=

2'x

2' T

roff

40

w

Recess. F

loor

2 lam

ps U

shape

Code f

rom

T

able

of

Sta

ndard

Fix

ture

Wattages

Valu

e f

rom

Table

of

Sta

ndard

Fix

ture

Wattages

(Watts/F

ixt)

*

(Num

ber

of

Fix

ture

s)

Retr

ofit

contr

ol devic

e

Estim

ate

d

an

nu

al h

ou

rs

for

the u

sage

gro

up

(kW

/space)

* (A

nn

ual

Hou

rs)

(Origin

al A

nn

ual

kW

h)

- (R

etr

ofit

An

nu

al kW

h)

(Origin

al A

nn

ual

kW

) -

(Retr

ofit

An

nu

al kW

)

(kW

h S

aved)

*

($/k

Wh

)

Cost fo

r

ren

ovation

s to

ligh

tin

g s

yste

m

Pre

scriptive

Lig

htin

g

Measu

res

Len

gth

of

tim

e

for

ren

ovation

s

cost to

be

recovere

d

Len

gth

of

tim

e f

or

ren

ovation

s c

ost to

be r

ecovere

d

RE

TR

OF

IT C

ON

DIT

ION

S

Uniq

ue d

escription o

f th

e location -

Room

nu

mber/

Room

nam

e: F

loor

nu

mber

(if

applic

able

)

CO

ST

& S

AV

ING

S A

NA

LY

SIS

Are

a D

escri

pti

on

EX

IST

ING

CO

ND

ITIO

NS

Moosepac S

ew

er

Tre

atm

ent

13

1.0

54

11

30.6

32

40

.45

93

,25

03

25

0.4

$2

7

21

6$

32

$5

95

4.8

49

.3T

ota

l S

av

ing

s

De

ma

nd

Sa

vin

gs

kW

h S

av

ing

s

To

tal

7/2

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01

1P

ag

e 2

2,

EC

M-3

Moosep

ac

NO

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SC

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EN

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GY

SA

VIN

GS

AN

AL

YS

IS -

DIR

EC

T R

EP

LA

CE

ME

NT

MO

TO

RS

EC

M-4

PR

EM

IUM

EF

FIC

IEN

CY

MO

TO

R U

PG

RA

DE

^^^ E

stim

ate

d 5

ho

urs

fo

r 5H

P a

nd 1

2 h

ours

fo

r 75H

P

Jeff

ers

on

To

wn

sh

ip -

Mo

osep

ac

$$$/k

wh:

$0.1

500

(inclu

des a

ll charg

es e

xcept dem

and)

LIS

T P

RIC

EE

LE

CT

RIC

IAN

$$$/k

w:

$5.3

98

Win

ter

Rate

& M

onth

sD

ISC

OU

NT

RA

TE

/HR

$$$/k

w:

$5.3

94

Sum

mer

Rate

& M

onth

s0%

^^^

$125.0

0

ITE

M

MO

TO

RM

OT

OR

DE

SC

RIP

.O

PE

RA

TIN

GS

TD

MO

TO

RE

XIS

T.

EX

IST

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XIS

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PR

EM

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PD

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OP

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OR

TO

TA

LC

OS

T p

er

#B

LD

G. (#

)M

OT

OR

LO

CA

TIO

NF

UN

CT

ION

HP

/OD

P,T

EF

C/R

PM

HO

UR

S/Y

RA

MP

SV

OL

TS

PF

KW

EF

F.

LO

AD

KW

KW

H$$$

EF

F.

FA

CT

OR

KW

KW

H$$$

KW

KW

H$/Y

RP

AY

BA

CK

RP

MO

DP

,TE

FC

RE

BA

TE

FL

-RP

MF

L-R

PM

YE

S/N

OH

PC

OS

TM

AN

-HR

SM

AN

-HR

SC

OS

TC

OS

TH

P

1M

oo

sepak

Suberm

isble

EQ

Pum

p5/T

EF

C/1

800

8760

12.1

240

0.9

4.5

82.5

%100%

4.5

39,6

06

$6,2

33

89.5

%1.0

32

4.3

37,6

60

$5,9

27

0.2

22

1,9

46

$306

3.6

1800

TE

FC

$60

1,7

30

1,7

48

NO

5.0

$525

5.0

0.0

$625

$1,1

50

$230

2M

oo

sepak

Blo

wer

Ho

use

Co

mpre

sso

r10/T

EF

C/1

800

8760

23.3

240

0.9

8.7

85.5

%100%

8.7

76,4

32

$12,0

29

91.7

%1.0

05

8.2

71,6

31

$11,2

73

0.5

48

4,8

02

$756

1.9

1800

TE

FC

$100

1,7

55

1,7

58

NO

10.0

$828

5.5

0.0

$688

$1,5

16

$152

3M

oo

sepak

Blo

wer

Ho

use

Co

mpre

sso

r10/T

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C/1

800

8760

23.3

240

0.9

8.7

85.5

%100%

8.7

76,4

32

$12,0

29

91.7

%1.0

05

8.2

71,6

31

$11,2

73

0.5

48

4,8

02

$756

1.9

1800

TE

FC

$100

1,7

55

1,7

58

NO

10.0

$828

5.5

0.0

$688

$1,5

16

$152

TO

TA

LS

:

22

192,4

70

$30,2

92

21

180,9

21

$28,4

74

1.3

11,5

49

$1,8

18

2.2

$260

25

$2,1

81

$2,0

00

$4,1

81

$167

NO

TE

S:

"Off

" -

Mo

tor

off

- 7

0%

mo

tor

load

ing

assu

med

.

"N/A

" -

Mo

tor

or

co

ntr

ol p

an

el/d

isco

nn

ect

inaccessib

le -

70%

mo

tor

load

ing

assu

med

.

Bu

ildin

g

# o

f

Mo

tors

Lead

/

Lag

HP

Ru

n

Tim

e

Exis

tin

g

Eff.

Pro

po

sed

Eff.

No

tes

Re

bat

es

ea

Tota

l

Re

bat

es

CA

LC

UL

AT

ION

FO

RM

UL

AS

:W

hite R

ock

2Y

7.5

8,7

60

84.0

%91

.7%

Subm

ers

ible

$90

90

E

xis

tin

g M

oto

r kW

= M

ete

red

kW

(if

N/A

or

Off

, E

xis

t. k

W =

HP

x 0

.7 x

0.7

46 / M

oto

r E

ff.)

White R

ock

4Y

58,7

60

81.5

%89

.5%

Subm

ers

ible

$60

120

M

oto

r L

oad

ing

= M

ete

red

kW

x E

xis

t. M

oto

r E

ff. / M

oto

r H

p / 0

.746

White R

ock

2Y

10

8,7

60

90.2

%91

.7%

Blo

wer

$100

100

S

peed

Ratio

Co

rrectio

n F

acto

r =

(N

ew

RP

M / O

ld R

PM

)^3

White R

ock

2Y

25

8,7

60

87.5

%93

.6%

Blo

wer

$130

130

P

rop

osed

Mo

tor

kW

= M

oto

r H

p x

0.7

46 x

Mo

tor

Lo

ad

/ P

rop

osed

Mo

tor

Eff

. x S

peed

Ratio

Co

rr. F

acto

rM

oo

sepack

4Y

58,7

60

85.0

%89

.5%

EQ

Pum

p$60

120

Mo

osepack

3Y

10

8,7

60

90.2

%91

.7%

Air C

om

pre

sso

r$100

200

7/2

1/2

011

$760

V:\

Pro

jects

\AN

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2\2

2983\T

ech\C

alc

s\[

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MO

TO

RS

Moosepack

Page

49

of

53

Pre

par

ed B

y:__

____

____

___

Ch

ecke

d B

y:__

____

____

___

Appendix C

Equipment Inventory

Municipal Building

En

erg

y A

ud

it o

f Jeff

ers

on

TW

P F

acil

itie

s -

Mu

nic

ipal

Bu

ild

ing

CH

A P

roje

ct

No

. 22983 -

Man

ufa

ctu

rin

g a

nd

En

erg

yC

os

t o

f E

lectr

icit

y:

$0.1

49

$/k

Wh

Exis

tin

g L

igh

tin

g$6.0

1$/k

W

No

. o

f

Fix

ture

sS

tan

dard

Fix

ture

Co

de

NY

SE

RD

A F

ixtu

re C

od

e

Watt

s p

er

Fix

ture

kW

/Sp

ace

Ex

ist

Co

ntr

ol

An

nu

al

Ho

urs

Retr

ofi

t

Co

ntr

ol

An

nu

al

kW

h

No. of

fixtu

res

befo

re the

retr

ofit

"Lig

hting F

ixtu

re C

ode"

Exam

ple

2T

40 R

F(U

) =

2'x

2' T

roff

40 w

Recess. F

loor

2

lam

ps U

shape

Code f

rom

T

able

of

Sta

nda

rd

Fix

ture

Wattages

Valu

e f

rom

Ta

ble

of

Sta

nda

rd

Fix

ture

Wattages

(Watts/F

ixt)

*

(Fix

t N

o.)

Pre

-in

st. c

ontr

ol

devic

e

Estim

ate

d

annu

al hours

for

the u

sage

gro

up

Retr

ofit

contr

ol devic

e

(kW

/space)

*

(Annua

l

Hours

)

To

wn H

all

1W

32 C

F 2

(E

LE

)F

42LL

60

0.1

SW

31

20

no

ne

18

7

12

2B

34 R

F 2

(u)

(MA

G)

FU

2E

E7

20.9

SW

31

20

no

ne

2,6

96

1S

P 6

5 I

I65/1

65

0.1

SW

31

20

no

ne

20

3

15

W 4

0 C

F 4

(M

AG

)F

44S

S1

88

2.8

SW

20

00

occ

5,6

40

7S

P 7

5 I

I75/1

75

0.5

SW

20

00

no

ne

1,0

50

3S

P 7

5 I

I75/1

75

0.2

SW

20

00

no

ne

45

0

4W

40 C

F 4

(M

AG

)F

44S

S1

88

0.8

SW

20

00

occ

1,5

04

8W

40 C

F 4

(M

AG

)F

44S

S1

88

1.5

SW

20

80

occ

3,1

28

10

2B

34 R

F 2

(u)

(MA

G)

FU

2E

E7

20.7

SW

31

20

no

ne

2,2

46

42B

34 R

F 2

(u)

(MA

G)

FU

2E

E7

20.3

SW

31

20

no

ne

89

9

52B

34 R

F 2

(u)

(MA

G)

FU

2E

E7

20.4

SW

31

20

no

ne

1,1

23

82B

34 R

F 2

(u)

(MA

G)

FU

2E

E7

20.6

SW

31

20

no

ne

1,7

97

Bre

ak R

oom

9W

40 C

F 4

(M

AG

)F

44S

S1

88

1.7

SW

20

80

occ

3,5

19

Kitchen

1W

40 C

F 4

(M

AG

)F

44S

S1

88

0.2

SW

20

00

occ

37

6

Kitchen

1W

40 C

F 4

(M

AG

)F

44S

S1

88

0.2

SW

20

00

occ

37

6

Kitchen H

all

12B

34 R

F 2

(u)

(MA

G)

FU

2E

E7

20.1

SW

20

80

no

ne

15

0

Kitchen S

tora

ge

1W

20 W

F 2

(M

AG

)F

22S

S5

60.1

SW

20

80

no

ne

11

6

Custo

dia

l O

ffic

e1

W 4

0 C

F 4

(M

AG

)F

44S

S1

88

0.2

SW

20

80

occ

39

1

Mens R

estr

oom

1W

20 W

F 2

(M

AG

)F

22S

S5

60.1

SW

20

80

no

ne

11

6

Wom

ens R

estr

oom

1W

20 W

F 2

(M

AG

)F

22S

S5

60.1

SW

20

80

no

ne

11

6

Health D

irecto

r2

W 4

0 C

F 4

(M

AG

)F

44S

S1

88

0.4

SW

20

80

occ

78

2

Health D

epart

ment

6W

40 C

F 4

(M

AG

)F

44S

S1

88

1.1

SW

20

80

occ

2,3

46

Sanitary

2W

40 C

F 4

(M

AG

)F

44S

S1

88

0.4

SW

20

80

occ

78

2

Fir

e D

epart

ment

2W

40 C

F 4

(M

AG

)F

44S

S1

88

0.4

SW

20

80

occ

78

2

Pro

secuto

r2

W 4

0 C

F 4

(M

AG

)F

44S

S1

88

0.4

SW

20

80

occ

78

2

Assesor

4W

40 C

F 4

(M

AG

)F

44S

S1

88

0.8

SW

20

80

occ

1,5

64

Wom

ens H

andic

appe

d R

estr

oom

1W

20 W

F 2

(M

AG

)F

22S

S5

60.1

SW

20

80

no

ne

11

6

Pla

nnin

g4

W 4

0 C

F 4

(M

AG

)F

44S

S1

88

0.8

SW

20

80

occ

1,5

64

Vault

6W

40 C

F 4

(M

AG

)F

44S

S1

88

1.1

SW

20

80

no

ne

2,3

46

Copy C

ente

r2

W 4

0 C

F 4

(M

AG

)F

44S

S1

88

0.4

SW

31

20

no

ne

1,1

73

Jim

's O

ffic

e4

W 4

0 C

F 4

(M

AG

)F

44S

S1

88

0.8

SW

20

80

occ

1,5

64

Mayor's S

ecre

tary

's O

ffic

e2

W 4

0 C

F 4

(M

AG

)F

44S

S1

88

0.4

SW

20

80

occ

78

2

EX

IST

ING

CO

ND

ITIO

NS

Are

a D

escri

pti

on

Uniq

ue d

escription o

f th

e location -

Room

num

ber/

Room

nam

e: F

loor

num

ber

(if applic

able

)

Little R

oom

Lo

bb

y

Hall

1

Rear

Hall

Lo

bb

y

Meeting R

oo

m

Meeting R

oo

m

Confe

rence R

oom

Hall

2

Meeting R

oo

m

Ta

x O

ffic

e

Hall

Restr

oo

m A

rea

7/2

1/2

01

1P

age

1, E

xist

ing

Mai

n B

uild

ing

En

erg

y A

ud

it o

f Jeff

ers

on

TW

P F

acil

itie

s -

Mu

nic

ipal

Bu

ild

ing

CH

A P

roje

ct

No

. 22983 -

Man

ufa

ctu

rin

g a

nd

En

erg

yC

os

t o

f E

lectr

icit

y:

$0.1

49

$/k

Wh

Exis

tin

g L

igh

tin

g$6.0

1$/k

W

No

. o

f

Fix

ture

sS

tan

dard

Fix

ture

Co

de

NY

SE

RD

A F

ixtu

re C

od

e

Watt

s p

er

Fix

ture

kW

/Sp

ace

Ex

ist

Co

ntr

ol

An

nu

al

Ho

urs

Retr

ofi

t

Co

ntr

ol

An

nu

al

kW

h

No. of

fixtu

res

befo

re the

retr

ofit

"Lig

hting F

ixtu

re C

ode"

Exam

ple

2T

40 R

F(U

) =

2'x

2' T

roff

40 w

Recess. F

loor

2

lam

ps U

shape

Code f

rom

T

able

of

Sta

nda

rd

Fix

ture

Wattages

Valu

e f

rom

Ta

ble

of

Sta

nda

rd

Fix

ture

Wattages

(Watts/F

ixt)

*

(Fix

t N

o.)

Pre

-in

st. c

ontr

ol

devic

e

Estim

ate

d

annu

al hours

for

the u

sage

gro

up

Retr

ofit

contr

ol devic

e

(kW

/space)

*

(Annua

l

Hours

)

EX

IST

ING

CO

ND

ITIO

NS

Are

a D

escri

pti

on

Uniq

ue d

escription o

f th

e location -

Room

num

ber/

Room

nam

e: F

loor

num

ber

(if applic

able

)

Mayor's O

ffic

e6

W 4

0 C

F 4

(M

AG

)F

44S

S1

88

1.1

SW

20

80

occ

2,3

46

CF

O4

W 4

0 C

F 4

(M

AG

)F

44S

S1

88

0.8

SW

20

80

occ

1,5

64

Back H

all

42B

34 R

F 2

(u)

(MA

G)

FU

2E

E7

20.3

SW

31

20

no

ne

89

9

Fin

ance

2W

40 C

F 4

(M

AG

)F

44S

S1

88

0.4

SW

20

80

occ

78

2

CF

O's

Secre

tary

2W

40 C

F 4

(M

AG

)F

44S

S1

88

0.4

SW

20

80

occ

78

2

Code E

nfo

rcem

ent

2T

32 R

F 3

(E

LE

)F

43LE

11

00.2

SW

20

80

occ

45

8

Payro

ll2

W 4

0 C

F 4

(M

AG

)F

44S

S1

88

0.4

SW

20

80

occ

78

2

Build

ing D

ep

art

ment

4W

40 C

F 4

(M

AG

)F

44S

S1

88

0.8

SW

20

80

occ

1,5

64

Rear

Vestibu

le1

2B

34 R

F 2

(u)

(MA

G)

FU

2E

E7

20.1

SW

31

20

no

ne

22

5

Purc

hasin

g2

W 4

0 C

F 4

(M

AG

)F

44S

S1

88

0.4

SW

20

80

occ

78

2

Build

ing Inspecto

r2

W 4

0 C

F 4

(M

AG

)F

44S

S1

88

0.4

SW

20

80

occ

78

2

Utilit

y D

epart

ment

4W

40 C

F 4

(M

AG

)F

44S

S1

88

0.8

SW

20

80

occ

1,5

64

Mens H

andic

appe

d R

estr

oom

1W

20 W

F 2

(M

AG

)F

22S

S5

60.1

SW

20

80

no

ne

11

6

Cle

rk's

Depart

ment

6W

40 C

F 4

(M

AG

)F

44S

S1

88

1.1

SW

20

80

occ

2,3

46

Exit S

igns (

Old

)4

XX

9 C

F 2

EC

F9

/22

00.1

SW

87

36

no

ne

69

9

Exit S

igns (

New

)2

XX

3.0

W C

F 2

ELE

D1.5

/23

0.0

SW

87

36

no

ne

52

Main

Entr

ance

3S

P 1

00 W

I 2

i100/2

20

00.6

SW

87

36

daylig

ht

5,2

42

NW

Entr

ance

2R

100 C

I 1

i100/1

10

00.2

SW

87

36

daylig

ht

1,7

47

Gara

ge E

ntr

ance

2R

100 C

I 1

i100/1

10

00.2

SW

87

36

daylig

ht

1,7

47

Rear

Entr

an

ce

2R

100 C

I 1

i100/1

10

00.2

SW

87

36

daylig

ht

1,7

47

East R

ear

Entr

ance

2R

100 C

I 1

i100/1

10

00.2

SW

87

36

daylig

ht

1,7

47

Fro

nt P

ark

ing L

ot

10

WP

200 I 1

i200/1

20

02.0

SW

36

40

daylig

ht

7,2

80

Rear

Park

ing

Lot

7W

P200 I 1

i200/1

20

01.4

SW

36

40

daylig

ht

5,0

96

7/2

1/2

01

1P

age

2, E

xist

ing

Mai

n B

uild

ing

En

erg

y A

ud

it o

f Jeff

ers

on

TW

P F

acil

itie

s -

Mu

nic

ipal

Bu

ild

ing

CH

A P

roje

ct

No

. 22983 -

Man

ufa

ctu

rin

g a

nd

En

erg

yC

os

t o

f E

lectr

icit

y:

$0.1

49

$/k

Wh

Exis

tin

g L

igh

tin

g$6.0

1$/k

W

No

. o

f

Fix

ture

sS

tan

dard

Fix

ture

Co

de

NY

SE

RD

A F

ixtu

re C

od

e

Watt

s p

er

Fix

ture

kW

/Sp

ace

Ex

ist

Co

ntr

ol

An

nu

al

Ho

urs

Retr

ofi

t

Co

ntr

ol

An

nu

al

kW

h

No. of

fixtu

res

befo

re the

retr

ofit

"Lig

hting F

ixtu

re C

ode"

Exam

ple

2T

40 R

F(U

) =

2'x

2' T

roff

40 w

Recess. F

loor

2

lam

ps U

shape

Code f

rom

T

able

of

Sta

nda

rd

Fix

ture

Wattages

Valu

e f

rom

Ta

ble

of

Sta

nda

rd

Fix

ture

Wattages

(Watts/F

ixt)

*

(Fix

t N

o.)

Pre

-in

st. c

ontr

ol

devic

e

Estim

ate

d

annu

al hours

for

the u

sage

gro

up

Retr

ofit

contr

ol devic

e

(kW

/space)

*

(Annua

l

Hours

)

EX

IST

ING

CO

ND

ITIO

NS

Are

a D

escri

pti

on

Uniq

ue d

escription o

f th

e location -

Room

num

ber/

Room

nam

e: F

loor

num

ber

(if applic

able

)

Polic

e S

tation

Record

s R

oo

m2

W 4

0 C

F 4

(M

AG

)F

44S

S1

88

0.4

SW

29

12

occ

1,0

95

Chie

f's O

ffic

e2

W 4

0 C

F 4

(M

AG

)F

44S

S1

88

0.4

SW

29

12

occ

1,0

95

Chie

f's S

ecre

tary

2W

40 C

F 4

(M

AG

)F

44S

S1

88

0.4

SW

29

12

occ

1,0

95

Polic

e S

tation H

allw

ays

14

2B

34 R

F 2

(u)

(MA

G)

FU

2E

E7

21.0

SW

87

36

no

ne

8,8

06

Locker

Room

4W

40 C

F 4

(M

AG

)F

44S

S1

88

0.8

SW

29

12

no

ne

2,1

90

Locker

Room

Restr

oom

12B

34 R

F 2

(u)

(MA

G)

FU

2E

E7

20.1

SW

29

12

no

ne

21

0

Dete

ctive

4W

40 C

F 4

(M

AG

)F

44S

S1

88

0.8

SW

29

12

occ

2,1

90

Lt. D

ete

ctive

2W

40 C

F 4

(M

AG

)F

44S

S1

88

0.4

SW

29

12

occ

1,0

95

Kitchen

2W

40 C

F 4

(M

AG

)F

44S

S1

88

0.4

SW

20

00

occ

75

2

Sto

rage

6W

40 C

F 2

(M

AG

)F

42S

S9

40.6

SW

20

00

occ

1,1

28

Sm

all

Locke

r A

rea

1W

40 C

F 2

(M

AG

)F

42S

S9

40.1

SW

29

12

no

ne

27

4

Room

11

W 4

0 C

F 2

(M

AG

)F

42S

S9

40.1

SW

29

12

no

ne

27

4

Room

21

W 4

0 C

F 2

(M

AG

)F

42S

S9

40.1

SW

29

12

no

ne

27

4

Patr

ol C

om

mand

2W

40 C

F 4

(M

AG

)F

44S

S1

88

0.4

SW

87

36

no

ne

3,2

85

Shift S

uperv

isor

22B

34 R

F 2

(u)

(MA

G)

FU

2E

E7

20.1

SW

87

36

no

ne

1,2

58

Com

pute

r R

oom

3W

40 C

F 4

(M

AG

)F

44S

S1

88

0.6

SW

29

12

no

ne

1,6

42

Dis

patc

h8

W 3

2 C

F 1

F4

1LL

32

0.3

SW

87

36

no

ne

2,2

36

Dis

patc

h3

W 4

0 C

F 4

(M

AG

)F

44S

S1

88

0.6

SW

29

12

no

ne

1,6

42

Polic

e S

tation L

obb

y3

W 3

4 W

F 1

(M

AG

)F

41E

E4

30.1

SW

87

36

no

ne

1,1

27

Polic

e S

tation L

obb

y5

2B

34 R

F 2

(u)

(MA

G)

FU

2E

E7

20.4

SW

87

36

no

ne

3,1

45

Polic

e S

tation M

ens R

estr

oom

1W

20 W

F 2

(M

AG

)F

22S

S5

60.1

SW

20

80

no

ne

11

6

Polic

e S

tation W

om

ens R

estr

oom

1W

20 W

F 2

(M

AG

)F

22S

S5

60.1

SW

20

80

no

ne

11

6

Vio

lations B

ure

au 1

2W

40 C

F 4

(M

AG

)F

44S

S1

88

0.4

SW

29

12

occ

1,0

95

Vio

lations B

ure

au 2

2W

40 C

F 4

(M

AG

)F

44S

S1

88

0.4

SW

29

12

occ

1,0

95

Vio

lations B

ure

au 3

2W

40 C

F 4

(M

AG

)F

44S

S1

88

0.4

SW

29

12

occ

1,0

95

Wom

en O

ffic

ers

Restr

oom

1W

20 W

F 2

(M

AG

)F

22S

S5

60.1

SW

20

80

no

ne

11

6

7/2

1/2

01

1P

age

3, E

xist

ing

Mai

n B

uild

ing

Eq

uip

Inve

ntor

y Je

ffer

son

TW

PT

own

Hal

l and

Pol

ice

Dep

artm

ent

New

Jer

sey

BP

U E

ner

gy

Au

dit

Pro

gra

mC

HA

#22

983

Jeff

erso

n T

ow

nsh

ip -

Mu

nic

ipal

Co

mp

lex

To

wn

Hal

l an

d P

oli

ce S

tati

on

Des

crip

tio

nQ

TY

Man

ufa

ctu

rer

Nam

eM

od

el N

o.

Ser

ial

No

.E

qu

ipm

ent

Typ

e /

Uti

lity

Cap

acit

y/S

ize

/Eff

icie

ncy

Lo

cati

on

Are

as/E

qu

ipm

ent

Ser

ved

Dat

e In

stal

led

Rem

ain

ing

Use

ful

Lif

e (y

ears

)O

ther

In

fo.

RH

U-1

1Y

ork

DU

HC

-T03

6N10

0AN

KLM

0975

67H

eatin

g /

Nat

ural

G

as/E

lect

ric C

oolin

g10

0,00

0 B

tuh

/ 3

Ton

Roo

fB

uild

ing

2002

RH

U-8

1Y

ork

DU

HC

-T03

6N10

0AN

KLM

0975

64H

eatin

g /

Nat

ural

G

as/E

lect

ric C

oolin

g10

0,00

0 B

tuh

/ 3

Ton

Roo

fB

uild

ing

2002

RH

U-2

1Y

ork

DA

YA

-F03

0N07

0CN

ELM

0445

19H

eatin

g /

Nat

ural

G

as/E

lect

ric C

oolin

g70

,000

Btu

h /

2.5

Ton

Roo

fB

uild

ing

2002

RH

U-5

1Y

ork

DA

YA

-F03

0N07

0CN

ELM

0445

21H

eatin

g /

Nat

ural

G

as/E

lect

ric C

oolin

g70

,000

Btu

h /

2.5

Ton

Roo

fB

uild

ing

2002

RH

U-6

1Y

ork

DA

YA

-F03

0N07

0CN

HLM

0844

78H

eatin

g /

Nat

ural

G

as/E

lect

ric C

oolin

g70

,000

Btu

h /

2.5

Ton

Roo

fB

uild

ing

2002

RH

U-7

1Y

ork

DH

UC

-T06

0N12

5AN

GK

M08

8382

Hea

ting

/ N

atur

al

Gas

/Ele

ctric

Coo

ling

125,

000

Btu

h /

5 T

onR

oof

Bui

ldin

g20

01

RH

U-1

01

Yor

kD

HU

C-T

060N

125A

NK

KM

1110

77H

eatin

g /

Nat

ural

G

as/E

lect

ric C

oolin

g12

5,00

0 B

tuh

/ 5

Ton

Roo

fB

uild

ing

2001

RH

U-1

31

Yor

kD

HU

C-T

060N

125A

NK

KM

1110

75H

eatin

g /

Nat

ural

G

as/E

lect

ric C

oolin

g12

5,00

0 B

tuh

/ 5

Ton

Roo

fB

uild

ing

2001

RH

U-9

1Y

ork

DA

YA

-F01

8N04

5CN

KLM

0989

54H

eatin

g /

Nat

ural

G

as/E

lect

ric C

oolin

g45

,000

Btu

h /

1.5

Ton

Roo

fB

uild

ing

2002

RH

U-3

1Y

ork

DA

YA

-F01

8N04

5CH

eatin

g /

Nat

ural

G

as/E

lect

ric C

oolin

g45

,000

Btu

h /

1.5

Ton

Roo

fB

uild

ing

RH

U-4

1Y

ork

DA

YA

-F02

4N04

5CN

HLM

0838

67H

eatin

g /

Nat

ural

G

as/E

lect

ric C

oolin

g45

,000

Btu

h /

2 T

onR

oof

Bui

ldin

g20

02

RH

U-1

11

Yor

kD

L-07

N18

AT

AA

A1A

NK

JM12

6462

Hea

ting

/ N

atur

al

Gas

/Ele

ctric

Coo

ling

180,

000

Btu

hR

oof

Bui

ldin

g20

00

RH

U-1

21

Yor

kD

HU

C-T

048N

125A

NK

KM

1095

12H

eatin

g /

Nat

ural

G

as/E

lect

ric C

oolin

g12

5,00

0 B

tuh

/ 4

Ton

Roo

fB

uild

ing

2001

RH

U-1

41

Luxa

ireD

AP

Z-F

024A

AN

1F00

2725

8H

eatin

g /

Nat

ural

G

as/E

lect

ric C

oolin

g45

,000

Btu

h /

2 T

onR

oof

Bui

ldin

g

PD

Wat

er H

eate

r1

Gen

eral

Ele

ctric

GE

50M

06A

AG

GE

080

9B33

887

Ele

ctric

Wat

er H

eate

r50

Gal

./45

00W

Sto

rag

e R

oom

Bui

ldin

g20

09

White Rock WWTP

En

erg

y A

ud

it o

f Jeff

ers

on

TW

P F

acil

itie

s -

Wh

ite R

ock S

ew

er

Tre

atm

en

t

CH

A P

roje

ct

No

. 22983 -

Man

ufa

ctu

rin

g a

nd

En

erg

yC

os

t o

f E

lectr

icit

y:

$0.1

49

$/k

Wh

Exis

tin

g L

igh

tin

g$5.5

5$/k

W

No

. o

f

Fix

ture

sS

tan

dard

Fix

ture

Co

de

NY

SE

RD

A F

ixtu

re C

od

e

Watt

s p

er

Fix

ture

kW

/Sp

ace

Ex

ist

Co

ntr

ol

An

nu

al

Ho

urs

Retr

ofi

t

Co

ntr

ol

An

nu

al

kW

h

No. of

fixtu

res

befo

re the

retr

ofit

"Lig

hting F

ixtu

re C

ode"

Exam

ple

2T

40 R

F(U

) =

2'x

2' T

roff

40 w

Recess. F

loor

2

lam

ps U

shape

Code f

rom

T

able

of

Sta

nda

rd

Fix

ture

Wattages

Valu

e f

rom

Ta

ble

of

Sta

nda

rd

Fix

ture

Wattages

(Watts/F

ixt)

*

(Fix

t N

o.)

Pre

-in

st. c

ontr

ol

devic

e

Estim

ate

d

annu

al hours

for

the u

sage

gro

up

Retr

ofit

contr

ol devic

e

(kW

/space)

*

(Annua

l

Hours

)

Whitero

ck S

ew

er

Tre

atm

ent

La

b6

W 4

0 C

F 4

(M

AG

)F

44S

S1

88

1.1

SW

29

12

occ

3,2

85

Off

ice

3W

40 C

F 4

(M

AG

)F

44S

S1

88

0.6

SW

29

12

occ

1,6

42

Washro

om

4W

40 C

F 4

(M

AG

)F

44S

S1

88

0.8

SW

29

12

occ

2,1

90

Meeting R

oo

m3

W 4

0 C

F 4

(M

AG

)F

44S

S1

88

0.6

SW

20

00

occ

1,1

28

Hallw

ay

3W

40 C

F 4

(M

AG

)F

44S

S1

88

0.6

SW

29

12

no

ne

1,6

42

EX

IST

ING

CO

ND

ITIO

NS

Are

a D

escri

pti

on

Uniq

ue d

escription o

f th

e location -

Room

num

ber/

Room

nam

e: F

loor

num

ber

(if applic

able

)

7/2

1/2

01

1P

age

4, E

xist

ing

Wh

ite

Ro

ck

Eq

uip

Inve

ntor

y Je

ffer

son

TW

PW

hite

rock

Sew

er T

reat

men

t

New

Jer

sey

BP

U E

ner

gy

Au

dit

Pro

gra

mC

HA

#22

983

Jeff

erso

n T

ow

nsh

ip -

Mu

nic

ipal

Co

mp

lex

Wh

iter

ock

Sew

er T

reat

men

t

Des

crip

tio

nQ

TY

Man

ufa

ctu

rer

Nam

eM

od

el N

o.

Ser

ial

No

.E

qu

ipm

ent

Typ

e /

Uti

lity

Cap

acit

y/S

ize

/Eff

icie

ncy

Lo

cati

on

Are

as/E

qu

ipm

ent

Ser

ved

Dat

e In

stal

led

Rem

ain

ing

Use

ful

Lif

e (y

ears

)O

ther

In

fo.

Pum

p M

otor

4Li

ncol

n 21

5TP

ump

Mot

or5H

P/1

170R

PM

/81.

5 N

om.E

ff.

Mot

or2

Tos

hiba

"TIK

K"

9804

0766

0M

otor

25H

P/1

765R

PM

/92.

4No

m.E

ff.

Sub

mer

sibl

e M

otor

2S

ubm

eris

ble

Mot

or7.

5HP

Blo

wer

Mot

or2

Blo

wer

Mot

or10

HP

Wat

er H

eate

r1

Sta

te I

ndus

trie

sE

S65

0DO

RS

C05

J023

017

Ele

ctric

Wat

er H

eate

r50

Gal

./45

00W

Was

hroo

mB

uild

ing

2005

2W

indo

w A

C U

nit

Ele

ctric

Fin

Tub

e R

adia

tion

Per

imite

r M

ain

Bui

ldin

g4

Ele

ctic

Fan

Coi

l Uni

tO

ut B

uild

ing

s

Moosepac WWTP

En

erg

y A

ud

it o

f Jeff

ers

on

TW

P F

acil

itie

s -

Mo

osep

ac S

ew

er

Tre

atm

en

t

CH

A P

roje

ct

No

. 22983 -

Man

ufa

ctu

rin

g a

nd

En

erg

yC

os

t o

f E

lectr

icit

y:

$0.1

50

$/k

Wh

Exis

tin

g L

igh

tin

g$5.3

9$/k

W

No

. o

f

Fix

ture

sS

tan

dard

Fix

ture

Co

de

NY

SE

RD

A F

ixtu

re C

od

e

Watt

s p

er

Fix

ture

kW

/Sp

ace

Ex

ist

Co

ntr

ol

An

nu

al

Ho

urs

Retr

ofi

t

Co

ntr

ol

An

nu

al

kW

h

No. of

fixtu

res

befo

re the

retr

ofit

"Lig

hting F

ixtu

re C

ode"

Exam

ple

2T

40 R

F(U

) =

2'x

2' T

roff

40 w

Recess. F

loor

2

lam

ps U

shape

Code f

rom

T

able

of

Sta

nda

rd

Fix

ture

Wattages

Valu

e f

rom

Ta

ble

of

Sta

nda

rd

Fix

ture

Wattages

(Watts/F

ixt)

*

(Fix

t N

o.)

Pre

-in

st. c

ontr

ol

devic

e

Estim

ate

d

annu

al hours

for

the u

sage

gro

up

Retr

ofit

contr

ol devic

e

(kW

/space)

*

(Annua

l

Hours

)

Moosep

ac S

ew

er

Tre

atm

ent

Pum

p R

oom

4T

34 W

F 2

(M

AG

) R

L/R

B

F4

2E

S8

00.3

SW

52

0n

on

e1

66

Filt

er

Room

9T

34 W

F 2

(M

AG

) R

L/R

B

F4

2E

S8

00.7

SW

52

0n

on

e3

74

EX

IST

ING

CO

ND

ITIO

NS

Are

a D

escri

pti

on

Uniq

ue d

escription o

f th

e location -

Room

num

ber/

Room

nam

e: F

loor

num

ber

(if applic

able

)

7/2

1/2

01

1P

age

5, E

xist

ing

Mo

ose

pac

Eq

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Appendix D

EPA Portfolio Manager

Municipal Building

OMB No. 2060-0347

STATEMENT OF ENERGY PERFORMANCEJefferson Township Municipal Building

Building ID: 2774641 For 12-month Period Ending: December 31, 20101

Date SEP becomes ineligible: N/A Date SEP Generated: July 25, 2011

FacilityJefferson Township Municipal Building1033 Weldon Rd.Oak Ridge, NJ 07438

Facility OwnerN/A

Primary Contact for this FacilityN/A

Year Built: 1972Gross Floor Area (ft2): 16,610

Energy Performance Rating2 (1-100) 40

Site Energy Use Summary3

Electricity - Grid Purchase(kBtu) 1,051,920 Propane (kBtu) 403,561 Natural Gas - (kBtu)4 0 Total Energy (kBtu) 1,455,481

Energy Intensity5 Site (kBtu/ft2/yr) 88 Source (kBtu/ft2/yr) 236 Emissions (based on site energy use) Greenhouse Gas Emissions (MtCO2e/year) 175 Electric Distribution Utility Jersey Central Power & Light Co [FirstEnergy Corp] National Average Comparison National Average Site EUI 79 National Average Source EUI 213 % Difference from National Average Source EUI 11% Building Type Office

Stamp of Certifying Professional

Based on the conditions observed at thetime of my visit to this building, I certify that

the information contained within thisstatement is accurate.

Meets Industry Standards6 for Indoor EnvironmentalConditions:Ventilation for Acceptable Indoor Air Quality N/A Acceptable Thermal Environmental Conditions N/A Adequate Illumination N/A

Certifying ProfessionalN/A

Notes: 1. Application for the ENERGY STAR must be submitted to EPA within 4 months of the Period Ending date. Award of the ENERGY STAR is not final until approval is received from EPA.2. The EPA Energy Performance Rating is based on total source energy. A rating of 75 is the minimum to be eligible for the ENERGY STAR.3. Values represent energy consumption, annualized to a 12-month period.4. Values represent energy intensity, annualized to a 12-month period.5. Based on Meeting ASHRAE Standard 62 for ventilation for acceptable indoor air quality, ASHRAE Standard 55 for thermal comfort, and IESNA Lighting Handbook for lighting quality.

The government estimates the average time needed to fill out this form is 6 hours (includes the time for entering energy data, Licensed Professional facility inspection, and notarizing the SEP) andwelcomes suggestions for reducing this level of effort. Send comments (referencing OMB control number) to the Director, Collection Strategies Division, U.S., EPA (2822T), 1200 Pennsylvania Ave.,NW, Washington, D.C. 20460.

EPA Form 5900-16

ENERGY STAR®

Data Checklistfor Commercial Buildings

In order for a building to qualify for the ENERGY STAR, a Professional Engineer (PE) or a Registered Architect (RA) must validate the accuracy of the data underlyingthe building's energy performance rating. This checklist is designed to provide an at-a-glance summary of a property's physical and operating characteristics, as well asits total energy consumption, to assist the PE or RA in double-checking the information that the building owner or operator has entered into Portfolio Manager.

Please complete and sign this checklist and include it with the stamped, signed Statement of Energy Performance.NOTE: You must check each box to indicate that each value is correct, OR include a note.

CRITERION VALUE AS ENTERED INPORTFOLIO MANAGER VERIFICATION QUESTIONS NOTES

Building Name Jefferson TownshipMunicipal Building

Is this the official building name to be displayed inthe ENERGY STAR Registry of LabeledBuildings?

Type Office Is this an accurate description of the space inquestion?

Location 1033 Weldon Rd., Oak

Ridge, NJ 07438 Is this address accurate and complete? Correctweather normalization requires an accurate zipcode.

Single Structure Single Facility

Does this SEP represent a single structure? SEPscannot be submitted for multiple-buildingcampuses (with the exception of acute care orchildren's hospitals) nor can they be submitted asrepresenting only a portion of a building

Administration & Court (Office)


Gross Floor Area 12,710 Sq. Ft.

Does this square footage include all supportingfunctions such as kitchens and break rooms usedby staff, storage areas, administrative areas,elevators, stairwells, atria, vent shafts, etc. Alsonote that existing atriums should only include thebase floor area that it occupies. Interstitial(plenum) space between floors should not beincluded in the total. Finally gross floor area is notthe same as leasable space. Leasable space is asubset of gross floor area.

Weekly operatinghours 50 Hours

Is this the total number of hours per week that theOffice space is 75% occupied? This numbershould exclude hours when the facility is occupiedonly by maintenance, security, or other supportpersonnel. For facilities with a schedule that variesduring the year, "operating hours/week" refers tothe total weekly hours for the schedule most oftenfollowed.

Workers on MainShift 30

Is this the number of employees present during themain shift? Note this is not the total number ofemployees or visitors who are in a building duringan entire 24 hour period. For example, if there aretwo daily 8 hour shifts of 100 workers each, theWorkers on Main Shift value is 100. The normalworker density ranges between 0.3 and 5.3workers per 1000 square feet (92.8 squaremeters)

Number of PCs 30 Is this the number of personal computers in theOffice?

Percent Cooled 50% or more Is this the percentage of the total floor space withinthe facility that is served by mechanical coolingequipment?

Percent Heated 50% or more Is this the percentage of the total floor space withinthe facility that is served by mechanical heatingequipment?

Police Station (Office)


Page 1 of 4

White Rock WWTP

OMB No. 2060-0347

STATEMENT OF ENERGY PERFORMANCEWhite Rock WWTP



FacilityWhite Rock WWTPMirror Pl.Oak Ridge, NJ 07438

Facility OwnerN/A


Year Built: 1965Energy Performance Rating2 (1-100) N/A


Electricity - Grid Purchase(kBtu) 1,347,058 Natural Gas - (kBtu)4 0 Total Energy (kBtu) 1,347,058

Energy Intensity5 Site (kBtu/gpd) 13 Source (kBtu/gpd) 45 Emissions (based on site energy use) Greenhouse Gas Emissions (MtCO2e/year) 191 Electric Distribution Utility Jersey Central Power & Light Co [FirstEnergy Corp] National Average Comparison National Average Site EUI 4 National Average Source EUI 10 % Difference from National Average Source EUI 350% Building Type Wastewater








EPA Form 5900-16

ENERGY STAR®





Building Name White Rock WWTP Is this the official building name to be displayed inthe ENERGY STAR Registry of LabeledBuildings?

Type Wastewater Is this an accurate description of the space inquestion?

Location Mirror Pl., Oak Ridge, NJ

07438 Is this address accurate and complete? Correctweather normalization requires an accurate zipcode.

Single Structure Water Utility/Wastewater

Plant


Plant (Municipal Wastewater Treatment Plant)


Average InfluentBiological Demand

(BOD5)Concentration

200.00 mg/l (milligrams perliter)

Is this the average biological demandconcentration of the wastewater flowing into thefacility? This should be the average concentrationestimated over a 12 month period. BOD5 shouldbe reported in mg/l. BOD5 is not the same asCBOD5, the carbonaceous biological oxygendemand. BOD5 is required for the energyperformance rating.

Average EffluentBiological Demand

(BOD5)Concentration


Is this the average biological demandconcentration of the wastewater after it is treatedand is leaving the facility? This should be theaverage concentration estimated over a 12 monthperiod. BOD5 should be reported in mg/l. BOD5 isnot the same as CBOD5, the carbonaceousbiological oxygen demand. BOD5 is required forthe energy performance rating.

Plant Design FlowRate

0.13 MGD (million gallonsper day)

Is this the plant design flow rate, measured inmillion gallons per day (MGD)? This is the amountof flow the plant is designed to process.

Fixed Film TrickleFiltration Process No

Does this facility have an onsite fixed film tricklefiltration process? Trickle filtration is a processused to reduce BOD, pathogens, and nitrogenlevels.

Nutrient Removal Yes

Does this facility conduct nutrient removal as partof the treatment process? Nutrient removal isconsidered any process included for the purposeof removing nutrients (i.e., nitrogen, phosphorous).This may include biological nitrification, biologicaldenitrification, phosphorus removal, orrecirculating sand filters.

Page 1 of 3

ENERGY STAR®


Energy ConsumptionPower Generation Plant or Distribution Utility: Jersey Central Power & Light Co [FirstEnergy Corp]

Fuel Type: Electricity

Meter: G79128046 (kWh (thousand Watt-hours))Space(s): Entire Facility

Generation Method: Grid Purchase

Start Date End Date Energy Use (kWh (thousand Watt-hours))

12/01/2010 12/31/2010 42,240.00

11/01/2010 11/30/2010 36,400.00

10/01/2010 10/31/2010 37,520.00

09/01/2010 09/30/2010 25,760.00

08/01/2010 08/31/2010 27,080.00

07/01/2010 07/31/2010 24,000.00

06/01/2010 06/30/2010 31,240.00

05/01/2010 05/31/2010 26,560.00

04/01/2010 04/30/2010 29,040.00

03/01/2010 03/31/2010 33,640.00

02/01/2010 02/28/2010 38,520.00

01/01/2010 01/31/2010 42,800.00

G79128046 Consumption (kWh (thousand Watt-hours)) 394,800.00

G79128046 Consumption (kBtu (thousand Btu)) 1,347,057.60

Total Electricity (Grid Purchase) Consumption (kBtu (thousand Btu)) 1,347,057.60

Is this the total Electricity (Grid Purchase) consumption at this building including allElectricity meters?

Additional FuelsDo the fuel consumption totals shown above represent the total energy use of this building?Please confirm there are no additional fuels (district energy, generator fuel oil) used in this facility.

On-Site Solar and Wind EnergyDo the fuel consumption totals shown above include all on-site solar and/or wind power located atyour facility? Please confirm that no on-site solar or wind installations have been omitted from thislist. All on-site systems must be reported.

Flow Type: Average Influent Flow Meter

Meter Name: Average Influent Flow Meter

Start Date End Date Average Influent Flow (MGD (million gallons per day))

12/01/2010 12/31/2010 0.10

11/01/2010 11/30/2010 0.10

10/01/2010 10/31/2010 0.10

Page 2 of 3

09/01/2010 09/30/2010 0.10

08/01/2010 08/31/2010 0.10

07/01/2010 07/31/2010 0.10

06/01/2010 06/30/2010 0.10

05/01/2010 05/31/2010 0.10

04/01/2010 04/30/2010 0.10

03/01/2010 03/31/2010 0.10

02/01/2010 02/28/2010 0.10

01/01/2010 01/31/2010 0.10

Total Flow (MGD) 1.20

Certifying Professional (When applying for the ENERGY STAR, the Certifying Professional must be the same PE or RA that signed and stamped the SEP.)

Name: _____________________________________________ Date: _____________

Signature: ______________________________________ Signature is required when applying for the ENERGY STAR.

Page 3 of 3

FOR YOUR RECORDS ONLY. DO NOT SUBMIT TO EPA.

Please keep this Facility Summary for your own records; do not submit it to EPA. Only the Statement of Energy Performance (SEP)and Letter of Agreement need to be submitted to EPA when applying for the ENERGY STAR.

General Information: White Rock WWTPYear Built 1965For 12-month Evaluation Period Ending Date: December 31, 2010

Facility Space Use SummaryPlant

Space Type

MunicipalWastewaterTreatment

Plant

Average Influent Biological Demand(BOD5) Concentration 200.00

Average Effluent Biological Demand(BOD5) Concentration 5.00

Plant Design Flow Rate 0.13

Fixed Film Trickle Filtration Process No


Energy Performance ComparisonEvaluation Periods Comparisons

Performance Metrics Current(Ending Date: 12/31/2010) Baseline Rating of 75 Target National Average

Energy Performance Rating N/A N/A 75 N/A N/A

Energy Intensity

Site (kBtu/gpd) 13 N/A N/A N/A 4

Source (kBtu/gpd) 45 N/A N/A N/A 10

Energy Cost

$/year $ 62,770 N/A N/A N/A $ 18,640

$/mgpd/year $627,695.80 N/A N/A N/A $186,398.16

Greenhouse Gas Emissions

MtCO2e/year 191 N/A N/A N/A 57

kgCO2e/ft2/year N/A N/A N/A N/A N/A

Moosepac WWTP

OMB No. 2060-0347

STATEMENT OF ENERGY PERFORMANCEMoosepac WWTP



FacilityMoosepac WWTPChamberlain RdOak Ridge, NJ 07438

Facility OwnerN/A


Year Built: 1985Energy Performance Rating2 (1-100) N/A


Electricity - Grid Purchase(kBtu) 1,217,265 Natural Gas - (kBtu)4 0 Total Energy (kBtu) 1,217,265

Energy Intensity5 Site (kBtu/gpd) 30 Source (kBtu/gpd) 102 Emissions (based on site energy use) Greenhouse Gas Emissions (MtCO2e/year) 172 Electric Distribution Utility Jersey Central Power & Light Co [FirstEnergy Corp] National Average Comparison National Average Site EUI 4 National Average Source EUI 10 % Difference from National Average Source EUI 916% Building Type Wastewater








EPA Form 5900-16

ENERGY STAR®





Building Name Moosepac WWTP Is this the official building name to be displayed inthe ENERGY STAR Registry of LabeledBuildings?

Type Wastewater Is this an accurate description of the space inquestion?

Location Chamberlain Rd, Oak

Ridge, NJ 07438 Is this address accurate and complete? Correctweather normalization requires an accurate zipcode.

Single Structure Water Utility/Wastewater

Plant


Plant (Municipal Wastewater Treatment Plant)


Average InfluentBiological Demand

(BOD5)Concentration


Is this the average biological demandconcentration of the wastewater flowing into thefacility? This should be the average concentrationestimated over a 12 month period. BOD5 shouldbe reported in mg/l. BOD5 is not the same asCBOD5, the carbonaceous biological oxygendemand. BOD5 is required for the energyperformance rating.

Average EffluentBiological Demand

(BOD5)Concentration


Is this the average biological demandconcentration of the wastewater after it is treatedand is leaving the facility? This should be theaverage concentration estimated over a 12 monthperiod. BOD5 should be reported in mg/l. BOD5 isnot the same as CBOD5, the carbonaceousbiological oxygen demand. BOD5 is required forthe energy performance rating.

Plant Design FlowRate

0.07 MGD (million gallonsper day)

Is this the plant design flow rate, measured inmillion gallons per day (MGD)? This is the amountof flow the plant is designed to process.

Fixed Film TrickleFiltration Process No

Does this facility have an onsite fixed film tricklefiltration process? Trickle filtration is a processused to reduce BOD, pathogens, and nitrogenlevels.


Does this facility conduct nutrient removal as partof the treatment process? Nutrient removal isconsidered any process included for the purposeof removing nutrients (i.e., nitrogen, phosphorous).This may include biological nitrification, biologicaldenitrification, phosphorus removal, orrecirculating sand filters.

Page 1 of 3

ENERGY STAR®


Energy ConsumptionPower Generation Plant or Distribution Utility: Jersey Central Power & Light Co [FirstEnergy Corp]

Fuel Type: Electricity

Meter: G35513544 (kWh (thousand Watt-hours))Space(s): Entire Facility

Generation Method: Grid Purchase

Start Date End Date Energy Use (kWh (thousand Watt-hours))

12/01/2010 12/31/2010 28,920.00

11/01/2010 11/30/2010 32,600.00

10/01/2010 10/31/2010 37,080.00

09/01/2010 09/30/2010 28,000.00

08/01/2010 08/31/2010 30,520.00

07/01/2010 07/31/2010 27,000.00

06/01/2010 06/30/2010 27,720.00

05/01/2010 05/31/2010 27,120.00

04/01/2010 04/30/2010 26,840.00

03/01/2010 03/31/2010 32,920.00

02/01/2010 02/28/2010 27,480.00

01/01/2010 01/31/2010 30,560.00

G35513544 Consumption (kWh (thousand Watt-hours)) 356,760.00

G35513544 Consumption (kBtu (thousand Btu)) 1,217,265.12

Total Electricity (Grid Purchase) Consumption (kBtu (thousand Btu)) 1,217,265.12

Is this the total Electricity (Grid Purchase) consumption at this building including allElectricity meters?

Additional FuelsDo the fuel consumption totals shown above represent the total energy use of this building?Please confirm there are no additional fuels (district energy, generator fuel oil) used in this facility.

On-Site Solar and Wind EnergyDo the fuel consumption totals shown above include all on-site solar and/or wind power located atyour facility? Please confirm that no on-site solar or wind installations have been omitted from thislist. All on-site systems must be reported.

Flow Type: Average Influent Flow Meter

Meter Name: Average Influent Flow Meter

Start Date End Date Average Influent Flow (MGD (million gallons per day))

12/01/2010 12/31/2010 0.04

11/01/2010 11/30/2010 0.04

10/01/2010 10/31/2010 0.04

Page 2 of 3

09/01/2010 09/30/2010 0.04

08/01/2010 08/31/2010 0.04

07/01/2010 07/31/2010 0.04

06/01/2010 06/30/2010 0.04

05/01/2010 05/31/2010 0.04

04/01/2010 04/30/2010 0.04

03/01/2010 03/31/2010 0.04

02/01/2010 02/28/2010 0.04

01/01/2010 01/31/2010 0.04

Total Flow (MGD) 0.48

Certifying Professional (When applying for the ENERGY STAR, the Certifying Professional must be the same PE or RA that signed and stamped the SEP.)

Name: _____________________________________________ Date: _____________

Signature: ______________________________________ Signature is required when applying for the ENERGY STAR.

Page 3 of 3

FOR YOUR RECORDS ONLY. DO NOT SUBMIT TO EPA.

Please keep this Facility Summary for your own records; do not submit it to EPA. Only the Statement of Energy Performance (SEP)and Letter of Agreement need to be submitted to EPA when applying for the ENERGY STAR.

General Information: Moosepac WWTPYear Built 1985For 12-month Evaluation Period Ending Date: December 31, 2010

Facility Space Use SummaryPlant

Space Type

MunicipalWastewaterTreatment

Plant

Average Influent Biological Demand(BOD5) Concentration 200.00

Average Effluent Biological Demand(BOD5) Concentration 5.00

Plant Design Flow Rate 0.07

Fixed Film Trickle Filtration Process No


Energy Performance ComparisonEvaluation Periods Comparisons

Performance Metrics Current(Ending Date: 12/31/2010) Baseline Rating of 75 Target National Average

Energy Performance Rating N/A N/A 75 N/A N/A

Energy Intensity

Site (kBtu/gpd) 30 N/A N/A N/A 4

Source (kBtu/gpd) 102 N/A N/A N/A 10

Energy Cost

$/year $ 56,642 N/A N/A N/A $ 7,446

$/mgpd/year $1,416,047.50 N/A N/A N/A $186,138.35

Greenhouse Gas Emissions

MtCO2e/year 172 N/A N/A N/A 23

kgCO2e/ft2/year N/A N/A N/A N/A N/A

jefferson township energy assessment for new jersey board of public utilities … audit... · 2012....

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