Energy Audit - capemaycity.com Audit Purpose & Scope ... Residence Hall/Dormitory, Retail Store ......
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Transcript of Energy Audit - capemaycity.com Audit Purpose & Scope ... Residence Hall/Dormitory, Retail Store ......
510 Thornall Street, Suite 170
Edison, NJ 08837
Phone: 732-590-0122
Fax: 732-590-0129
Energy AuditPrepared For:
City of Cape May
Contact Bruce MacLeod
Business Administrator
Prepared By:
Dome – Tech, Inc.
Prepared Under the Guidelines of the State of NJ Local Government Energy Audit Program
July 2011
510 Thornall Street, Suite 170 Edison, NJ 08837
Tel: 732.590.0122 Fax: 732.590.0129
www.dome-tech.com
Commissioning HVAC Performance Testing Energy Audits Project Management
Retro-Commissioning Facility Management Consulting Energy Procurement
CITY OF CAPE MAY
ENERGY AUDIT REPORT
TABLE OF CONTENTS
1. Executive Summary
2. ECM Summary By Payback & Sorted by Building
3. Energy Audit Report
Energy Audit Purpose & Scope
Historic Energy Consumption
Facility Description
Greenhouse Gas Emissions Reduction
Energy Conservation Measures
Renewable/Distributed Energy Measures
Energy Procurement
Notes and Assumptions
Operations & Maintenance
Next Steps
4. Appendix
Portfolio Manager/Energy Star
Facilities Total Annual Energy Use
Equipment & Lighting Inventory Lists
ECM Lists
ECM Costs & Calculations
Renewables Calculations
Page 2
510 Thornall Street, Suite 170 Edison, NJ 08837
Tel: 732.590.0122 Fax: 732.590.0129
www.dome-tech.com
Commissioning HVAC Performance Testing Energy Audits Project Management
Retro-Commissioning Facility Management Consulting Energy Procurement
July 29, 2011 Mr. Bruce A. MacLeod City Manager City of Cape May 643 Washington Street Cape May, NJ 08204-2397 Re: EXECUTIVE SUMMARY FOR CITY OF CAPE MAY STATE OF NEW JERSEY LOCAL GOVERNMENT ENERGY AUDIT Dear Mr. MacLeod: Dome-Tech was retained by City of Cape May, as a pre-qualified participant in the Local Government Energy Audit Program, to perform an energy audit. The objectives of the energy audit were to evaluate the City’s energy consumption, establish baselines for energy efficiency and identify opportunities to reduce the amount of energy used and/or its cost. The scope of the audit is standardized under the Program, and consisted of the following:
Benchmarking historic energy consumption utilizing EPA Energy Star’s Portfolio Manager
Characterizing building use, occupancy, size, and construction
Providing a detailed equipment list including estimated service life and efficiency
Identifying and quantifying Energy Conservation Measures (ECMs) and Water Conservation Measures
Evaluating the economic viability of various renewable/distributed energy technologies
Performing a utility tariff analysis and assessing savings potential from energy procurement strategies
Providing the method of analyses Based upon data received for the twelve (12) month period April 2010 – April2010, for the facilities included in this study, the City had an annual expenditure of:
Electricity: 2,560,330 kWh at a total cost of $487,227.10
Natural Gas: 65,270 therms at a total cost of $124,026.65
Page 3
The following thirteen (13) buildings were evaluated under this study:
# Facility Name Total Floor Area
1 Cape May City Hall 22,479
2 Franklin Street School 10,676
3 Welcome / Transportation Center 2,000
4 Water Works Building 3,420
5 Fire House 2,000
6 Public Works Complex 6,840
7 Physick Estate 6,632
8 Carriage House 3,783
9 Hill House 1,296
10 Library 4,164
11 Nature Center 1 1,296
12 Nature Center 2 1,876
13 Cape May City Elementary School 43,560
TOTAL FLOOR AREA (SF) 110,022
Please refer to Section 2 of this report for a detailed list of identified Energy Conservation Measures (ECMs), along with a summary of their preliminary economics (estimated project cost, estimated annual energy savings, applicable rebate(s), etc.). In this report, all identified ECMs are ranked and presented according to their simple payback; however, please note that the master ECM table can also be sorted by building, by measure type, etc. If all identified ECMs were to be implemented, they would provide the following estimated benefits to the City of Cape May:
Total annual electrical savings: 393,970 kilowatt-hours; 15%
Total annual natural gas savings: 15,490 therms of natural gas usage; 24%
Total annual water savings: 815,000 gallons
Total annual cost savings: $83,275; 14%
Total annual CO2 emissions reduction: 221 tons
Total net estimated implementation cost: $1,188,215
Total average simple payback: 14.3 years A summary of the projects that are recommended for implementation includes the following: installing new boilers; installing vending machine and personal computer power management devices; installing piping insulation; installing low-flow faucets, toilets and waterless urinals; upgrading lighting; and replacing kitchen equipment. Please see the report for a full list of recommended ECM’s. Distributed/Renewable Energy Systems were also reviewed with the following conclusions:
Dome-Tech considered three different types of wind turbine technologies that consisted of both building-mounted and traditional ground-mounted variety. Ground-Mounted is not feasible for a majority of these sites due to space constraints and the surrounding buildings. The Building-mounted wind turbine projects at the Waterworks Building and Elementary School appear to be the only technically viable options. Should the City decide to pursue a wind turbine project, Dome-Tech recommends commissioning a more detailed study.
Page 4
Roof-mounted photovoltaic systems ranging in size from 163kW - 232kW dc, could provide approximately 13% - 82% per building of the City’s annual energy usage was assessed for implementation at each site.
CHP (Combined Heat and Power), Fuel Cells, and Micro-turbines were also considered and not recommended for any of the buildings due to a lack of year-round thermal loads.
The City’s data was entered into the US EPA ENERGY STAR’s Portfolio Manager database program. Buildings with scores of 75 or higher may qualify for the ENERGY STAR Building Label. Some of the City’s buildings were not eligible for an Energy Star score, due to building type. In order to receive an Energy Star rating, more than 50% of a building must be defined by one of the following space types: Bank/Financial Institution, Courthouse, Hospital (Acute Care and Children's), Hotel, K-12 School, Medical Office, Office, Residence Hall/Dormitory, Retail Store, Supermarket, Warehouse (Refrigerated and Non-refrigerated), Wastewater Treatment Plant, or Data Center. For the buildings that were not eligible for a score, the average Source Energy Use Index (EUI) was provided as an alternate benchmark. Please see the report for individual facility information. A water conservation audit was performed. If the City of Cape May were to implement low flow faucets and waterless urinals, approximately 815,000 gallons can be saved annually and a total of 40 therms can be saved from domestic hot water heating. Regarding the procurement of utilities, Dome-Tech understands that the City of Cape May facilities in this study are served by thirteen electric accounts behind Atlantic City Electric Company and twelve natural gas accounts behind South Jersey Gas Company under a variety rate classes, both electricity and natural gas accounts are served by a supplier company.
During the development of this audit, Dome-Tech was assisted by other facility personnel, who were both knowledgeable and very helpful to our efforts. We would like to acknowledge and thank those individuals. Sincerely, Derek James Senior Energy Engineer
Page 5
CITY OF CAPE MAY - ECMs by PaybackPrepared by Dome-Tech, Inc.
Energy Conservation Measures
(ECM) Buildings
Gross
Installation
Costs*
Rebates/
Incentive
Avoided
Cost
Net
Implementatio
n
Costs
Annual
Energy
Cost
Savings
Annual
Oper.
Cost
Savings
Total
Annual
Cost
Savings
Simple
Pay Back
Internal Rate of
Return (IRR)
Measure
Life
Lifecycle
Savings
CO2
Saving
s (lbs)
kWh kW Therms
1 Destratification Fans Franklin Street School -1,130 1,110 $350 $0 $0 $350 $2,360 $0 $2,360 0.1674.3%
20 $34,761 6
2 Programmable Thermostats Franklin Street School 10,770 930 $270 $0 $0 $270 $4,450 $0 $4,450 0.11648.1%
15 $52,854 9
2 Programmable Thermostats Public Works Building 8,770 770 $530 $0 $0 $530 $3,070 $0 $3,070 0.2579.2%
15 $36,119 7
2 Programmable Thermostats
Welcome /
Transportation Center 5,700 490 $400 $0 $0 $400 $2,420 $0 $2,420 0.2605.0%
15 $28,490 5
2 Programmable Thermostats Nature Center 2 6,340 550 $530 $0 $0 $530 $3,070 $0 $3,070 0.2579.2%
15 $36,119 5
2 Programmable Thermostats Physick Estate 7,280 800 $670 $0 $0 $670 $3,130 $0 $3,130 0.2467.2%
15 $36,696 7
2 Programmable Thermostats Hill House 2,650 290 $270 $0 $0 $270 $1,040 $0 $1,040 0.3385.2%
15 $12,145 3
2 Programmable Thermostats Carriage House 3,310 710 $530 $0 $0 $530 $1,890 $0 $1,890 0.3356.6%
15 $22,033 5
2 Programmable Thermostats City Hall 123,730 0 $2,130 $0 $0 $2,130 $6,290 $0 $6,290 0.3295.3%
15 $72,960 41
2 Programmable Thermostats Elementary School 3,650 0 $800 $0 $0 $800 $675 $0 $675 1.284.4%
15 $7,258 1
3
Increase Insulation on Hot Water
Pipes Firehouse 0 55 $50 $0 $0 $50 $130 $0 $130 0.4260.0%
20 $1,884 0
4
Install Vending Machine
Management System
Welcome /
Transportation Center 2,350 0.05 0 $360 $0 $0 $360 $440 $0 $440 0.8122.2%
15 $4,893 1
4
Install Vending Machine
Management System Firehouse 1,180 0.02 0 $180 $0 $0 $180 $250 $0 $250 0.7138.9%
15 $2,804 0
4
Install Vending Machine
Management System Public Works Building 2,350 0.05 0 $360 $0 $0 $360 $440 $0 $440 0.8122.2%
15 $4,893 1
4
Install Vending Machine
Management System Carriage House 1,180 0.02 0 $180 $0 $0 $180 $190 $0 $190 0.9105.6%
15 $2,088 0
4
Install Vending Machine
Management System Elementary School 1,180 0.02 0 $180 $0 $0 $180 $220 $0 $220 0.8122.2%
15 $2,446 0
5 Computer Management System Elementary School 2,940 0 $575 $0 $0 $575 $545 $0 $545 1.194.8%
15 $5,931 1
5 Computer Management System Library 1,150 0 $225 $0 $0 $225 $215 $0 $215 1.095.6%
15 $2,342 0
6 Pool Pump VFD Elementary School 21,140 0 $8,960 $830 $0 $8,130 $3,910 $0 $3,910 2.148.1%
20 $50,041 7
7 Upgrade Lighting Carriage House 14,420 4.77 0 $3,690 $300 $0 $3,390 $2,340 $0 $2,340 1.467.9%
8 $13,036 5
7 Upgrade Lighting Elementary School 46,220 14.38 0 $29,630 $3,400 $0 $26,230 $8,550 $0 $8,550 3.128.1%
8 $33,788 15
7 Upgrade Lighting Firehouse 31,730 8.52 0 $13,170 $2,640 $0 $10,530 $6,660 $0 $6,660 1.661.9%
8 $36,221 10
7 Upgrade Lighting Franklin Street School 890 0.23 0 $3,615 $320 $0 $3,295 $180 $0 $180 18.3-15.4%
8 -$2,031 0
7 Upgrade Lighting Hill House 310 0.14 0 $355 $40 $0 $315 $50 $0 $50 6.35.6%
8 $36 0
7 Upgrade Lighting Library 3,790 1.02 0 $2,310 $0 $0 $2,310 $710 $0 $710 3.325.9%
8 $2,674 1
7 Upgrade Lighting Nature Center 1 4,770 1.25 0 $1,570 $170 $0 $1,400 $1,070 $0 $1,070 1.375.6%
8 $6,111 2
7 Upgrade Lighting Nature Center 2 1,240 0.37 0 $710 $70 $0 $640 $270 $0 $270 2.439.2%
8 $1,255 0
7 Upgrade Lighting Physick Estate 13,000 5.47 0 $6,090 $700 $0 $5,390 $2,090 $0 $2,090 2.635.3%
8 $9,281 4
7 Upgrade Lighting Waterworks Building 1,620 0.47 0 $2,350 $290 $0 $2,060 $310 $0 $310 6.64.3%
8 $116 1
7 Upgrade Lighting
Welcome /
Transportation Center 4,560 1.32 0 $2,450 $530 $0 $1,920 $860 $0 $860 2.242.1%
8 $4,117 2
Energy Savings
Page 1
Page 6
CITY OF CAPE MAY - ECMs by PaybackPrepared by Dome-Tech, Inc.
Energy Conservation Measures
(ECM) Buildings
Gross
Installation
Costs*
Rebates/
Incentive
Avoided
Cost
Net
Implementatio
n
Costs
Annual
Energy
Cost
Savings
Annual
Oper.
Cost
Savings
Total
Annual
Cost
Savings
Simple
Pay Back
Internal Rate of
Return (IRR)
Measure
Life
Lifecycle
Savings
CO2
Saving
s (lbs)
kWh kW Therms
Energy Savings
8 RTU SEER Upgrade Elementary School 7,410 1.23 0 $98,940 $2,370 $92,940 $3,630 $1,400 $0 $1,400 2.638.3%
15 $13,083 2
9 Condensing Boiler Firehouse 0 531 $21,010 $1,140 $17,600 $2,270 $1,270 $0 $1,270 1.855.9%
20 $16,624 3
9 Condensing Boiler Library 0 370 $21,010 $750 $16,900 $3,360 $900 $0 $900 3.726.5%
20 $10,030 2
10 Weatherstripping Nature Center 1 500 0 $350 $0 $0 $350 $100 $0 $100 3.525.7%
10 $503 0
10 Weatherstripping Firehouse 1,665 180 $2,450 $0 $0 $2,450 $790 $0 $790 3.129.9%
10 $4,289 2
10 Weatherstripping City Hall 480 50 $700 $0 $0 $700 $220 $0 $220 3.229.0%
10 $1,177 0
10 Weatherstripping
Welcome /
Transportation Center 480 50 $700 $0 $0 $700 $220 $0 $220 3.229.0%
10 $1,177 0
10 Weatherstripping Nature Center 2 240 30 $350 $0 $0 $350 $120 $0 $120 2.932.2%
10 $674 0
10 Weatherstripping Franklin Street School 240 30 $1,450 $0 $0 $1,450 $110 $0 $110 13.2-4.7%
10 -$512 0
11 Premium Efficient Motors Elementary School 9,560 1.35 0 $2,385 $190 $0 $2,195 $1,770 $0 $1,770 1.280.6%
20 $24,138 3
11 Premium Efficient Motors Waterworks Building 4,260 0.60 0 $47,990 $820 $0 $47,170 $820 $0 $820 57.5-8.5%
20 -$34,970 1
12 Heat Pump SEER Upgrade Nature Center 2 350 0.06 0 $17,980 $365 $17,080 $535 $100 $0 $100 5.416.9%
15 $659 0
12 Heat Pump SEER Upgrade Carriage House 470 0.08 0 $18,780 $490 $17,580 $710 $100 $0 $100 7.111.2%
15 $484 0
12 Heat Pump SEER Upgrade Public Works Building 1,100 0.18 0 $40,040 $1,130 $37,240 $1,670 $200 $0 $200 8.48.4%
15 $718 0
12 Heat Pump SEER Upgrade Elementary School 6,840 1.13 0 $256,815 $1,190 $253,820 $1,805 $1,300 $0 $1,300 1.472.0%
15 $13,714 2
12 Heat Pump SEER Upgrade City Hall 3,620 0.60 0 $155,090 $3,730 $145,890 $5,470 $700 $0 $700 7.89.5%
15 $2,887 1
12 Heat Pump SEER Upgrade Firehouse 510 0.08 0 $35,160 $530 $33,860 $770 $100 $0 $100 7.79.8%
15 $424 0
12 Heat Pump SEER Upgrade Hill House 160 0.08 0 $8,590 $160 $8,190 $240 $30 $0 $30 8.09.1%
15 $118 0
12 Heat Pump SEER Upgrade Physick Estate 830 0.14 0 $42,320 $850 $40,220 $1,250 $100 $0 $100 12.52.4%
15 -$56 0
13
Replace Storage Electric Water
Heater to Instantaneous Water
Heater Physick Estate 140 0.00 0 $160 $0 $0 $160 $20 $0 $20 8.0
10.9%
20 $138 0
14 Replace Window AC Units Firehouse 150 0.02 0 $250 $0 $0 $250 $30 $0 $30 8.33.5%
10 $6 0
14 Replace Window AC Units Hill House 150 0.04 0 $250 $0 $0 $250 $30 $0 $30 8.33.5%
10 $6 0
14 Replace Window AC Units City Hall 310 0.04 0 $500 $0 $0 $500 $60 $0 $60 8.33.5%
10 $12 0
14 Replace Window AC Units Public Works Building 310 0.04 0 $500 $0 $0 $500 $60 $0 $60 8.33.5%
10 $12 0
15 Walk-In Cooler Controls Elementary School 1,205 0.10 0 $2,340 $0 $0 $2,340 $240 $0 $240 9.80.5%
10 -$293 0
16 Pool Cover Elementary School 0 1,900 $21,000 $0 $0 $21,000 $0 $0 $0 #DIV/0!0.0%
20 -$21,000 11
17 Replace Garage Bay Doors Public Works Building 0 960 $44,610 $0 $0 $44,610 $1,570 $0 $1,570 28.4-3.1%
20 -$21,252 6
18
Upgrade to Energy Star Kitchen
Equipment Firehouse 1,130 0.09 0 $7,350 $0 $0 $7,350 $240 $0 $240 30.6-16.5%
10 -$5,303 0
18
Upgrade to Energy Star Kitchen
Equipment Carriage House 1,200 0.10 0 $7,350 $0 $0 $7,350 $190 $0 $190 38.7-19.2%
10 -$5,729 0
19
Dishwasher Booster Heater Fuel
Switch Elementary School 730 -30 $8,280 $0 $0 $8,280 $90 $0 $90 92.0-28.0%
10 -$7,512 0
20 Upgrade Windows Physick Estate 2,600 950 $404,930 $0 $0 $404,930 $2,690 $0 $2,690 150.5-14.5%
20 -$364,910 6
20 Upgrade Windows Hill House 440 160 $77,200 $0 $0 $77,200 $360 $0 $360 214.4-16.4%
20 -$71,844 1
Page 2
Page 7
CITY OF CAPE MAY - ECMs by PaybackPrepared by Dome-Tech, Inc.
Energy Conservation Measures
(ECM) Buildings
Gross
Installation
Costs*
Rebates/
Incentive
Avoided
Cost
Net
Implementatio
n
Costs
Annual
Energy
Cost
Savings
Annual
Oper.
Cost
Savings
Total
Annual
Cost
Savings
Simple
Pay Back
Internal Rate of
Return (IRR)
Measure
Life
Lifecycle
Savings
CO2
Saving
s (lbs)
kWh kW Therms
Energy Savings
20 Upgrade Windows Carriage House 290 795 $138,970 $0 $0 $138,970 $630 $0 $630 220.6-16.6%
20 -$129,597 5
21 Building Management System Elementary School 19,510 3,810 $323,250 $0 $0 $323,250 $8,890 $0 $8,890 36.4-9.5%
15 -$217,122 29
21A Demand Controlled Ventilation Elementary School 10,680 260 $19,050 $0 $0 $19,050 $2,000 $0 $2,000 9.56.3%
15 $4,826 5
21B
Temperature Setpoint
Optimization Elementary School 1,300 3,310 $3,200 $0 $0 $3,200 $5,530 $0 $5,530 0.6172.8%
15 $62,817 20
21C Holiday Time of Day Optimization Elementary School 5,260 240 $1,600 $0 $0 $1,600 $940 $0 $940 1.758.7%
15 $9,622 3
21D
Exhaust Fan Time of Day
Optimization Elementary School 2,270 0 $10,780 $0 $0 $10,780 $420 $0 $420 25.7-6.1%
15 -$5,766 1
TotalsTOTALS
393,970 44.08 15,491 $1,892,540 $23,005 $681,320 $1,188,215 $83,275 $0 $83,275 14.3 0% 14 -$258,737 221
Notes:
1. KW - Where Zero (0) values are shown in the table there is no demand reduction for this measure.
2. Rebates- Where Zero (0) values are shown in the table we could not find any rebates of other financial incentives that are currently available for this measure.
Building Management System ECMS #21 A - D are added together in the BMS ECM#21
Page 3
Page 8
CITY OF CAPE MAY - Sorted by BuildingPrepared by Dome-Tech, Inc.
Energy Conservation Measures
(ECM) Buildings
Gross
Installation
Costs*
Rebates/
Incentive
Avoided
Cost
Net
Implementatio
n
Costs
Annual
Energy
Cost
Savings
Annual
Oper.
Cost
Savings
Total
Annual
Cost
Savings
Simple
Pay Back
Internal Rate of
Return (IRR)
Measure
Life
Lifecycle
Savings
CO2
Saving
s (lbs)
kWh kW Therms
2 Programmable Thermostats Carriage House 3,310 710 $530 $0 $0 $530 $1,890 $0 $1,890 0.3356.6%
15 $22,033 5
4
Install Vending Machine
Management System Carriage House 1,180 0.02 0 $180 $0 $0 $180 $190 $0 $190 0.9105.6%
15 $2,088 0
7 Upgrade Lighting Carriage House 14,420 4.77 0 $3,690 $300 $0 $3,390 $2,340 $0 $2,340 1.467.9%
8 $13,036 5
12 Heat Pump SEER Upgrade Carriage House 470 0.08 0 $18,780 $490 $17,580 $710 $100 $0 $100 7.111.2%
15 $484 0
18
Upgrade to Energy Star Kitchen
Equipment Carriage House 1,200 0.10 0 $7,350 $0 $0 $7,350 $190 $0 $190 38.7-19.2%
10 -$5,729 0
20 Upgrade Windows Carriage House 290 795 $138,970 $0 $0 $138,970 $630 $0 $630 220.6-16.6%
20 -$129,597 5
20,870 4.97 1,505 $169,500 $790 $17,580 $151,130 $5,340 $0 $5,340 28.30.0%
14 -$91,390 15
2 Programmable Thermostats City Hall 123,730 0 $2,130 $0 $0 $2,130 $6,290 $0 $6,290 0.3295.3%
15 $72,960 41
10 Weatherstripping City Hall 480 50 $700 $0 $0 $700 $220 $0 $220 3.229.0%
10 $1,177 0
12 Heat Pump SEER Upgrade City Hall 3,620 0.60 0 $155,090 $3,730 $145,890 $5,470 $700 $0 $700 7.89.5%
15 $2,887 1
14 Replace Window AC Units City Hall 310 0.04 0 $500 $0 $0 $500 $60 $0 $60 8.33.5%
10 $12 0
128,140 0.64 50 $158,420 $3,730 $145,890 $8,800 $7,270 $0 $7,270 1.20.0%
13 $67,374 42
2 Programmable Thermostats Elementary School 3,650 0 $800 $0 $0 $800 $675 $0 $675 1.284.4%
15 $7,258 1
4
Install Vending Machine
Management System Elementary School 1,180 0.02 0 $180 $0 $0 $180 $220 $0 $220 0.8122.2%
15 $2,446 0
5 Computer Management System Elementary School 2,940 0 $575 $0 $0 $575 $545 $0 $545 1.194.8%
15 $5,931 1
6 Pool Pump VFD Elementary School 21,140 0 $8,960 $830 $0 $8,130 $3,910 $0 $3,910 2.148.1%
20 $50,041 7
7 Upgrade Lighting Elementary School 46,220 14.38 0 $29,630 $3,400 $0 $26,230 $8,550 $0 $8,550 3.128.1%
8 $33,788 15
8 RTU SEER Upgrade Elementary School 7,410 1.23 0 $98,940 $2,370 $92,940 $3,630 $1,400 $0 $1,400 2.638.3%
15 $13,083 2
11 Premium Efficient Motors Elementary School 9,560 1.35 0 $2,385 $190 $0 $2,195 $1,770 $0 $1,770 1.280.6%
20 $24,138 3
12 Heat Pump SEER Upgrade Elementary School 6,840 1.13 0 $256,815 $1,190 $253,820 $1,805 $1,300 $0 $1,300 1.472.0%
15 $13,714 2
15 Walk-In Cooler Controls Elementary School 1,205 0.10 0 $2,340 $0 $0 $2,340 $240 $0 $240 9.80.5%
10 -$293 0
16 Pool Cover Elementary School 0 1,900 $21,000 $0 $0 $21,000 $0 $0 $0 #DIV/0!0.0%
20 -$21,000 11
19
Dishwasher Booster Heater Fuel
Switch Elementary School 730 -30 $8,280 $0 $0 $8,280 $90 $0 $90 92.0-28.0%
10 -$7,512 0
120,385 18.21 5,680 $753,155 $7,980 $346,760 $398,415 $27,590 $0 $27,590 14.40.0%
15 -$69,047 73
3
Increase Insulation on Hot Water
Pipes Firehouse 0 55 $50 $0 $0 $50 $130 $0 $130 0.4260.0%
20 $1,884 0
4
Install Vending Machine
Management System Firehouse 1,180 0.02 0 $180 $0 $0 $180 $250 $0 $250 0.7138.9%
15 $2,804 0
7 Upgrade Lighting Firehouse 31,730 8.52 0 $13,170 $2,640 $0 $10,530 $6,660 $0 $6,660 1.661.9%
8 $36,221 10
Energy Savings
The Elementary School also includes the BMS ECM#21 (ECM#21 has additional parts 21A- 21D) which is itemized below the values for this building include the BMS amounts
SUBTOTALS FOR CARRIAGE HOUSE
SUBTOTALS FOR CITY HALL
SUBTOTALS FOR ELEMENTARY SCHOOL
Page 1
Page 9
CITY OF CAPE MAY - Sorted by BuildingPrepared by Dome-Tech, Inc.
Energy Conservation Measures
(ECM) Buildings
Gross
Installation
Costs*
Rebates/
Incentive
Avoided
Cost
Net
Implementatio
n
Costs
Annual
Energy
Cost
Savings
Annual
Oper.
Cost
Savings
Total
Annual
Cost
Savings
Simple
Pay Back
Internal Rate of
Return (IRR)
Measure
Life
Lifecycle
Savings
CO2
Saving
s (lbs)
kWh kW Therms
Energy Savings
9 Condensing Boiler Firehouse 0 531 $21,010 $1,140 $17,600 $2,270 $1,270 $0 $1,270 1.855.9%
20 $16,624 3
10 Weatherstripping Firehouse 1,665 180 $2,450 $0 $0 $2,450 $790 $0 $790 3.129.9%
10 $4,289 2
12 Heat Pump SEER Upgrade Firehouse 510 0.08 0 $35,160 $530 $33,860 $770 $100 $0 $100 7.79.8%
15 $424 0
14 Replace Window AC Units Firehouse 150 0.02 0 $250 $0 $0 $250 $30 $0 $30 8.33.5%
10 $6 0
18
Upgrade to Energy Star Kitchen
Equipment Firehouse 1,130 0.09 0 $7,350 $0 $0 $7,350 $240 $0 $240 30.6-16.5%
10 -$5,303 0
36,365 8.75 766 $79,620 $4,310 $51,460 $23,850 $9,470 $0 $9,470 2.50.0%
12 $71,502 15
1 Destratification Fans Franklin Street School -1,130 1,110 $350 $0 $0 $350 $2,360 $0 $2,360 0.1674.3%
20 $34,761 6
2 Programmable Thermostats Franklin Street School 10,770 930 $270 $0 $0 $270 $4,450 $0 $4,450 0.11648.1%
15 $52,854 9
7 Upgrade Lighting Franklin Street School 890 0.23 0 $3,615 $320 $0 $3,295 $180 $0 $180 18.3-15.4%
8 -$2,031 0
10 Weatherstripping Franklin Street School 240 30 $1,450 $0 $0 $1,450 $110 $0 $110 13.2-4.7%
10 -$512 0
10,770 0.23 2,070 $5,685 $320 $0 $5,365 $7,100 $0 $7,100 0.80.0%
13 $70,302 15
2 Programmable Thermostats Hill House 2,650 290 $270 $0 $0 $270 $1,040 $0 $1,040 0.3385.2%
15 $12,145 3
7 Upgrade Lighting Hill House 310 0.14 0 $355 $40 $0 $315 $50 $0 $50 6.35.6%
8 $36 0
12 Heat Pump SEER Upgrade Hill House 160 0.08 0 $8,590 $160 $8,190 $240 $30 $0 $30 8.09.1%
15 $118 0
14 Replace Window AC Units Hill House 150 0.04 0 $250 $0 $0 $250 $30 $0 $30 8.33.5%
10 $6 0
20 Upgrade Windows Hill House 440 160 $77,200 $0 $0 $77,200 $360 $0 $360 214.4-16.4%
20 -$71,844 1
3,710 0.26 450 $86,865 $200 $8,190 $78,275 $1,510 $0 $1,510 51.80.0%
14 -$61,614 4
5 Computer Management System Library 1,150 0 $225 $0 $0 $225 $215 $0 $215 1.095.6%
15 $2,342 0
7 Upgrade Lighting Library 3,790 1.02 0 $2,310 $0 $0 $2,310 $710 $0 $710 3.325.9%
8 $2,674 1
9 Condensing Boiler Library 0 370 $21,010 $750 $16,900 $3,360 $900 $0 $900 3.726.5%
20 $10,030 2
4,940 1.02 370 $23,545 $750 $16,900 $5,895 $1,825 $0 $1,825 3.20.0%
15 $16,259 3
7 Upgrade Lighting Nature Center 1 4,770 1.25 0 $1,570 $170 $0 $1,400 $1,070 $0 $1,070 1.375.6%
8 $6,111 2
10 Weatherstripping Nature Center 1 500 0 $350 $0 $0 $350 $100 $0 $100 3.525.7%
10 $503 0
5,270 1.25 0 $1,920 $170 $0 $1,750 $1,170 $0 $1,170 1.50.0%
12 $10,109 2
2 Programmable Thermostats Nature Center 2 6,340 550 $530 $0 $0 $530 $3,070 $0 $3,070 0.2579.2%
15 $36,119 5
7 Upgrade Lighting Nature Center 2 1,240 0.37 0 $710 $70 $0 $640 $270 $0 $270 2.439.2%
8 $1,255 0
10 Weatherstripping Nature Center 2 240 30 $350 $0 $0 $350 $120 $0 $120 2.932.2%
10 $674 0
12 Heat Pump SEER Upgrade Nature Center 2 350 0.06 0 $17,980 $365 $17,080 $535 $100 $0 $100 5.416.9%
15 $659 0
8,170 0.42 580 $19,570 $435 $17,080 $2,055 $3,560 $0 $3,560 0.60.0%
12 $33,511 5
SUBTOTALS FOR NATURE CENTER 1
SUBTOTALS FOR NATURE CENTER 2
SUBTOTALS FOR FIRE HOUSE
SUBTOTALS FOR FRANKLIN STREET SCHOOL
SUBTOTALS FOR HILL HOUSE
SUBTOTALS FOR LIBRARY
Page 2
Page 10
CITY OF CAPE MAY - Sorted by BuildingPrepared by Dome-Tech, Inc.
Energy Conservation Measures
(ECM) Buildings
Gross
Installation
Costs*
Rebates/
Incentive
Avoided
Cost
Net
Implementatio
n
Costs
Annual
Energy
Cost
Savings
Annual
Oper.
Cost
Savings
Total
Annual
Cost
Savings
Simple
Pay Back
Internal Rate of
Return (IRR)
Measure
Life
Lifecycle
Savings
CO2
Saving
s (lbs)
kWh kW Therms
Energy Savings
2 Programmable Thermostats Physick Estate 7,280 800 $670 $0 $0 $670 $3,130 $0 $3,130 0.2467.2%
15 $36,696 7
7 Upgrade Lighting Physick Estate 13,000 5.47 0 $6,090 $700 $0 $5,390 $2,090 $0 $2,090 2.635.3%
8 $9,281 4
12 Heat Pump SEER Upgrade Physick Estate 830 0.14 0 $42,320 $850 $40,220 $1,250 $100 $0 $100 12.52.4%
15 -$56 0
13
Replace Storage Electric Water
Heater to Instantaneous Water
Heater Physick Estate 140 0.00 0 $160 $0 $0 $160 $20 $0 $20 8.010.9%
20 $138 0
20 Upgrade Windows Physick Estate 2,600 950 $404,930 $0 $0 $404,930 $2,690 $0 $2,690 150.5-14.5%
20 -$364,910 6
23,850 5.60 1,750 $454,170 $1,550 $40,220 $412,400 $8,030 $0 $8,030 51.40.0%
16 -$313,518 17
2 Programmable Thermostats Public Works Building 8,770 770 $530 $0 $0 $530 $3,070 $0 $3,070 0.2579.2%
15 $36,119 7
4
Install Vending Machine
Management System Public Works Building 2,350 0.05 0 $360 $0 $0 $360 $440 $0 $440 0.8122.2%
15 $4,893 1
12 Heat Pump SEER Upgrade Public Works Building 1,100 0.18 0 $40,040 $1,130 $37,240 $1,670 $200 $0 $200 8.48.4%
15 $718 0
14 Replace Window AC Units Public Works Building 310 0.04 0 $500 $0 $0 $500 $60 $0 $60 8.33.5%
10 $12 0
17 Replace Garage Bay Doors Public Works Building 0 960 $44,610 $0 $0 $44,610 $1,570 $0 $1,570 28.4-3.1%
20 -$21,252 6
12,530 0.27 1,730 $86,040 $1,130 $37,240 $47,670 $5,340 $0 $5,340 8.90.0%
15 $16,079 14
7 Upgrade Lighting Waterworks Building 1,620 0.47 0 $2,350 $290 $0 $2,060 $310 $0 $310 6.64.3%
8 $116 1
11 Premium Efficient Motors Waterworks Building 4,260 0.60 0 $47,990 $820 $0 $47,170 $820 $0 $820 57.5-8.5%
20 -$34,970 1
5,880 1.07 0 $50,340 $1,110 $0 $49,230 $1,130 $0 $1,130 43.60.0%
15 -$36,028 2
2 Programmable Thermostats
Welcome /
Transportation Center 5,700 490 $400 $0 $0 $400 $2,420 $0 $2,420 0.2605.0%
15 $28,490 5
4
Install Vending Machine
Management System
Welcome /
Transportation Center 2,350 0.05 0 $360 $0 $0 $360 $440 $0 $440 0.8122.2%
15 $4,893 1
7 Upgrade Lighting
Welcome /
Transportation Center 4,560 1.32 0 $2,450 $530 $0 $1,920 $860 $0 $860 2.242.1%
8 $4,117 2
10 Weatherstripping
Welcome /
Transportation Center 480 50 $700 $0 $0 $700 $220 $0 $220 3.229.0%
10 $1,177 0
13,090 1.37 540 $3,910 $530 $0 $3,380 $3,940 $0 $3,940 0.90.0%
13 $37,244 8
21 Building Management System Elementary School 19,510 3,810 $323,250 $0 $0 $323,250 $8,890 $0 $8,890 36.4-9.5%
15 -$217,122 29
21A Demand Controlled Ventilation Elementary School 10,680 260 $19,050 $0 $0 $19,050 $2,000 $0 $2,000 9.56.3%
15 $4,826 5
21B
Temperature Setpoint
Optimization Elementary School 1,300 3,310 $3,200 $0 $0 $3,200 $5,530 $0 $5,530 0.6172.8%
15 $62,817 20
21C Holiday Time of Day Optimization Elementary School 5,260 240 $1,600 $0 $0 $1,600 $940 $0 $940 1.758.7%
15 $9,622 3
21D
Exhaust Fan Time of Day
Optimization Elementary School 2,270 0 $10,780 $0 $0 $10,780 $420 $0 $420 25.7-6.1%
15 -$5,766 1
TotalsTOTALS
393,970 44.08 15,490 $1,892,740 $23,005 $681,320 $1,188,215 $83,275 $0 $83,275 14.3 0% 14 -$259,793 436
Notes:
1. KW - Where Zero (0) values are shown in the table there is no demand reduction for this measure.
2. Rebates- Where Zero (0) values are shown in the table we could not find any rebates of other financial incentives that are currently available for this measure.
SUBTOTALS FOR PHYSICK ESTATE
SUBTOTALS FOR PUBLIC WORKS BUILDING
SUBTOTALS FOR WATERWORKS BUILDING
SUBTOTALS FOR WELCOME / TRANSPORTATION
CENTER
Building Management System ECMS #21 A - D are added together in the BMS ECM#21. The total of ECM #21 are added to the Elementary School Subtotals
Page 3
Page 11
City of Cape May, NJ DRAFT - Energy Audit Report, July 2011
Energy Audit Purpose & Scope
Purpose:
The objectives of the energy audit are to evaluate each site’s energy consumption,
establish baselines for energy efficiency and identify opportunities to reduce the amount
of energy used and/or its cost.
Scope:
I. Historic Energy Consumption: Benchmark energy use using Energy Star Portfolio
Manager
II. Facility Description – characterize building usage, occupancy, size and construction.
III. Equipment Inventory – detailed equipment list including useful life and efficiency.
IV. Energy Conservation Measures: Identify and evaluate opportunities for cost savings and
economic returns.
V. Renewable/Distributed Energy Measures: evaluate economic viability of various
renewable/distributed energy technologies.
VI. Energy Purchasing and Procurement Strategies: perform utility tariff analysis and assess
potential for savings from energy procurement strategies.
VII.Method of Analysis: Appendices
Page 12
City of Cape May, NJ DRAFT - Energy Audit Report, July 2011
Historic Energy Consumption
Utility Usage and Costs Summary Time-period: April 2010 – April 2011
Please see Appendix for full utility data and consumption profiles for all buildings.
Annual
Consumption
Annual
Consumption
kWh CCF
0385 1679 9996 266,367 $51,768.61 $0.194 41855129015 4,527 $10,723.16 $2.369
0385 2119 9992 10,898 $2,155.44 $0.198 41855095018 3,676 $8,601.57 $2.340
0343 9849 9979 32,218 $6,055.59 $0.188 41953448408 1,495 $3,724.63 $2.491
0386 2979 9982 1,537,000 $295,147.83 $0.192 41652031000 3,255 $7,777.49 $2.389
0385 1729 9996 116,720 $24,537.01 $0.210 41855127019 3,874 $9,252.81 $2.388
0343 9069 9915 23,203 $4,371.53 $0.188 41652005509 6,809 $11,168.80 $1.640
0385 5629 9998 74,217 $11,929.91 $0.161 41854843103 3,291 $7,873.84 $2.393
0385 5629 9972 57,675 $9,337.04 $0.162 41854366022 2,055 $3,539.64 $1.722
0385 5629 9980 18,672 $3,122.90 $0.167 41854481003 1,276 $2,306.01 $1.807
1245 3099 9992 55,166 $10,294.06 $0.187 41952000317 2,698 $6,551.85 $2.428
1108 5259 9999 10,297 $2,309.70 $0.224
1108 5259 9890 4,257 $934.48 $0.220 41854825209 714 $1,917.43 $2.685
0385 4449 9999 353,640 $65,263.00 $0.185 41852085012 31,600 $50,589.40 $1.601
TOTAL 2,560,330 $487,227.10 $0.190 TOTAL 65,270 $124,026.65 $1.900
* Missing Electrical supplier costs for the accounts, assumption of $0.139 from the highest monthly amount charged per KWH by Glacial Electric at other facilities.
NA
Welcome / Transportation
Fire House
Physick Estate
Hill House
Account
NumberAnnual Cost $ / kWh
Electric - ACE
Library
Nature Center 1 *
Nature Center 2 *
Cape May City Elementary *
Natural Gas - SJG
Cape May City Hall
Franklin Street School
Water Works Building
Account
NumberAnnual Cost $ / CCF
Buildings
Public Works Complex
Carriage House
Page 13
City of Cape May, NJ DRAFT - Energy Audit Report, July 2011
Historic Energy Consumption
ENERGY STAR SCORES
Energy Star Score is calculated to establish a facility-specific energy intensity baseline.
Energy Star can be used to compare energy consumption to other similar facilities and to
gauge the success of energy conservation and cost containment efforts.
Buildings with an Energy Star rating/score of 75, or above, are eligible to apply for an official
Energy Star Building label.
Facility Name
Total
Floor
Area
Energy Star
Score
Eligible to
Apply for
ENERGY
STAR
Current
Site Energy
Intensity
(kBtu/SF)
Current
Source
Energy
Intensity
(kBtu/SF)
Average
Source EUI by
Building Type
*
Cape May City Hall 22,479 61 NA 61.3 157.2
Franklin Street School 10,676 NA NA 35.9 45.6 136-Recreation
Welcome / Transportation Center 2,000 NA NA 131.1 265.2 150 - Service
Water Works Building 3,420 NA NA 1634.8 5235.5 213 - Other
Fire House 2,000 NA NA 398.9 234.4 157 - Fire
Public Works Complex 6,840 NA NA 113.0 144.8 213 - Other
Physick Estate 6,632 20 NA 88.6 180.8
Carriage House 3,783 NA NA 108.1 234.4 265-Entertain
Hill House 1,296 NA NA 151.0 273.8 265-Entertain
Library 4,164 NA NA 111.7 221.3 246 - Library
Nature Center 1 1,296 NA NA 26.4 88.1 136-Recreation
Nature Center 2 1,876 NA NA 46.3 66.7 136-RecreationCape May City Elementary School 43,560 36 NA 101.5 169.8
* Note for Average Source EUI: This data comes from the 2003 CBECS National Average Source and Site Energy Use and Performance
Comparisions by Building Type. This is Average EUI is used only w here Portfolio Manager does not have the buidling category list
Page 14
City of Cape May, NJ DRAFT - Energy Audit Report, July 2011
Historic Energy Consumption (continued)
Portfolio Manager Sign - In
An account has been created for the City of Cape May in Portfolio Manager. You will
have received an email to notify you of the generation of this account and shared
access with Dome-Tech. Please use this to read your facility information. Please feel
free to alter this information when the report is finalized. We would ask that you leave
the sign-in information alone until then. Your city’s information is currently shared as
read only.
When the report is finalized the shared access will be changed so that you can use /
edit the information and change as you wish.
Website link to sign-in:https://www.energystar.gov/istar/pmpam/index.cfm?fuseaction=login.Login
Username: CityOfCapeMay
Password: DTCityOfCapeMay
Email for account: [email protected]
Page 15
City of Cape May, NJ DRAFT - Energy Audit Report, July 2011
Facility Information
Building Name: Cape May City
Elementary SchoolAddress: 921 Lafayette Street
Cape May, NJ 08204
Gross Floor Area: 43,560 s.f.
Year Built: 1965 with major renovation in 2003
# Occupants: 140 students; 80 staff
Usage: The building is an elementary school serving grades PreK through
grade 6. The building is operated Mon-Fri from 6:30 am until
9:30 pm; closed weekends and holidays.
Construction Features:Facade: One story, brick/block concrete, in good condition
Roof Type: Flat, black, concrete deck, built-up, rubber roof, in good condition
Windows: Covering approximately 20% of façade, metal frame, dual pane, operable,
in good condition
Exterior Doors: Approximately 30+ metal frame, fiberglass, in good condition
Page 16
City of Cape May, NJ DRAFT - Energy Audit Report, July 2011
Facility Information
Major Mechanical Systems
Air Handlers / AC Systems / Ventilation Systems
The elementary school gym has three (3) packaged rooftop units that are equipped with direct expansion (Dx) cooling.
The perimeter spaces are served by unit ventilators (UV) , fan coil units (FCU) and unit heaters (UH) and are equipped
with hot water heating coils. Offices and classrooms are served by twenty-seven (27) split AC units. Approximately 20
exhaust fans serve areas various areas including mechanical/boiler rooms, toilets, and offices.
Boilers
Two (2) Aerco Benchmark modular condensing, natural gas fired hot water boilers with 2,000 MBH capacity each.
These boilers operate in a lead lag sequence. The boilers are served by two (2) 3-HP heating hot water pumps that
operate in a lead lag sequence and supply hot water to the school.
Domestic Hot Water
Domestic hot water is supplied by from a hot water storage tank which is fed by the Aerco boilers via a heat
exchanger. The kitchen is served by one (1) Ruud, natural gas fired hot water heater.
Controls
The buildings’ heating and cooling equipment is controlled by a Building Management System (BMS) .
Page 17
City of Cape May, NJ DRAFT - Energy Audit Report, July 2011
Facility Information
Building Name: Physick EstateAddress: 1048 Washington Street
Cape May, NJ 08204
Gross Floor Area: 6,632 s.f.
Year Built: 1879
# Occupants: 25
Usage: The building is a museum, open 7 days per week from 9-5 for
tours. It is a historic landmark.
Construction Features:Facade: Three story Victorian home, wood, siding, in good condition
Roof Type: Pitched, red, cedar and copper tile, built up, wood deck, in good condition
Windows: Covering approximately 10% of façade, wood frame, single pane, double
hung, blinds, in good condition
Exterior Doors: Approximately 6, wood frame, in fair condition
Page 18
City of Cape May, NJ DRAFT - Energy Audit Report, July 2011
Facility Information
Major Mechanical Systems
Air Handlers / AC Systems / Ventilation Systems
The Physick Estate is served by five (5) split AC units, which serve offices.
Boilers
One (1) Trane, natural gas fired furnace with a capacity of 113 MBH.
Domestic Hot Water
One (1) Rheem electric domestic hot water heater with a storage capacity of 2.5 gallons serves the bathroom.
Controls
The buildings’ heating and cooling equipment is controlled by manual thermostats.
Page 19
City of Cape May, NJ DRAFT - Energy Audit Report, July 2011
Facility Information
Building Name: Carriage HouseAddress: 1048 Washington Street
Cape May, NJ 08204
Gross Floor Area: 3,783 s.f.
Year Built: 1876
# Occupants: 5 staff members
Usage: The building is a tea room and café, located on the grounds of
the Physick Estate, offering food, a gift shop, and tours. It is
operated 9-5 weekdays and weekends.
Construction Features:Facade: Two story, wood siding, in good condition.
Roof Type: Pitched, red, wood deck, built up, in good condition
Windows: Covering approximately 10% of façade, wood frame, single pane, double hung, in fair
condition (due to age)
Exterior Doors: Approximately 2, wood frame, in fair condition (due to age)
Page 20
City of Cape May, NJ DRAFT - Energy Audit Report, July 2011
Facility Information
Major Mechanical Systems
Air Handlers / AC Systems / Ventilation Systems
The Carriage House is served by three (3) split AC units, which serve offices and common areas. There is one (1) 10
ton packaged rooftop unit equipped with DX cooling coil and an indirect fired natural gas heater.
Boilers
One (1) Crown cast iron natural gas fired hot water boiler with a capacity of 280 MBH.
Domestic Hot Water
One (1) Bradford White natural gas fired domestic hot water heater with a storage capacity of 40 gallons.
Controls
The buildings’ heating and cooling equipment is controlled by manual thermostats.
Page 21
City of Cape May, NJ DRAFT - Energy Audit Report, July 2011
Facility Information
Building Name: Hill HouseAddress: 1049 Washington Street
Cape May, NJ 08204
Gross Floor Area: 1,296 s.f.
Year Built: Late 1800’s
# Occupants: 5
Usage: The building houses offices. It is located on the Physick Estate
property. It is operated from 9-5 weekdays and weekends.
Construction Features:Facade: Two story, wood siding, in good condition
Roof Type: Pitched, red, wood cedar shingles, built up, in good condition
Windows: Covering approximately 10% of façade, wood frame, single pane, double
hung, blinds, in fair condition (due to age)
Exterior Doors: One door, wood frame, in good condition
Page 22
City of Cape May, NJ DRAFT - Energy Audit Report, July 2011
Facility Information
Major Mechanical Systems
Air Handlers / AC Systems / Ventilation Systems
The Hill House is served by two (2) split AC units, which serve offices and common areas. Various other offices are
cooled by window AC units.
Boilers
One (1) Weil McLain cast iron natural gas fired hot water boiler.
Controls
The building’s heating and cooling equipment is controlled by programmable and manual thermostats.
Page 23
City of Cape May, NJ DRAFT - Energy Audit Report, July 2011
Facility Information
Building Name: City HallAddress: 643 Washington Street
Cape May, NJ 08204
Gross Floor Area: 22,479 s.f.
Year Built: 1917
# Occupants: Approximately 50; police officers and administrative personnel
Usage: The building houses the police station and municipal offices. It
is operated M-F from 8:30 am until 4:30 pm; closed weekends
(occasionally open for community events)
Construction Features:Facade: Three story, brick, in fair condition (paint is fading, brick is in bad condition)
Roof Type: Flat, gray, wood deck, built up (unable to assess condition)
Windows: Covering approximately 20%, wood frame, dual pane, double hung, in fair
condition (age)
Exterior Doors: Approximately 8, wood/metal frame, in fair condition (age)
Page 24
City of Cape May, NJ DRAFT - Energy Audit Report, July 2011
Facility Information
Major Mechanical Systems
Air Handlers / AC Systems / Ventilation Systems
City Hall is served by sixteen (16) split AC units, which serve offices and common areas. Two (2) window AC units also
serve two offices.
Boilers
One (1) Weil McLain cast iron sectional, natural gas fired steam boiler with a capacity of 2904 MBH.
Domestic Hot Water
One (1) American Water natural gas fired, domestic hot water heater with a 70 gallon storage capacity.
Controls
The building’s heating and cooling equipment is controlled by manual thermostats.
Page 25
City of Cape May, NJ DRAFT - Energy Audit Report, July 2011
Facility Information
Building Name: Franklin Street SchoolAddress: 700 Franklin Street
Cape May, NJ 08204
Gross Floor Area: 10,676 s.f.
Year Built: 1927
# Occupants: Unoccupied, except for the recreation center
Usage: The building is used as a community cultural center. It is
operated from 9 am until 12 pm M-F.
Construction Features:Facade: Two story, brick, in fair condition (brick is in poor condition; re-pointing
needed)
Roof Type: Flat, gray, built up (unable to assess condition)
Windows: Covering approximately 20% of façade, wood frame, single pane, double
hung, in fair condition
Exterior Doors: Approximately 5, wood frame, in fair condition
Page 26
City of Cape May, NJ DRAFT - Energy Audit Report, July 2011
Facility Information
Major Mechanical Systems
Air Handlers / AC Systems / Ventilation Systems
The Franklin Street School is served by two (2) 8.5 ton packaged rooftop units equipped with DX cooling coils. Several
natural gas fired unit heaters serve the gym.
Boilers
One (1) Weil-McLain cast iron sectional, natural gas fired steam boiler with a capacity of 1,035 MBH.
Controls
The building’s heating and cooling equipment is controlled by manual thermostats.
Page 27
City of Cape May, NJ DRAFT - Energy Audit Report, July 2011
Facility Information
Building Name: Fire HouseAddress: 712 Franklin Street
Cape May, NJ 08204
Gross Floor Area: 2,000 s.f.
Year Built: 1960’s
# Occupants: 10
Usage: The building is a fire house. It is operated 24/7.
Construction Features:Facade: Two story, brick with aluminum façade, in good condition
Roof Type: Pitched, gray, metal deck, built up, in good condition
Windows: Covering approximately 10% of façade, metal frame, operable, in good
condition
Exterior Doors: Approximately 4, metal frame, and seven garage bay doors, in good
condition
Page 28
City of Cape May, NJ DRAFT - Energy Audit Report, July 2011
Facility Information
Major Mechanical Systems
Air Handlers / AC Systems / Ventilation Systems
Four (4) split AC units serve various rooms and offices. One (1) window AC unit serves an office. Two (2) exhaust fans
serve various areas including mechanical/boiler rooms, toilets, and offices.
Boilers
One (1) HB Smith cast iron sectional, natural gas fired hot water boiler with a capacity of 426 MBH. The boilers are
served by two pumps, which distribute hot water to the building.
Domestic Hot Water
One (1) Ruud natural gas fired domestic hot water heater has a 70 gallon storage capacity and is rated for 40 kBtuh.
Controls
The building’s heating and cooling equipment is controlled by a manual thermostat.
Page 29
City of Cape May, NJ DRAFT - Energy Audit Report, July 2011
Facility Information
Building Name: LibraryAddress: 110 Ocean Street
Cape May, NJ 08204
Gross Floor Area: 4,164 s.f.
Year Built: 1920’s
# Occupants: Seasonal variations from 100-200 people per day
Usage: The building is a public library that is open MWF from 9 am until
5 pm, T/TH from 9 am until 8 pm, and Saturdays from 9 am until
4 pm; closed Sundays and holidays
Construction Features:Facade: One story, concrete block and stucco, in good condition
Roof Type: Pitched, blue, wood deck, in good condition
Windows: Covering approximately 20% of façade, wood frame, double hung, in good
condition
Exterior Doors: Approximately 3, wood frame, in good condition
Page 30
City of Cape May, NJ DRAFT - Energy Audit Report, July 2011
Facility Information
Major Mechanical Systems
Air Handlers / AC Systems / Ventilation Systems
The Library has two (2) split AC units, which serve the offices.
Boilers
One (1) Weil McLain cast iron sectional, natural gas fired hot water boiler with a capacity of 427 MBH.
Domestic Hot Water
One (1) Ruud natural gas fired domestic hot water heater has a 70 gallon storage capacity and is rated for 40 kbtuh.
Controls
The building’s heating and cooling equipment is controlled by a manual thermostat.
Page 31
City of Cape May, NJ DRAFT - Energy Audit Report, July 2011
Facility Information
Building Name: Water Works BuildingAddress: Park Boulevard & Canning House Lane
Cape May, NJ 08204
Gross Floor Area: 3,420 s.f.
Year Built: 1926
# Occupants: 1
Usage: The building is a municipal water supply building that houses a
solar array.
Construction Features:Facade: Two story, brick, in good condition
Roof Type: Flat, black, wood deck, built up, (unable to assess condition)
Windows: Covering approximately 50% of façade, wood frame, dual pane, fixed, in
good condition
Exterior Doors: Approximately 2, metal frame plus 2 fiberglass garage bay doors
Page 32
City of Cape May, NJ DRAFT - Energy Audit Report, July 2011
Facility Information
Major Mechanical Systems
Air Handlers / AC Systems / Ventilation Systems
The Water Works Building has two (2) Reznor natural gas fired unit heaters, which serve the entire building.
Pumps
Fifteen (15) process pumps that are associated with the RO Filtration System and CO2 System.
Controls
The building’s unit heaters are by manual thermostats.
Page 33
City of Cape May, NJ DRAFT - Energy Audit Report, July 2011
Facility Information
Building Name: Public Works BuildingAddress: Park Blvd & Canning House Lane
Cape May, NJ 08204
Gross Floor Area: 6,840 s.f.
Year Built: 1970’s
# Occupants:
Usage: Public Works facility
Construction Features:Facade: One story, aluminum façade, in good condition
Roof Type: Pitched, yellow, metal deck, built up, in good condition
Windows: Covering approximately 10% of façade, metal frame, dual pane, operable,
in good condition
Exterior Doors: Approximately 2, metal frame, plus 6 garage bay doors, in good condition
Page 34
City of Cape May, NJ DRAFT - Energy Audit Report, July 2011
Facility Information
Major Mechanical Systems
Air Handlers / AC Systems / Ventilation Systems
The Public Works Building has four (4) split AC units, which serve various rooms and offices. Two (2) window AC
units condition two offices. Two (2) Reznor unit heaters and seven (7) infrared unit heaters serve the garage spaces.
Boilers
One (1) Heil natural gas fired furnace with a capacity of 150 MBH.
Controls
The building’s heating and cooling equipment is controlled by manual thermostats.
Page 35
City of Cape May, NJ DRAFT - Energy Audit Report, July 2011
Facility Information
Building Name: Welcome / Transportation
CenterAddress: 609 Lafayette Street
Cape May, NJ 08204
Gross Floor Area: 2,000 s.f.
Year Built: 2001 with major renovation in 2005
# Occupants: 2, transient others
Usage: The building is a welcome center and transportation center that
is operated 7 days a week from 9-5 (summer) and 10-4 (winter)
Construction Features:Facade: Two story, wood, in good condition
Roof Type: Pitched, red, wood deck, asphalt/aluminum, built up, in good condition
Windows: Covering 10% of façade, wood frame, dual pane, double hung, blinds, in
good condition
Exterior Doors: Approximately 3, in good condition
Page 36
City of Cape May, NJ DRAFT - Energy Audit Report, July 2011
Facility Information
Major Mechanical Systems
Air Handlers / AC Systems / Ventilation Systems
The Welcome Transportation Center has three (3) split AC units.
Boilers
One (1) Heil natural gas fired furnace with a capacity of 100 MBH.
Domestic Hot Water
One (1) Rheem natural gas fired domestic hot water heater with a 40 gallon storage capacity and is rated for 34
kBtuh.
Controls
The building’s heating and cooling equipment is controlled by a manual thermostat.
Page 37
City of Cape May, NJ DRAFT - Energy Audit Report, July 2011
Facility Information
Building Name: Nature Center 1Address: 1610 Delaware Avenue
Cape May, NJ 08204
Gross Floor Area: 1,296 s.f.
Year Built: 1990’s
# Occupants: unoccupied
Usage: The building is used occasionally for educational purposes
Construction Features:Facade: One story, wood, in good condition
Roof Type: Pitched, gray, wood deck, asphalt, built up, in good condition
Windows: Covering 10% of façade, dual pane windows, in good condition
Exterior Doors: Approximately 3, wood, in good condition
Page 38
City of Cape May, NJ DRAFT - Energy Audit Report, July 2011
Facility Information
Major Mechanical Systems
Heating
Electric Baseboard Heat
Domestic Hot Water
One (1) State Select electric domestic hot water heater with a 40 gallon storage capacity and is rated for 5.5 kW.
Controls
The building’s heating equipment is controlled by manual thermostats.
Page 39
City of Cape May, NJ DRAFT - Energy Audit Report, July 2011
Facility Information
Building Name: Nature Center 2Address: 643 Washington Street
Cape May, NJ 08204
Gross Floor Area: 1,876 s.f.
Year Built: 2005
# Occupants: Peaks at 100/day
Usage: Nature Center, operated Tues – Saturday 10 am – 3 pm;
and in the summer everyday from 9 am until 4 pm
Construction Features:Facade: Two story, vinyl siding, in good condition
Roof Type: Pitched, gray, wood deck, asphalt shingles, built up, in good condition
Windows: Covering 20% of façade, wood frame, dual pane, operable, in good
condition
Exterior Doors: Approximately 2, wood frame, in good condition
Page 40
City of Cape May, NJ DRAFT - Energy Audit Report, July 2011
Facility Information
Major Mechanical Systems
Air Handlers / AC Systems / Ventilation Systems
The Nature Center 2 has four (4) split AC units.
Boilers
Two (2) natural gas fired furnaces (Bryan and Arco-Aire).
Domestic Hot Water
One (1) Bradford Whilte natural gas fired domestic hot water heater with a 40 gallon storage capacity and is rated for
40 kBtuh.
Controls
The building’s heating and cooling equipment is controlled by manual thermostats.
Page 41
City of Cape May, NJ DRAFT - Energy Audit Report, July 2011
Greenhouse Gas Emission Reduction
Implementation of all identified ECMs will yield:
393,970 kilowatt-hours of annual avoided electric usage.
15,490 therms of annual avoided natural gas usage.
This equates to the following annual reductions:
221 tons of CO2;
-OR-
38 Cars removed from road;
-OR-
60 Acres of trees planted annually
The Energy Information Administration
(EIA) estimates that power plants in
the state of New Jersey emit s 0.666
lbs CO2 per kWh generated.
The Environmental Protection Agency
(EPA) estimates that one car emits
11,560 lbs CO2 per year.
The EPA estimates that reducing
CO2 emissions by 7,333 pounds
is equivalent to planting an acre of
trees.
Page 42
City of Cape May, NJ DRAFT - Energy Audit Report, July 2011
Energy Conservation Measure (ECM) #1: Destratification Fans
Due to a high ceiling in the Franklin Street School, thermal stratification is occurring. A
4°F temperature difference exists between the floor and the ceiling. The heat is rising
and is being trapped near the ceiling.
While the heat remains in the ceiling space, the thermostat is at eye-level. Under this
scenario, the heating system cycles more frequently than it should.
Destratification fans would gently re-distribute the heat at the ceiling back down to the
floor.
Franklin Street School
Estimated Annual Savings: $2,360
Gross Estimated Implementation Cost: $350
NJ Smart Start Rebate: $0
Net Estimated Implementation Cost: $350
Simple Payback (years): 0.1
Annual Avoided CO2 Emissions (tons): 6
Page 43
City of Cape May, NJ DRAFT - Energy Audit Report, July 2011
ECM #2: Programmable Thermostats
A review of the maintenance building showed that the rooftopunits were controlled by non-programmable thermostats.
Dome-Tech recommends replacing the non-programmablethermostats with programmable thermostats andimplementing temperature setback.
Installing programmable thermostats will provide scheduledtemperature control to prevent overheating and unnecessarycooling when the building is unoccupied.
Page 44
City of Cape May, NJ DRAFT - Energy Audit Report, July 2011
ECM #2: Programmable Thermostats (continued)
Ele
me
nta
ry
Sc
ho
ol
Fra
nk
lin S
t
Sc
ho
ol
Ca
rriag
e H
ou
se
City
Ha
ll
Ph
ysic
kE
sta
te
Hill H
ou
se
Na
ture
Ce
nte
r #2
Pu
blic
Wo
rks
Bu
ildin
g
We
lco
me
/ Tra
ns
Ctr.
TO
TA
L
Estimated Annual
Savings:$675 $4,450 $1,890 $6,290 $3,130 $1,040 $3,070 $3,070 $2,420 $26,035
Gross Estimated
Implementation Cost:$800 $270 $530 $2,130 $670 $270 $530 $530 $400 $6,130
NJ Smart Start Rebate: $0 $0 $0 $0 $0 $0 $0 $0 $0 $0
Net Estimated
Implementation Cost:$26,230 $3,295 $10,530 $5,390 $3,390 $315 $640 $2,060 $1,920 $57,480
Simple Payback
(years):1.2 0.1 0.3 0.3 0.2 0.3 0.2 0.2 0.2 0.2
Annual Avoided CO2
Emissions (tons): 1 9 5 41 7 3 5 7 5 83
Page 45
City of Cape May, NJ DRAFT - Energy Audit Report, July 2011
ECM #3: Install / Upgrade Pipe Insulation
Bare hot water piping was found in the Firehouse.
Bare piping should be insulated to reduce heat loss due to convection and radiation.
Fire House
Estimated Annual Savings: $130
Gross Estimated Implementation Cost: $50
NJ Smart Start Rebate: $0
Net Estimated Implementation Cost: $50
Simple Payback (years): 0.4
Annual Avoided CO2 Emissions (tons): 0
Picture: Firehouse un-insulated
pipes
Page 46
City of Cape May, NJ DRAFT - Energy Audit Report, July 2011
ECM #4: Vending Machine Power Management
Dome-Tech recommends installing a vending machine power
management device on all vending machines.
The device uses a passive infrared sensor to power down the machine
when the area surrounding it is vacant. It monitors the room’s
temperature and automatically re-powers the cooling system at one- to
three-hour intervals, independent of sales, to ensure that the product
stays cold.
The microcontroller will never power down the machine while the
compressor is running, eliminating compressor short-cycling. In addition,
when the machine is powered up, the cooling cycle is allowed to finish
before again powering down (reduces compressor wear and tear).
Carriage
House
Elementary
School
Public
Works
Building
Welcome/
Trans. Ctr.Fire House TOTAL
Estimated Annual Savings: $190 $220 $440 $440 $250 $1,540
Gross Estimated Implementation Cost: $180 $180 $360 $360 $180 $1,260
NJ Smart Start Rebate: $0 $0 $0 $0 $0 $0
Net Estimated Implementation Cost: $180 $180 $360 $360 $180 $1,260
Simple Payback (years): 0.9 0.8 0.8 0.8 0.7 0.8
Annual Avoided CO2 Emissions (tons): 0 0 1 1 0 2
Page 47
City of Cape May, NJ DRAFT - Energy Audit Report, July 2011
ECM #5: Computer Power Management System
According to staff, the majority of the City’s computers are left on continuously, wasting unnecessary
energy.
Installing a computer power management system will allow IT administrators to reduce per-PC operating
cost by reducing energy consumption via shutdown, standby and hibernate for PC’s and sleep for monitors.
Additionally, the software has the capability to set up profiles to optimize time of day schedules as well as
enhance network security and improve the success rate of network maintenance task by ensuring that PC’s
are accessible when IT needs them to be.
The capability of having an on-demand network-wide shutdown protects against virus outbreak or an
imminent power outage. Similarly, shutting down unattended PCs (whether logged onto or not) after
operating hours can help protect against unauthorized access to the PCs’ data or to network resources.
Approximate average annual electric consumption of computer components: PC Only: 120 kWh @ $0.15 per kWh = $18 per year
Monitor Only: 120 – 150 kWh @ $0.15 per kWh = $ 18 – 23 per year
Combined PC and Monitor: 200 kWh @ $0.15 per kWh = $30 per year
Elementary
SchoolLibrary TOTAL
Estimated Annual Savings: $545 $215 $760
Gross Estimated Implementation Cost: $575 $225 $800
NJ Smart Start Rebate: $0 $0 $0
Net Estimated Implementation Cost: $575 $225 $4,250
Simple Payback (years): 1.1 1.0 1.1
Annual Avoided CO2 Emissions (tons): 1 0 0
Page 48
City of Cape May, NJ DRAFT - Energy Audit Report, July 2011
ECM #6: Pool Pump VFD
Elementary School
Estimated Annual Energy Savings: $3,910
Gross Estimated Implementation Cost: $8,960
NJ Smart Start Rebate: $830
Net Estimated Implementation Cost: $8,130
Simple Payback (years): 2.1
Annual Avoided CO2 Emissions (tons): 7
The indoor pool has a circulation pump that is sized for 5.05 hours per turnover, whichexceeds the NJ State Sanitary Code of 8 hours per turnover or less.
The pool pump operates at constant speed, 24 hours per day, 365 days per year. Openhours for the pool are approximately: Mon-Fri 7 A.M. - 4:00 P.M.; Hours also varythroughout the year, depending on the school and city’s needs.
By installing a VFD on the pool pump, facilities staff can reduce the pump speed duringunoccupied hours to the minimum flow rate required to meet the state sanitary coderequirements. The existing flow rate can be maintained during occupied hours.
Page 49
City of Cape May, NJ DRAFT - Energy Audit Report, July 2011
ECM #7: Lighting Upgrade
Although most of the current light fixtures have higher efficiency T-8 fluorescent lamps and ballasts, the 32-watt lamps can be replaced with 28-watt lamps while maintaining the required lighting output as per state codes.
The schools’ gyms have older high intensity discharge (HID) lighting technology which should be retrofitted with High Output T8 fluorescent fixtures.
Furthermore, many areas such as rest rooms and storage closets were observed to have lights on regardless of occupancy. Installing occupancy sensors in these areas will automatically turn lights on/off according to actual occupancy by sensing the presence of people in the room. Occupancy sensors will typically reduce lighting energy costs by approximately 30%*.
*Source: Turner, Wayne, Energy Management Handbook, 1999.
Page 50
City of Cape May, NJ DRAFT - Energy Audit Report, July 2011
ECM #7: Lighting Upgrade (Continued)
Ele
men
tary
Sch
oo
l
Fra
nklin
St S
ch
oo
l
Fire
Ho
use
Ph
ysic
kE
sta
te
Carria
ge H
ou
se
Hill H
ou
se
Lib
rary
Natu
re C
en
ter #
1
Natu
re C
en
ter #
2
Wate
rwo
rks
Bu
ildin
g
Welc
om
e / T
ran
s
Ctr.
TO
TA
L
Estimated Annual
Savings:$8,550 $180 $6,660 $2,090 $2,340 $50 $710 $1,070 $270 $310 $860 $23,090
Gross Estimated
Implementation Cost:$29,630 $3,615 $13,170 $6,090 $3,690 $355 $2,310 $1,570 $710 $2,350 $2,450 $65,940
NJ Smart Start
Rebate:$3,400 $320 $2,640 $700 $300 $40 $0 $170 $70 $290 $530 $8,460
Net Estimated
Implementation Cost:$26,230 $3,295 $10,530 $5,390 $3,390 $315 $2,310 $1,400 $640 $2,060 $1,920 $57,480
Simple Payback
(years):3.1 18.3 1.6 2.6 1.4 6.3 3.3 1.3 2.4 6.6 2.2 2.5
Annual Avoided CO2
Emissions (tons): 15 0 10 4 5 0 1 2 0 1 2 40
Page 51
City of Cape May, NJ DRAFT - Energy Audit Report, July 2011
ECM #8: Rooftop Unit (RTU) Replacement
The Elementary School has rooftop units (RTUs) that are approximately11 years old and nearing the estimated equipment service life (EESL) perASHRAE standards. (The EESL for package rooftop units is 15 years.)
Replacing these RTU’s with new, higher efficiency units will significantlyreduce annual energy and maintenance costs.
New Jersey SmartStart offers rebates that usually pay for the incrementalcost to upgrade to higher efficient units.
Energy Efficiency Ratios*Elementary School Rooftop Unit
*Energy Efficiency Ratios: EER is
the rating of cooling output (Btu)
divided by the electrical energy
input (watts). The higher the
EER, the more efficient the unit.
*Savings do not include
maintenance savings.Unit Capacity (tons) Standard Proposed
5 13 14.3
10 10.1 12.3
* Note: Avoided Cost = Cost of
Like and Kind replacement.
Payback is based on incremental
cost.
Elementary School
Estimated Annual Savings: $1,400
Gross Estimated Implementation Cost: $98,940
NJ Smart Start Rebate: $2,370
Avoided Cost (Like and Kind Replacement): * $92,940
Net Estimated Implementation Cost: $3,630
Simple Payback (years): (Incremental and without Avoided Costs) 2.6 (69.0)
Annual Avoided CO2 Emissions (tons): 2
Page 52
City of Cape May, NJ DRAFT - Energy Audit Report, July 2011
ECM #9: Replace Boilers with Modulating Condensing Boilers
The Firehouse and Library boilers are 36 yrs old and 20 yrs old, respectively.
The Firehouse boiler exceeds the estimated equipment service life per ASHRAE standards and theLibrary boiler is nearing the end of the equipment service life (ASHRAE states the service life of similarequipment is 25 years).
The age and type of existing boilers do not lend themselves to efficient operation. Generally, as boilersapproach the end of their service life, the efficiency degrades and the boiler consumes more fuel inorder to produce the same rated output. In addition, there is a direct correlation between risk ofequipment failure (shell cracks and furnace surface area failure) and equipment age.
If the existing boilers are replaced by high efficiency, modulating condensing boilers, savings will berealized in two ways: Modulating boilers, usually 1,000 MBH or smaller, employ multiple burners to meet the heating load. Each burner
operates independently, eliminating the “all on/all off” operation of single burner boilers. As building loadincreases only those burners necessary to meet the load are fired. This allows each burner to run at optimalefficiency.
Condensing boilers recover energy from the exhaust gas, which results in efficiencies of 90% and above.
When a boiler is both a modulating/modular type and a condensing type, extremely high efficienciescan be realized.
Picture: Old Cast Iron Sectional
Boiler FirehousePicture: Library Cast Iron
Sectional Boiler
NOTE: The presented economics should be used for planning purposes only. If the client decides to proceed with any boiler replacement project,
these economics should be refined with an investment grade analysis.
Page 53
City of Cape May, NJ DRAFT - Energy Audit Report, July 2011
ECM #9: Replace Boilers w/ High Efficiency Modulating Condensing Boilers (continued)
The high first cost of a new boiler system may preclude this ECM from being justified by economicsalone at some of the facilities. The ECM table details the economics at each site. However, reliabilityissues warrant consideration of these projects as part of a long-term capital improvement plan.
Fire House Library TOTAL
Estimated Annual Savings: $1,270 $900 $2,170
Gross Estimated Implementation Cost: $21,010 $21,010 $42,020
NJ Smart Start Rebate: $1,140 $750 $1,890
Avoided Costs * (Like in Kind): $17,600 $16,900 $34,500
Net Estimated Implementation Cost: $2,270 $3,360 $5,630
Simple Payback (years): (Incremental and
without Avoided Costs)1.8 (15.7) 3.7 (22.5) 2.6 (18.5)
Annual Avoided CO2 Emissions (tons): 57 57 114
* Note: Avoided Cost = Cost of Like and Kind replacement. Payback is based on incremental cost.
Page 54
City of Cape May, NJ DRAFT - Energy Audit Report, July 2011
ECM #10: Weather stripping Exterior Doors
Many of the perimeter doors have poor weather stripping, which allows outside air to infiltrate conditioned areas causing an unnecessary increase in the heating, cooling and dehumidification load.
Dome-Tech recommends replacing all old weather stripping on perimeter doors that do not have vestibules.
Energy savings will be realized by reducing the amount of unconditioned outside air to enter the buildings.
Picture: City Hall Building
Infiltration Area
City HallFranklin
St School
Fire
House
Welcome/
Trans. Ctr.
Nature Ctr.
#1
Nature Ctr.
#2TOTAL
Estimated Annual Savings: $220 $110 $790 $220 $100 $120 $1,560
Gross Estimated
Implementation Cost:$700 $1,450 $2,450 $700 $350 $350 $6,000
NJ Smart Start Rebate: $0 $0 $0 $0 $0 $0 $0
Net Estimated
Implementation Cost:$700 $1,450 $2,450 $700 $350 $350 $6,000
Simple Payback (years): 3.2 13.2 3.1 3.2 3.5 2.9 3.9
Annual Avoided CO2
Emissions (tons): 0 0 2 1 0 0 3
Page 55
City of Cape May, NJ DRAFT - Energy Audit Report, July 2011
ECM #11: Replace Existing Motors with Premium Efficiency Motors
The existing motors serving pumps at the Elementary School and Waterworks Building are
standard efficiency motors. Standard efficiency motors consume more power than their
equivalent premium efficiency motors.
Dome-Tech recommends replacing the regularly operated standard efficiency motors with
new premium efficiency motors at the end of their useful lives.
See the Appendix for a detailed list of motors recommended for replacement by this ECM.
Elementary
School
Waterworks
BuildingTOTAL
Estimated Annual Savings: $1,770 $140 $1,290
Gross Estimated Implementation Cost: $2,385 $780 $6,600
NJ Smart Start Rebate: $190 $100 $525
Net Estimated Implementation Cost: $2,195 $680 $6,075
Simple Payback (years): 1.2 4.9 4.7
Annual Avoided CO2 Emissions (tons): 3 1 4
Page 56
City of Cape May, NJ DRAFT - Energy Audit Report, July 2011
ECM #12: Heat Pump Upgrade
The existing 1-4 ton, 8 SEER* Split Heat Pump Units(HP’s) are past their estimated equipment service life(EESL) per ASHRAE standards. (The EESL for heatpumps is 15 years.)
Replacing these HP’s with new, higher efficiency and fullycontrolled units will reduce annual energy costs.
New Jersey SmartStart offers rebates of $67 per ton for installing heat pump systems with SEERs greater than 14.
Nature Center Split System Heat
Pump Condensing Unit
*Seasonal Energy Efficiency Ratios: SEER is the rating
of cooling output (Btu) divided by the electrical energy
input (watts). The higher the SEER, the more efficient
the unit.
Page 57
City of Cape May, NJ DRAFT - Energy Audit Report, July 2011
ECM #12: Heat Pump Upgrade (Continued)
City HallPhysick
Estate
Carriage
House
Hill
House
Elementary
School
Fire
House
Public
Works
Building
Nature
Center
#2
TOTAL
Estimated Annual Savings: $700 $100 $100 $30 $1,300 $100 $200 $100 $2,630
Gross Estimated
Implementation Cost:$155,090 $42,320 $18,780 $8,590 $256,815
$35,16
0$40,040 $17,980 $574,775
NJ Smart Start Rebate: $3,730 $850 $490 $160 $1,190 $530 $1,130 $365 $8,445
Avoided Costs (Like and
Kind):$145,890 $40,220 $17,580 $8,190 $253,820
$33,86
0$37,240 $17,080 $553,880
Net Estimated
Implementation Cost:$5,470 $1,250 $710 $240 $1,805 $770 $1,670 $535 $12,450
Simple Payback: (Without
Avoided Costs)
7.8
(216.2)
12.5
(414.7)
7.1
(182.9)
8.0
(281.0)1.4 (196.6)
7.7
(346.3)
8.4
(194.6)
5.4
(176.2)
4.7
(215.3)
Annual Avoided CO2
Emissions (tons): 1 0 0 0 2 0 0 0 3
* Note: Avoided Cost = Cost of a standard efficiency unit. Incremental cost is the cost of premium
efficiency unit minus cost of standard efficiency unit.
Page 58
City of Cape May, NJ DRAFT - Energy Audit Report, July 2011
ECM #13: Install Timers on Domestic Hot Water Heaters
Electric domestic hot water (DHW) heaters are enabled 24/7. There is minimal call for
hot water at night.
Installing a timer will turn the heater on/off to match the building’s occupancy and hot
water use, and will reduce the standby heat loss that occurs during non-use periods.
Note that this ECM is mutually exclusive with other DHW-related ECMs.
Physick Estate
Estimated Annual Savings: $20
Gross Estimated Implementation Cost: $160
NJ Smart Start Rebate: $0
Net Estimated Implementation Cost: $160
Simple Payback (years): 8.0
Annual Avoided CO2 Emissions (tons): 0
Page 59
City of Cape May, NJ DRAFT - Energy Audit Report, July 2011
ECM #14: Replace Window AC Units
Window air conditioning units that are installed at theFirehouse, City Hall, Public Works Building and the Hill Houseprovide localized air conditioning for small private offices andstorage areas. The units are in poor physical condition andinefficient compared to today’s standards.
Dome-Tech recommends replacing these units with new,higher efficiency units.
New 10.5 SEER (Seasonal Energy Efficiency Rating) unitsare estimated to be at least 14% more efficient at full/partloads than the existing equipment.
City Hall
Public
Works
Building
Fire House Hill House TOTAL
Estimated Annual Savings: $60 $60 $30 $30 $180
Gross Estimated Implementation Cost: $500 $500 $250 $250 $1,500
NJ Smart Start Rebate: $0 $0 $0 $0 $0
Net Estimated Implementation Cost: $500 $500 $250 $250 $1,500
Simple Payback (years): 8.3 10.0 8.3 8.3 8.3
Annual Avoided CO2 Emissions (tons): 0 0 0 0 0
Public Works: Window AC Unit
Location Qty.
City Hall, Public Works 2 each
Firehouse, Hill House 1 each
Page 60
City of Cape May, NJ DRAFT - Energy Audit Report, July 2011
ECM #15: Walk-In Cooler Controllers
Typically the walk-in cooler evaporator fans run continuously.
However, full airflow is only required 50% of the runtime.
In the most common applications (those that use single-phase
power), motors for the fans are typically shaded-pole or permanent-
split-capacitor types, both of which are very inefficient.
Inexpensive controllers are currently available that slow these fans
when full-speed operation is unnecessary.
Reducing the operating speed reduces the energy consumption of
the fan. In addition, the motor produces less heat at slower speeds,
which means that the compressor has less heat to remove from the
refrigerated compartment.
Elementary School
Estimated Annual Savings: $240
Gross Estimated Implementation Cost: $2,340
NJ Rebate: $0
Net Estimated Implementation Cost: $2,340
Simple Payback (years): 9.8
Annual Avoided CO2 Emissions (tons): 0
Page 61
City of Cape May, NJ DRAFT - Energy Audit Report, July 2011
ECM #16: Pool Cover
Elementary School
Estimated Annual Energy Savings: $1,900
Gross Estimated Implementation Cost: $21,000
NJ Smart Start Rebate: $0
Net Estimated Implementation Cost: $21,000
Simple Payback (years): 11.1
Annual Avoided CO2 Emissions (tons): 7
There is a significant amount of heat and evaporative losses through thewater’s surface. Installing a pool cover during unoccupied periods willsignificantly reduce the building’s HVAC cooling load.
The analysis assumes the pool cover will be in place for 8 hours per day, 180days per year.
Page 62
City of Cape May, NJ DRAFT - Energy Audit Report, July 2011
ECM #17: Replace Garage Bay Door
Public Works Building – Garage Bay Door
Estimated Annual Savings: $1,570
Gross Estimated Implementation Cost: $44,610
NJ Smart Start Rebate: $0
Net Estimated Implementation Cost: $44,610
Simple Payback (years): 28.4
Annual Avoided CO2 Emissions (tons): 6
A garage bay door replacement project would result in a measurable improvement in
heat retention. In addition, increased aesthetic value and occupant comfort would
accompany a window and door project. It should be noted however, that even a garage
bay door replacement project can rarely be justified solely on economic payback.
Because the economics alone are not sufficient to justify implementation, occupant
comfort and aesthetics should be the overriding considerations in deciding whether to
move forward with this project.
Page 63
City of Cape May, NJ DRAFT - Energy Audit Report, July 2011
ECM #18: Replace Kitchen Equipment with Energy Star Rated Equipment
Most of the kitchen equipment (reach-in coolers/freezers, food warmers,
dishwashers) in the buildings are older and less efficient than newer,
higher efficiency equipment.
Replacing the electric equipment with higher efficiency Energy Star-
labeled equipment will provide at approximately $430 in annual savings.
Improvements in kitchen equipment include lower idle rates, better
insulation which reduces the amount of standby losses through sides and
top, and premium efficient fan motors.
Convection Oven
Freezer Refrigerator
Stove
Dishwasher
Fire
House
Carriage
HouseTOTAL
Estimated Annual Savings: $240 $190 $430
Gross Estimated Implementation Cost: $7,350 $7,350 $14,700
NJ Smart Start Rebate: $0 $0 $0
Net Estimated Implementation Cost: $7,350 $7,350 $14,700
Simple Payback (years): 30.6 38.7 34.2
Annual Avoided CO2 Emissions (tons): 0 0 0
Page 64
City of Cape May, NJ DRAFT - Energy Audit Report, July 2011
ECM #19: Replace Electric Dishwasher Booster Heater
The elementary school’s kitchen is equipped with electric hot water booster heaters
for dishwashing.
The school’s electric cost is over $0.185 per kilowatt hour. The equivalent natural
gas cost for a 85% efficient natural gas hot water heater is $4.60 per therm. The
actual price for natural gas is approximately $1.60 per therm (almost 300% less
than electric heat).
Replacing the electric heaters with natural gas units will provide at least $90 in
annual savings and will reduce electric demand by 2 kW.
Elementary School
Estimated Annual Savings: $90
Gross Estimated Implementation Cost: $8,280
NJ Rebate: $0
Net Estimated Implementation Cost: $8,280
Simple Payback (years): 92.0
Annual Avoided CO2 Emissions (tons): 0
Page 65
City of Cape May, NJ DRAFT - Energy Audit Report, July 2011
ECM #20: Upgrade Windows
A survey of the Physick Estate, Carriage House and Hill House revealed a mixture of
window types, sizes and existing conditions.
A window project would result in a measurable improvement in heat retention, aesthetics
and occupant comfort. It should be noted however, that even an optimized window project
can rarely be justified solely on economic payback.
Because the economics alone are not sufficient to justify implementation, occupant comfort
and aesthetics should be the overriding considerations in moving forward with this project.
NOTE: The presented economics should be used for planning purposes only. If the City decides to proceed with the window replacement project, these
economics should be refined with an investment grade analysis.
Physick
Estate
Carriage
House
Hill
HouseTOTAL
Estimated Annual Savings: $2,690 $630 $360 $3,680
Gross Estimated Implementation Cost: $404,930 $138,970 $77,200 $621,100
NJ Smart Start Rebate: $0 $0 $0 $0
Net Estimated Implementation Cost: $404,930 $138,970 $77,200 $621,100
Simple Payback (years): 150.5 220.6 214.4 168.7
Annual Avoided CO2 Emissions (tons): 6 5 1 12
Page 66
City of Cape May, NJ DRAFT - Energy Audit Report, July 2011
ECM #21: Building Management System
A building management system (BMS) is a computer system designed specifically for the automatedcontrol and monitoring of the heating, ventilation and lighting systems for a single facility or group ofbuildings. The BMS can also be used for data collection and used to produce trend analyses and annualconsumption forecasts.
This facility has a controller-based centralized energy management system. However, the HVACsystems are currently being operated manually. The energy management system has limited capabilityto allow building personnel to operate the HVAC systems in a more efficient manner.
Due to the limitations of the current controls system, Dome-Tech recommends installing a computerbased Building Management System that will enable the following strategies to be implemented:
Time of Day Optimization
Setpoint Optimization
Demand Control Ventilation
Exhaust Fan TOD Optimization
Holiday Time of Day Optimization
Elementary School
Estimated Annual Savings: $8,890
Gross Estimated Implementation Cost: $323,250
NJ Smart Start Rebate: $0
Net Estimated Implementation Cost: $342,230
Simple Payback (years): 36.4
Annual Avoided CO2 Emissions (tons): 29
Current Energy
Management System
The savings and
economic summary
shown here is the
aggregate of ECM
#21A thru 21D, which
are shown on the
following pages.
Page 67
City of Cape May, NJ DRAFT - Energy Audit Report, July 2011
ECM #21A: Demand Controlled Ventilation
Building codes require that a minimum amount of fresh air be provided to ensure adequate air quality. To
comply, ventilation systems often operate at a fixed rate based on an assumed occupancy (e.g., 20 CFM
per person multiplied by the maximum design occupancy). Since maximum design occupancy is rarely
achieved, this results in excessive fresh air volumes which require costly and unnecessary conditioning.
Demand-controlled ventilation (DCV) controls the amount of outside air being supplied based upon the
CO2 levels generated by building occupants. DCV should be added to any space that is ventilated by a
large quantity of outdoor air, and where occupancy varies dramatically (gymnasiums).
Because CO2 levels correlate directly with the number of people in an occupied zone, CO2 sensors will
be used to control the amount of outside air supplied to each zone. Reducing the amount of outdoor air
supplied to a zone reduces the energy required to heat and cool the air, while space conditions are kept
in compliance with building codes and standards such as the ASHRAE Indoor Air Quality Standard.
Elementary School
Estimated Annual Savings: $2,000
Gross Estimated Implementation Cost: $19,050
NJ Smart Start Rebate: $0
Net Estimated Implementation Cost: $19,050
Simple Payback (years): 9.5
Annual Avoided CO2 Emissions (tons): 5
Page 68
City of Cape May, NJ DRAFT - Energy Audit Report, July 2011
ECM #21B: Optimize and Standardize the Space Temperature Setpoints
In the Elementary School, the current space temperature setpoints were inconsistent
and ranged between 73-76°F.
A majority of the Unit Ventilators (UV’s) and RTUs have higher than recommended
heating setpoints, which results in higher than expected heating costs.
Dome-Tech recommends optimizing the HVAC setpoints according to the table on the
following page.
Elementary School
Estimated Annual Savings: $5,530
Gross Estimated Implementation Cost: $3,200
NJ Smart Start Rebate: $0
Net Estimated Implementation Cost: $3,200
Simple Payback (years): 0.6
Annual Avoided CO2 Emissions (tons): 20
Page 69
City of Cape May, NJ DRAFT - Energy Audit Report, July 2011
ECM #21B: Setpoint Optimization (continued)
BMS vs. Proposed Setpoints
Unit Location
Winter
Setpoint
°F
Proposed
Winter
Setpoint
°F
Temperature
Difference
°F
Summer
Setpoint
°F
Proposed
Summer
Setpoint
°F
Temperature
Difference
°F
17 38CKS048S 73 70 3 73 75 2
1 38CKS048S 76 70 6 NA NA NA
14 38CKS048S 74 70 4 74 75 1
16 38CKS048S 73 70 3 73 75 2
17 38CKS048S 74 70 4 74 75 1
18 38CKS048S 72 70 2 72 75 3
19 38CKS048S 74 70 4 74 75 1
2 38CKS048S 74 70 4 74 75 1
20 38CKS048S 75 70 5 75 75 0
25 38CKS048S 73 70 3 73 75 2
26A 38CKS048S 75 70 5 75 75 0
26B 38CKS048S 74 70 4 74 75 1
27 38CKS048S 73 70 3 73 75 2
3 38CKS048S 74 70 4 74 75 1
30 38CKS048S 74 70 4 74 75 1
31 38CKS048S 76 70 6 NA NA NA
37 38CKS048S 75 70 5 75 75 0
38 38CKS048S 74 70 4 74 75 1
39 38CKS048S 75 70 5 75 75 0
4A 38CKS048S 74 70 4 74 NA 1
4B 38CKS048S 75 70 5 75 75 0
Page 70
City of Cape May, NJ DRAFT - Energy Audit Report, July 2011
ECM #21C: Holiday Time of Day Optimization
A review of the BMS time of day schedules revealed that no holiday schedulesare programmed.
Unless each facility manually shuts down all the HVAC equipment, they areoperating unnecessarily during school holidays. This increases HVACconditioning costs as well as electrical motor operating costs.
These savings can easily be achieved by programming the BMS holidayschedules to unoccupied mode and applying it to holidays in the BMS.
Elementary School
Estimated Annual Savings: $940
Gross Estimated Implementation Cost: $1,600
NJ Smart Start Rebate: $0
Net Estimated Implementation Cost: $1,600
Simple Payback (years): 1.7
Annual Avoided CO2 Emissions (tons): 3
Page 71
City of Cape May, NJ DRAFT - Energy Audit Report, July 2011
ECM #21D: Exhaust Fan Time of Day Optimization
The building’s exhaust fans currently run
twenty four hours per day, seven days per
week. This scenario leads to unnecessary
fan power and make-up air requirements.
Setting the exhaust fans to run at certain
times or on demand will lower energy
consumption by $420 annually.
Unit Area Served HP
Existing
Annual Run
Hours
Proposed
Annual Run
Hours
Estimated
Savings
EF - 1 0.125 0.75 4,320 2,700 $17
EF - 2 0.125 0.75 4,320 2,700 $17
EF - 3 0.125 0.75 4,320 2,700 $17
EF - 4 0.125 0.75 4,320 2,700 $17
EF - 5 0.125 0.75 4,320 2,700 $17
EF - 6 0.125 0.75 4,320 2,700 $17
EF - 7 0.125 0.75 4,320 2,700 $17
EF - 8 0.125 0.75 4,320 2,700 $17
Hours of
OperationOn Off Hrs/Day
Existing 0 24 24
Proposed 6 21 15
Elementary School
Estimated Annual Savings: $420
Gross Estimated Implementation Cost: $10,780
NJ Smart Start Rebate: $0
Net Estimated Implementation Cost: $10,780
Simple Payback (years): 25.7
Annual Avoided CO2 Emissions (tons): 1
Page 72
City of Cape May, NJ DRAFT - Energy Audit Report, July 2011
Water Conservation
Dome-Tech recommends installing low flow faucets and waterless urinals in all restrooms. Thesefixtures, in some cases, can use up to five (5) times less water than fixtures installed before 1980.
Waterless urinals work completely free of water or flush valves and help eliminate odor. The fixtures arealso touch free which also help to improve restroom sanitation.
The estimated annual savings will result from reduced water consumption and hot water generated bythe domestic hot water heaters.
Diagram: Waterless Urinal
Hill H
ou
se
City
Hall
Natu
re C
en
ter 2
Carria
ge H
ou
se
Lib
rary
Wate
r Wo
rks
Fra
nklin
Stre
et S
ch
oo
l
Fire
ho
use
Ele
men
tary
Sch
oo
l
Ph
ysic
kE
sta
te
Pu
blic
Wo
rks
To
tal
Estimated Annual Savings: $44 $442 $297 $206 $564 $15 $53 $74 $740 $324 $564 $3,323
Gross Estimated
Implementation Cost:$1,276 $11,406 $3,212 $2,882 $6,354 $638 $3,802 $3,212 $19,010 $1,914 $6,424 $60,130
Simple Payback (years): 29.0 25.8 10.8 14.0 11.3 43.2 71.6 43.5 25.7 5.9 11.4 18.1
Page 73
City of Cape May, NJ DRAFT - Energy Audit Report, July 2011
Operations & Maintenance
Elementary School
Issue: Loaded Filters for Air Handling Units
Impact: Pressurization issues, improper ventilation, noise hazard, wasteful over
loading supply fan motor.
Recommendation: Planned maintenance, functional checks and inspections on
filters
Approximately $50 annual savings expected O&M savings from this measure
Elementary School – Loaded Filters
Page 74
City of Cape May, NJ DRAFT - Energy Audit Report, July 2011
Operations & Maintenance (Continued)
Elementary School - Windows Open while AC is running
Elementary School - Open windows while
space is being air-conditioned
Issue: Doors and Windows open while AC is running
Impact: Excessive HVAC cost due to outside air infiltration.
Recommendation: Emphasize closing of windows and doors while
AC units are on. Energy Awareness Program.
Page 75
City of Cape May, NJ DRAFT - Energy Audit Report, July 2011
Operations & Maintenance (Continued)
Elementary School - Damaged Skylights
Elementary School – Cracked Skylights
Issue: Damaged Skylights
Impact: Excessive HVAC cost due to outside air infiltration.
Recommendation: Replace broken skylights
Page 76
City of Cape May, NJ DRAFT - Energy Audit Report, July 2011
Renewable/Distributed Energy Measures
Distributed Generation & Renewable Energy
Distributed Generation (on-site generation) generates electricity from many small energy sources. These sources can be renewable (solar/wind/geothermal) or can be small scale power generation technologies (CHP, fuel cells, microturbines)
Renewable energy is energy generated from natural resources (sunlight, wind, and underground geothermal heat) which are naturally replenished.
Page 77
City of Cape May, NJ DRAFT - Energy Audit Report, July 2011
Renewable Energy Technologies: Wind
Wind turbines generate electricity by harnessing a wind stream's kinetic energy as it spins the turbine airfoils. As with most renewable energy sources, wind
energy is subject to intermittent performance due to the unpredictability of wind resources.
City of Cape May Wind Speed
Wind speed is critical to the successful wind turbine installation. According to average wind data from NASA’s Surface Meteorology and Solar Energy
records, the average annual wind speed for the Cape May area is 9.6 meters per second. Ideal wind speeds for a successful project should average over 6
meters per second.
For City of Cape May, Dome-Tech considered three (3) types of wind turbine technologies; building integrated wind turbines (1 kW each) and traditional
ground mounted wind turbines (5 kW & 50 kW).
Building Integrated Wind Turbines
Model: AeroVironment AVX1000
Height: 8.5’
Rotor Diameter: 6’
Weight: 130 lbs.
Cut-In Wind Speed: 2.2 m/s
Maximum Generating Capacity: 1 kW
5 kW Ground Mount
Model: WES5 Tulipo
Height: 40’
Rotor Diameter: 16’
Weight: 1,900 lbs.
Cut-In Wind Speed: 3.0 m/s
Maximum Generating Capacity: 5.2 kW
50 kW Ground Mount
Model: Entegrity EW50
Height: 102’
Rotor Diameter: 50’
Weight: 21,000 lbs.
Cut-In Wind Speed: 4.0 m/s
Maximum Generating Capacity: 50 kW
Page 78
City of Cape May, NJ DRAFT - Energy Audit Report, July 2011
Renewable Energy Technologies: Wind
Wind Turbine Pros & Cons
Pros Cons
Annual reduction in energy spend and use can be potentially
reduced by almost $31,200 (47% reduction).
Typical equipment life span is 15-30 years.
Reduction of annual greenhouse gas emissions by 59 tons per
year.
A wind turbine project could be incorporated into science and other
curriculums to raise student awareness of energy alternatives.
High visible “green” project.
Payback period can be significant (over 10 years).
Average area wind speed is borderline which could impact overall
performance.
Prone to lighting strikes.
Bird collisions are likely, but may be reduced with avian guard
(building integrate only).
Zoning may be an issue. Check with local zoning regulations.
Wind turbines do create noise, although below 50 dB (a typical car
ride is over 80 dB).
The project economics and wind turbine pros and cons are presented in the following tables:
Should the City decide to pursue a wind turbine project, Dome-Tech recommends commissioning a more detailed study
including installing an anemometer to collect site specific wind data over a year’s time.
Wind Turbine Economics: City of Cape May - Elementary School
Building Integrated - 1 kW Ground Mount - 5.2 kW Ground Mount - 50 kW
Number of Units 10 8 1
Gross Installation Cost Estimate $65,000 $249,600 $250,000
NJ Clean Energy Rebate $49,178 $80,783 $127,752
Net Installation Cost Estimate $15,822 $168,817 $122,248
Annual Energy Savings $2,843 $13,906 $31,284
Simple Payback 5.6 yrs. 12.1 yrs. 3.9 yrs.
System Capacity 10 kW 42 kW 50 kW
Annual Avoided Energy Use 15,368 kWh 75,167 kWh 169,103 kWh
Annual Avoided CO2 Emmisions, Tons 5 26 59
% of Annual Electric Use* 4.3% 21.3% 47.8%
*City of Cape May - Elementary School: 353640 kWh/Year.
Page 79
City of Cape May, NJ DRAFT - Energy Audit Report, July 2011
Renewable Energy Technologies: Wind
Wind Turbine Pros & Cons
Pros Cons
Annual reduction in energy spend and use can be potentially
reduced by almost $65,000 (22% reduction).
Typical equipment life span is 15-30 years.
Reduction of annual greenhouse gas emissions by 118 tons per
year.
A wind turbine project could be incorporated into science and other
curriculums to raise student awareness of energy alternatives.
High visible “green” project.
Payback period can be significant (over 10 years).
Average area wind speed is borderline which could impact overall
performance.
Prone to lighting strikes.
Bird collisions are likely, but may be reduced with avian guard
(building integrate only).
Zoning may be an issue. Check with local zoning regulations.
Wind turbines do create noise, although below 50 dB (a typical car
ride is over 80 dB).
The project economics and wind turbine pros and cons are presented in the following tables:
Should the City decide to pursue a wind turbine project, Dome-Tech recommends commissioning a more detailed study.
Wind Turbine Economics: City of Cape May - Waterworks Bldg
Building Integrated - 1 kW Ground Mount - 5.2 kW Ground Mount - 50 kW
Number of Units 2 14 2
Gross Installation Cost Estimate $13,000 $436,800 $500,000
NJ Clean Energy Rebate $9,836 $108,971 $212,303
Net Installation Cost Estimate $3,164 $327,829 $287,697
Annual Energy Savings $590 $25,256 $64,936
Simple Payback 5.4 yrs. 13.0 yrs. 4.4 yrs.
System Capacity 2 kW 73 kW 100 kW
Annual Avoided Energy Use 3,074 kWh 131,542 kWh 338,206 kWh
Annual Avoided CO2 Emmisions, Tons 1 46 118
% of Annual Electric Use* 0.2% 8.6% 22.0%
*City of Cape May - Waterworks Bldg: 1537000 kWh/Year.
Page 80
City of Cape May, NJ DRAFT - Energy Audit Report, July 2011
Renewable Energy Technologies: Solar Photovoltaic
Solar Photovoltaic
Sunlight can be converted into electricity using photovoltaic's (PV).
A solar cell or photovoltaic cell is a device that converts sunlight directly into electricity.
Photons in sunlight hit the solar panel and are absorbed by semiconducting materials, such as silicon. Electrons are knocked loose from their atoms, allowing them to flow through the material to produce electricity.
Solar cells are often electrically connected and encapsulated as a module, in series, creating an additive voltage. The modules are connected in an array. The power output of an array is measured in watts or kilowatts, and typical energy needs are measured in kilowatt-hours.
The Public Works building currently has an inactive solar PV system. As we understand it, the system’s annual output is greater than what the building consumes and therefore, it does not comply with the utility’s net-metering rules. Dome-Tech recommends considering tying the PV system at the Public Works building into the Water Works Building. Note: The City of Cape May should consider all potential utility regulations before proceeding.
Potential Sites for recommended for further study:
Water Works Building
Elementary School
Note: The Public Works buildings are not able to support building - mounted solar photovoltaic
systems. The Nature Center already has a PV Roof Mounted System
Page 81
City of Cape May, NJ DRAFT - Energy Audit Report, July 2011
Renewable Energy Technologies: Solar Photovoltaic
Recommended Solar Photovoltaic – Elementary School
Carbon Emission Reductions
Fixed Ground Mount
Equivalent Annual CO2 Emission Reduction (tons per year)1 96 tons/yr
Equivalent Cars Removed From Road Annually2 17
Equivalent Acres of Trees Planted Annually3 26
1. Estimated CO2 Emissions Rate: 0.662 lbs/kWh
2. EPA Estimate: 11,560 lbs CO2 per car
3. EPA Estimate: 7,333 lbs CO2 per acre of trees planted
Fixed Roof Mount -
Customer
System Capacity, kw-dc (maximum utilization of identified ground area) 232 kw dc
Annual Electric Generation, kwhrs of AC electricity produced 289,538 kwh
System Installed Cost $1,158,150
Total Annual Facility Electric Use, kwhrs 353,640 kwh
% of Total Annual Usage 82%
All-In Cost of Electric Year 1 $0.185 / kwh
Annual Electric Cost Avoidance (Year 1): $53,564
Estimated SREC Value (Year 1): $609 / SREC
Estimated Year SREC Revenue (Project Term): $2,056,797
Simple Payback 5.6
IRR (20 Years) 16%
Net Present Value (20 yrs, 4% discount rate (customer) / 8% discount rate (PPA) ) $1,117,334
Page 82
City of Cape May, NJ DRAFT - Energy Audit Report, July 2011
Renewable Energy Technologies: Solar Photovoltaic
Recommended Solar Photovoltaic – Water Works Building
Carbon Emission Reductions
Fixed Ground Mount
Equivalent Annual CO2 Emission Reduction (tons per year)1 68 tons/yr
Equivalent Cars Removed From Road Annually2 12
Equivalent Acres of Trees Planted Annually3 18
1. Estimated CO2 Emissions Rate: 0.662 lbs/kWh
2. EPA Estimate: 11,560 lbs CO2 per car
3. EPA Estimate: 7,333 lbs CO2 per acre of trees planted
Fixed Roof Mount -
Customer
System Capacity, kw-dc (maximum utilization of identified ground area) 163 kw dc
Annual Electric Generation, kwhrs of AC electricity produced 204,277 kwh
System Installed Cost $816,900
Total Annual Facility Electric Use, kwhrs 1,537,000 kwh
% of Total Annual Usage 13%
All-In Cost of Electric Year 1 $0.192 / kwh
Annual Electric Cost Avoidance (Year 1): $39,221
Estimated SREC Value (Year 1): $349 / SREC
Estimated Year SREC Revenue (Project Term): $681,737
Simple Payback 8.8
IRR (20 Years) 8%
Net Present Value (20 yrs, 4% discount rate (customer) / 8% discount rate (PPA) ) $282,624
Page 83
City of Cape May, NJ DRAFT - Energy Audit Report, July 2011
Renewable Energy Technologies: Solar Photovoltaic
Solar Photovoltaic
System Capacity, kw-dc (maximum utilization of roof space) 14 kw dc
Estimated Annual AC Energy Produced by Proposed Solar PV System 15,797 kwh
Total Annual Facility Electric Use, kwhrs 266,367 kwh
Proposed % of Total Annual kWh supplied by Solar PV 6%
All-In Rate for Electric Year 1 $0.194 / kwh
Year 1 Electric Cost Savings $3,065
Year 1 Maintenance Costs $283
Estimated Year 1 SREC Value: $349 / SREC
Estimated Year 1 SREC Revenue: $5,512
Actual Payback 9.6 years
IRR (25 Years) 9.0%
Net Present Value (25 yrs, 4% discount rate) $5,312
Cost per kW installed $6,000
System Installed Cost $70,840
Install Roof Mount Solar Photovoltaic System(s)
Assumptions
Financial Results
Cost and Rebate
City Hall
System Capacity, kw-dc (maximum utilization of roof space) 5 kw dc
Estimated Annual AC Energy Produced by Proposed Solar PV System 5,026 kwh
Total Annual Facility Electric Use, kwhrs 55,166 kwh
Proposed % of Total Annual kWh supplied by Solar PV 9%
All-In Rate for Electric Year 1 $0.187 / kwh
Year 1 Electric Cost Savings $940
Year 1 Maintenance Costs $90
Estimated Year 1 SREC Value: $349 / SREC
Estimated Year 1 SREC Revenue: $1,754
Actual Payback 9.8 years
IRR (25 Years) 8.7%
Net Present Value (25 yrs, 4% discount rate) $1,178
Cost per kW installed $6,000
System Installed Cost $22,540
Install Roof Mount Solar Photovoltaic System(s)
Assumptions
Financial Results
Cost and Rebate
Library
Page 84
City of Cape May, NJ DRAFT - Energy Audit Report, July 2011
Renewable Energy Technologies: Solar Photovoltaic
Solar Photovoltaic
System Capacity, kw-dc (maximum utilization of roof space) 36 kw dc
Estimated Annual AC Energy Produced by Proposed Solar PV System 40,006 kwh
Total Annual Facility Electric Use, kwhrs 10,898 kwh
Proposed % of Total Annual kWh supplied by Solar PV 367%
All-In Rate for Electric Year 1 $0.198 / kwh
Year 1 Electric Cost Savings $7,921
Year 1 Maintenance Costs $718
Estimated Year 1 SREC Value: $349 / SREC
Estimated Year 1 SREC Revenue: $13,959
Actual Payback 9.5 years
IRR (25 Years) 9.1%
Net Present Value (25 yrs, 4% discount rate) $15,784
Cost per kW installed $6,000
System Installed Cost $179,400
Install Roof Mount Solar Photovoltaic System(s)
Assumptions
Financial Results
Cost and Rebate
Franklin Street School
System Capacity, kw-dc (maximum utilization of roof space) 112 kw dc
Estimated Annual AC Energy Produced by Proposed Solar PV System 124,737 kwh
Total Annual Facility Electric Use, kwhrs 150,564 kwh
Proposed % of Total Annual kWh supplied by Solar PV 83%
All-In Rate for Electric Year 1 $0.162 / kwh
Year 1 Electric Cost Savings $20,207
Year 1 Maintenance Costs $2,237
Estimated Year 1 SREC Value: $349 / SREC
Estimated Year 1 SREC Revenue: $43,525
Actual Payback 12.9 years
IRR (25 Years) 5.5%
Net Present Value (25 yrs, 4% discount rate) ($119,795)
Cost per kW installed $6,000
System Installed Cost $671,232
Install Roof Mount Solar Photovoltaic System(s)
Assumptions
Financial Results
Cost and Rebate
Physick Estate, Hill House, Carriage House
Page 85
City of Cape May, NJ DRAFT - Energy Audit Report, July 2011
Renewable Energy Technologies: Solar Photovoltaic
Solar Photovoltaic
System Capacity, kw-dc (maximum utilization of roof space) 43 kw dc
Estimated Annual AC Energy Produced by Proposed Solar PV System 48,469 kwh
Total Annual Facility Electric Use, kwhrs 116,720 kwh
Proposed % of Total Annual kWh supplied by Solar PV 42%
All-In Rate for Electric Year 1 $0.210 / kwh
Year 1 Electric Cost Savings $10,179
Year 1 Maintenance Costs $869
Estimated Year 1 SREC Value: $349 / SREC
Estimated Year 1 SREC Revenue: $16,912
Actual Payback 9.2 years
IRR (25 Years) 9.6%
Net Present Value (25 yrs, 4% discount rate) $27,596
Cost per kW installed $6,000
System Installed Cost $217,350
Install Roof Mount Solar Photovoltaic System(s)
Assumptions
Financial Results
Cost and Rebate
Firehouse
System Capacity, kw-dc (maximum utilization of roof space) 8 kw dc
Estimated Annual AC Energy Produced by Proposed Solar PV System 9,130 kwh
Total Annual Facility Electric Use, kwhrs 32,218 kwh
Proposed % of Total Annual kWh supplied by Solar PV 28%
All-In Rate for Electric Year 1 $0.188 / kwh
Year 1 Electric Cost Savings $1,716
Year 1 Maintenance Costs $164
Estimated Year 1 SREC Value: $349 / SREC
Estimated Year 1 SREC Revenue: $3,186
Actual Payback 9.7 years
IRR (25 Years) 8.7%
Net Present Value (25 yrs, 4% discount rate) $2,272
Cost per kW installed $6,000
System Installed Cost $40,940
Install Roof Mount Solar Photovoltaic System(s)
Assumptions
Financial Results
Cost and Rebate
Welcome Transportation Center
Page 86
City of Cape May, NJ DRAFT - Energy Audit Report, July 2011
Solar Photo Voltaic System
Non-Financial Benefits of Solar PV The implementation of solar PV projects at
City of Cape May would place your facilities at
the forefront of renewable energy utilization.
This allows the City the opportunity to not only
gain experience with this energy technology,
but also to win recognition as an
environmentally sensitive, socially conscience
institution. Additionally, these projects could
be incorporated into science education and
additional curriculums to raise awareness of
current energy alternatives to the younger
generations.
Page 87
City of Cape May, NJ DRAFT - Energy Audit Report, July 2011
Renewable Energy Technologies: CHP/Cogeneration
CHP (combined heat and power) or cogeneration is the use of a heat engine to simultaneously generate both electricity and useful heat.
Fuel Cells are electrochemical conversion devices that operate by catalysis, separation the protons and the electrons of the reactant fuel, and forcing the electrons to travel through a circuit to produce electricity. The catalyst is typically a platinum group metal or alloy. Another catalytic process takes the electrons back in, combining them with the protons and oxidant, producing waste products (usually water and carbon dioxide).
Microturbines are rotary engines that extract energy from a flow of combustion gas. They can be used with absorption chillers to provide cooling through waste heat rather than electricity. Microturbines are
best suited for facilities with year-round thermal and/or cooling loads.
Not recommended for Cap May City due to a lack of a continuous year-round thermal load.
Page 88
City of Cape May, NJ DRAFT - Energy Audit Report, July 2011
Utility Tariff and Rate Review: Electricity
Accounts and Rate Class: City of Cape May has thirteen electric accounts with service
behind Atlantic City Electric Company under rate classes Monthly General Service and Annual
General Service.
Electric Consumption and Cost: Based on the one-year period studied, the total annual
electric expenditure for the City is about $487,000 and the total annual consumption is about
2,560,330 kilowatt-hours (kWh).
Average/Effective Rate per kWh: For the one year period studied, the City’s average
monthly cost per kilowatt-hour ranged from 16.07 ¢/kWh to 22.43 ¢/kWh, inclusive of utility
delivery charges. The City’s overall, average cost per kilowatt-hour during this period was
19.03 ¢/kWh.
o Note that these average electric rates are “all–inclusive”; that is, they include all supply service
(generation and commodity-related) charges, as well as all delivery service charges. The supply
service charges typically represent the majority (60-80%) of the total monthly bill. It is the supply
portion of your bill that is deregulated, which is discussed on subsequent slides in this section.
Page 89
City of Cape May, NJ DRAFT - Energy Audit Report, July 2011
Utility Tariff and Rate Review: Natural Gas
Accounts and Rate Class: City of Cape May has twelve natural gas accounts with service
behind South Jersey Gas Company under unknown rate classes most likely being Monthly
and Periodic Service (the rate class could not be determined due to missing SJGAS bills).
Natural Gas Consumption and Cost: Based on the one-year period studied, the total
annual natural gas expenditure for the City is about $124,000 and the total annual
consumption is about 67,000 therms (th). Natural gas is used predominantly throughout the
winter period for heating purposes.
Average/Effective Rate per Therm: For the one year period studied, the City’s overall,
average cost per therm during this period was $1.900 per therm.
o Note that these average natural gas rates are “all–inclusive”; that is, they include all supply service
(interstate transportation and commodity-related) charges, as well as all delivery service charges. The
supply service charges typically represent the majority (60-80%) of the total monthly bill. It is the supply
portion of your bill that is deregulated, which is discussed on subsequent slides in this section.
Page 90
City of Cape May, NJ DRAFT - Energy Audit Report, July 2011
Utility Deregulation in New Jersey: Background and Retail Energy Purchasing
In August 2003, per the Electric Discount and Energy Competition Act [N.J.S.A 48:3-49], the
State of New Jersey deregulated its electric marketplace thus making it possible for customers
to shop for a third-party (someone other than the utility) supplier of retail electricity.
Per this process, every single electric account for every customer in New Jersey was placed
into one of two categories: BGS-FP or BGS-CIEP. BGS-FP stands for Basic Generation
Service-Fixed Price; BGS-CIEP stands for Basic Generation Service-Commercial and
Industrial Energy Pricing.
At its first pass, this categorization of accounts was based on rate class. The largest electric
accounts in the State (those served under a Primary or a Transmission-level rate class) were
moved into BGS-CIEP pricing. All other accounts (the vast majority of accounts in the State of
New Jersey, including residential) were placed in the BGS-FP category, receiving default
electric supply service from the utility.
The New Jersey Board of Public Utilities (NJBPU) has continued to move new large energy
users from the BGS-FP category into the BGS-CIEP category by lowering the demand (kW)
threshold for electric accounts receiving Secondary service. Several years ago, this threshold
started at 1,500kW; now, it has come down to 1,000 kW. So, if an account’s “peak load share”
(as assigned by the utility) is less than 1,000 kW, then that facility/account is in the BGS-FP
category. If you are unsure, you may contact Dome-tech for assistance.
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City of Cape May, NJ DRAFT - Energy Audit Report, July 2011
Utility Deregulation in New Jersey: Background and Retail Energy Purchasing (cont.)
There are at least 3 important differentiating factors to note about each rate category:
1. The rate structure for BGS-FP accounts and for BGS-CIEP accounts varies.
2. The “do-nothing” option (ie, what happens when you don’t shop for retail energy) varies.
3. The decision about whether, and why, to shop for a retail provider varies.
Secondary (small to medium) Electric Accounts:
o BGS-FP rate schedules for all utilities are set, and re-set, each year. Per the results of our State’s BGS
Auction process, held each February, new utility default rates go into effect every year on June 1st. The
BGS-FP rates become each customer’s default rates, and they dictate a customer’s “Price to Compare”
(benchmark) for shopping purposes. To learn more about the BGS Auction process, please go to
www.bgs-auction.com.
o A customer’s decision about whether to buy energy from a retail energy supplier is, therefore, dependent
upon whether a supplier can offer rates that are lower than the utility’s (default) Price to Compare. In
2009, and for the first time in several years, many BGS-FP customers have “switched” from the utility to
a retail energy supplier because there have been savings. This may be the same case in 2010.
Primary (large) Electric Accounts:
o The BGS-CIEP category is quite different. There are two main features to note about BGS-CIEP
accounts that do not switch to a retail supplier for service. The first is that they pay an hourly market
rate for energy; the second is that these accounts also pay a “retail margin adder” of $0.0053/kWh. For
these large accounts, this retail adder can amount to tens of thousands of dollars. The adder is
eliminated when a customer switches to a retail supplier for service.
o For BGS-CIEP accounts, the retail adder makes a customer’s decision about whether to switch
relatively simple. However, the process of setting forth a buying strategy can be complex, which is why
many public entities seek professional assistance when shopping for energy.
o For more information concerning hourly electric market prices for our region, please refer to
www.pjm.com.
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City of Cape May, NJ DRAFT - Energy Audit Report, July 2011
Utility Deregulation in New Jersey: Background and Retail Energy Purchasing (cont.)
Natural Gas Accounts:
o The natural gas market in New Jersey is also deregulated. Unlike the electric market, there are no
“penalties”, or “adders”, for not shopping for natural gas. Most customers that remain with the utility for
natural gas service pay rates that are market-based and that fluctuate on a monthly basis. While natural
gas is a commodity that is exceptionally volatile and that is traded minute-by-minute during open trading
sessions, market rates are “settled” each month, 3 business days prior to the subsequent month (this is
called the “prompt month”). Customers that do not shop for a natural gas supplier will typically pay this
monthly settlement rate to the utility, plus other costs that are necessary to bring gas from Louisiana up
to New Jersey and ultimately to your facility.
o For additional information about natural gas trading and current market futures rates for various
commodities, you can refer to www.nymex.com.
o A customer’s decision about whether to buy natural gas from a retail supplier is typically dependent
upon whether a customer seeks budget certainty and/or longer-term rate stability. Customers can
secure longer-term fixed prices by enlisting a retail natural gas supplier. Many larger natural gas
customers also seek the assistance of a professional consultant to assist in their procurement process.
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City of Cape May, NJ DRAFT - Energy Audit Report, July 2011
Retail Energy Purchasing: Recommendations and Resources
Electric
o Based on current and recent market conditions, and actual bid processes run by Dome-Tech for various
clients during 2010, we have seen customers with BGS-FP accounts save approximately 10-15% in
projected energy costs by switching to retail energy supplier. It is important to note that actual rates and
potential savings will be dependent on several factors, including market conditions, account usage
characteristics/load profile (load factor), volume, and contract term.
Natural Gas
o Based on current and recent market conditions, and actual bid processes run by Dome-Tech for various
clients during 2010, we have seen many customers entering into longer-term contracts for fixed natural
gas rates. These rates vary substantially based on load type, volume, and term.
Energy Purchasing Co-Operatives
Many public entities participate in various energy aggregation buying groups. Sometimes, an entity will
have multiple options to choose from. These might include purchasing through a County co-operative,
or purchasing through a trade-type association. Co-operative purchasing may not necessarily get you
the lowest rates; however, there is often substantial volume, and it can represent a good alternative for
entities with limited energy consumption who can have a difficult time getting energy suppliers to
respond to them on a direct, singular basis.
To determine whether a savings opportunity currently exists for your entity, or for guidance on how to get
started, you may contact Dome-Tech to discuss. There is also additional information provided below.
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City of Cape May, NJ DRAFT - Energy Audit Report, July 2011
Retail Energy Purchasing: Recommendations and Resources (cont.)
To learn more about energy deregulation, visit the New Jersey Board of Public Utilities website:
www.bpu.state.nj.us
For more information about the retail energy supply companies that are licensed and registered
to serve customers in New Jersey, visit the following website for more information:
http://www.bpu.state.nj.us/bpu/commercial/shopping.html
Provided below is a list of NJ BPU-licensed retail energy suppliers:
Company Electricity Natural Gas Website
Hess X X hess.com
Sprague X X spragueenergy.com
UGI X X ugienergyservices.com
South Jersey Energy X X southjerseyenergy.com
Direct X X directenergy.com
Global X X globalp.com
Liberty X libertpowercorp.com
Reliant X reliant.com
First Energy X fes.com
ConEd Solutions X conedsolutions.com
Constellation X newenergy.com
Glacial X glacialenergy.com
Integrys X integrysenergy.com
Suez X suezenergyresources.com
Sempra X semprasolutions.com
Woodruff X woodruffenergy.com
Mx Energy X mxenergy.com
Hudson X hudsonenergyservices.com
Great Eastern X greateasterngas.com
*Note: Not every Supplier serves customers in all utility territories within New Jersey.
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City of Cape May, NJ DRAFT - Energy Audit Report, July 2011
Retail Energy Purchasing: Next Steps
Electric
For the period studied, the City was utilizing a Third Party Supplier for the supply of electricity to their
BGS-FP account. The City’s electric accounts are part of the South Jersey Power Co-Operative’s
existing contract with Hess Corporation. The contract term is until September 2011 at the fixed rate of
$0.09147 per kWh.
Natural Gas
For the period studied, the City was utilizing a Third Party Supplier for the supply of natural gas to
their SJGAS accounts. The City’s gas accounts are part of the South Jersey Power Co-Operative’s
existing contract with Woodruff Energy. The contract term is until December 2011 at the fixed rate of
$1.0815 per therm.
Dome-Tech recommends the City continue to participate in the SJPC purchasing group for electricity
and natural gas as long as savings exist.
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City of Cape May, NJ DRAFT - Energy Audit Report, July 2011
Historical Energy Futures Settlement Prices
Below please find graphs that show the last several years’ worth of market settlement prices for both natural gas and
electricity. Each of these graphs shows the average closing prices of a rolling 12-month period of energy futures
prices. The graphs are representative of the commodity, alone; they do not include any of the additional components
(capacity, transmission, ancillary services, etc.) that comprise a retail energy price. They are meant to provide an
indication of the level of pricing that a particular customer might expect to see, but the graphs do not account for the
specific load profile of any individual energy user.
Henry Hub 12 month strip PJM West 12 month strip
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City of Cape May, NJ DRAFT - Energy Audit Report, July 2011
Potential Project Funding Sources
Through the NJ Clean Energy program, the New Jersey Board of Public Utilities currently
offers a variety of subsidies or rebates for many of the project types outlined in this report.
More detailed information can be found at: www.njcleanenergy.com
NJ Smart Start Buildings – Equipment Rebates noted in ECMs where available.Equipment Rebates - Water Heaters, Lighting, Lighting Controls/Sensors, Chillers, Boilers, Heat
pumps, Air conditioners, Energy Mgmt. Systems/Building Controls, Motors, Motor-ASDs/VSDs,
Custom/Others http://www.njcleanenergy.com/commercial-industrial/programs/nj-smartstart-
buildings/nj-smartstart-buildings
Pay for Performance Program – Performance-Based Incentives for installations.
Provides up to 50% of total project costs. Based on findings in this study, up to $594,000 in
incentives for project implementation could be provided under this program. A minimum
reduction target of 15% compared to baseline must be achieved. Energy modeling of building and
systems and energy reduction plan is required (incentives provided to pay for part of study costs.)
Energy Savings Improvement Program (ESIP) Public entities can contract with energy
saving companies in up to 20-year lease purchases enabling public entities to implement energy
conservation measures to their facilities and pay for the costs using the value of energy savings that
result from the improvements. The Energy Services Companies (ESCO) would assist in bypassing
large upfront costs to the entity.
www.nj.gov/dca/lgs/lfns/09lfns/2009-11.doc
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City of Cape May, NJ DRAFT - Energy Audit Report, July 2011
Potential Project Funding Sources (continued)
Clean Energy Solutions Capital Investment Loan/GrantThe EDA offers up to $5 million in interest-free loans and grants to promote the concept of "going
green" in New Jersey. Under this program, scoring criteria based on the project's environmental and
economic development impact determines the percentage split of loan and grant awarded. Funding
can be used to purchase fixed assets, including real estate and equipment, for an end-use energy
efficiency project, combined heat and power (CHP or cogen) production facility, or new state-of-the-art
efficient electric generation facility, including Class I and Class II renewable Energy.
http://www.njeda.com/web/Aspx_pg/Templates/Npic_Text.aspx?Doc_Id=1078&menuid=1360&topid=72
2&levelid=6&midid=1357
Clean Renewable Energy Bonds (CREBs) – For Renewable Energy ProjectsFederal Loan Program for Solar Thermal Electric, Photovoltaic's, Landfill Gas, Wind, Biomass,
Hydroelectric, Geothermal Electric, Municipal Solid Waste, Hydrokinetic Power, Anaerobic Digestion,
Tidal Energy, Wave Energy, Ocean Thermal
http://www.irs.gov/irb/2007-14_IRB/ar17.html
Renewable funding for PV & wind, plus federal credits currently available: http://www.njcleanenergy.com/renewable-energy/programs/renewable-energy-incentive-
program/applications-and-e-forms-renewable-ener
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City of Cape May, NJ DRAFT - Energy Audit Report, July 2011
Potential Project Funding Sources (continued)
Direct Install Program – NJ Clean Energy makes the investment in energy efficiency upgrades by
initially covering 60% of the cost to install the recommended energy efficiency measures. If eligible, the
entity will pay ONLY 40% of the total cost to install the energy efficiency measures.
http://www.njcleanenergy.com/commercial-industrial/programs/direct-install
We encourage you to contact the program directly for further information on this particular program for all
buildings.
Steps to Participate for Buildings
1. CONTACT THE PARTICIPATING CONTRACTOR IN YOUR AREA
Identify the contractor assigned and trained to provide Direct Install services in the county where your project is located. Using the contact
information provided, call or email the Participating Contractor to discuss your project. The contractor will schedule an Energy Assessment and work
with you to complete the Program Application and Participation Agreement. If you’re unable to contact the Participating Contractor or have
questions, you may contact us at 866-NJSMART or send an e-mail to [email protected]..
2. REVIEW RESULTS
After the Energy Assessment, the contractor will review results with you, including what measures qualify and your share of the project cost.
3. DECIDE TO MOVE FORWARD
You will sign a Scope of Work document to proceed with implementation of qualifying measures.
4. ARRANGE INSTALLATION
You and the Participating Contractor will set a convenient start date for the installation.
5. CONFIRM INSTALLATION
Once the Participating Contractor completes the installation, you accept the work by signing a Project Completion Form. A program representative
will approve the project as complete.
6. COMPLETE TRANSACTION
You pay the Participating Contractor your share of the project cost and the program pays its share.
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City of Cape May, NJ DRAFT - Energy Audit Report, July 2011
Next Steps
The following projects should be considered for implementation:
Controls Upgrades
Time of Day Optimization
Temperature Setpoint Optimization
Demand Control Ventilation
Boiler Upgrades
Lighting upgrades
Vending machine power management
Note that additional “Phase 2” engineering may be required to further develop these projects, to
bring them to bidding and implementation.
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City of Cape May, NJ DRAFT - Energy Audit Report, July 2011
Notes and Assumptions Project cost estimates were based upon industry accepted published cost data, rough order of magnitude cost estimates
from contractors, and regional prevailing wage rates. The cost estimates presented in this report should be used to select
projects for investment grade development. The cost estimates presented in this report should not be used for budget
development or acquisition requests.
Some ECM’s proposed in this report are mutually exclusive (e.g. Building Management Systems). ECM savings are not
cumulative.
Interactive effects between ECM’s have not been accounted for in all cases.
The average CO2 emission rate from power plants serving the facilities within this report was obtained from the
Environmental Protection Agency’s (EPA) eGRID2007 report. It is stated that power plants within the state of NJ emit 0.66
lbs of CO2 per kWh generated. The EPA estimates that burning one therm of natural gas emits 11.708 lbs CO2.
The EPA estimates that one car emits 11,560 lbs CO2 per year.
The EPA estimates that reducing CO2 emissions by 7,333 pounds is equivalent to planting an acre of trees.
The following utility prices provided were used within this study:
Facility
Electric
$ / KWH
Natural Gas
$ / therm
Cape May City Hall $0.194 $2.369
Franklin Street School $0.198 $2.340
Welcome / Transportation Center $0.188 $2.491
Water Works Building $0.192 $2.389
Fire House $0.210 $2.388
Public Works Complex $0.188 $1.640
Physick Estate $0.161 $2.393
Carriage House $0.162 $1.722
Hill House $0.167 $1.807
Library $0.187 $2.428
Nature Center 1 * $0.224 NA
Nature Center 2 * $0.220 $2.685
Cape May City Elementary * $0.185 $1.601
* Missing Electrical supplier costs for these accounts, assumption of
$0.139 from the top amount charged per KWH by Glacial Electric.Page 102