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Adopted Community Energy Plan

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Executive Summary

The City of Union City Community Energy Plan, prepared by DMR Architects and adopted on March 5, 2024, outlines a comprehensive strategy for reducing energy consumption and greenhouse gas emissions in Union City. Funded through a grant from the New Jersey Board of Public Utilities and with technical assistance from Sustainable Jersey, the plan aligns with the State's Energy Master Plan goals of achieving 100% renewable energy and reducing emissions to 80% of 2006 levels by 2050. It emphasizes initiatives such as supporting electric vehicles, zoning for solar installations, improving building energy efficiency, and engaging the public, with a particular focus on including low- and moderate-income households in these efforts. The plan identifies 18 specific initiatives the City intends to pursue over the next three to five years. The plan recognizes Union City's unique challenges and opportunities, including its dense urban environment, high proportion of renters, and status as an overburdened municipality. The plan prioritizes strategies that are achievable given these conditions and takes into account available state and federal incentives to improve energy efficiency and adopt renewable energy solutions. These strategies include upgrading municipal facilities, encouraging green building practices, and offering public outreach programs. The Plan also recognizes that it is being written at a time when incentives and grants are widely available from the State and Federal governments for investment in renewable energy resources. Finally, the document stresses the importance of strategically prioritizing initiatives to ensure that Union City seizes the current opportunity to transition towards cleaner, more sustainable energy sources. Key personnel identified include Tammy Zucca (Chief Financial Officer), David Spatz (Consulting Planner), Shawn Thomas (Fleet Director), Rebecca Colditz (Deputy Department Head, Purchasing), and Tracey Woods (Energy Program Manager at Sustainable Jersey). Adoption of this plan makes Union City eligible for Sustainable Jersey certification and enhanced incentives, demonstrating a commitment to sustainability and energy efficiency.

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Document Text

--- Document: Adopted Community Energy Plan Document ---
CITY OF UNION CITY
COMMUNITY ENERGY PLAN
PREPARED BY DMR ARCHITECTS
ADOPTED MARCH 5, 2024
Mayor Brian Stack
City of Union City
Daniel  Hauben, PP, AICP, 
LEED® Green Associate™
DMR Architects




ACKNOWLEDGMENTS
3
City of Union City Community Energy Plan 
March 2024
ACKNOWLEDGMENTS
CITY COUNCIL
Mayor Brian P. Stack
Commissioner Lucio P. Hernandez
Commissioner Maryury A. Martinetti
Commissioner Celin J. Valdivia
Commissioner Wendy A. Grullon
CITY PERSONNEL AND PROFESSIONALS
Tammy Zucca, CPA, RMA, CMFO, Chief Financial Officer/Treasurer
David Spatz, PP, AICP, Community Housing & Planning Association, City’s Consulting Planner
Shawn Thomas, Fleet Director
Rosa Ayala, Office of the Mayor
Rebecca Colditz, Deputy Department Head, Purchasing
Ana Ledesma, Bookkeeper, Parking Authority
SUSTAINABLE JERSEY
Tracey Woods, Energy Program Manager
Victoria Bearden, Project and Research Specialist
GRANT FUNDING PROVIDED BY
New Jersey Board of Public Utilities Clean Energy Program, Community Energy Planning Grant




5
City of Union City Community Energy Plan 
March 2024
TABLE OF CONTENTS
CONTENTS
Acknowledgments	
3
City council	
3
City Personnel and Professionals	
3
Sustainable Jersey	
3
Grant Funding Provided by	
3
Table of Figures	
7
EXECUTIVE SUMMARY	
9
GLOSSARY OF TERMS AND ABBREVIATIONS	
11
INTRODUCTION & PURPOSE	

13
COMMUNITY PROFILE	
14
Demographics	
14
Energy And Vehicle Usage Patterns	
15
Actions To Date, And Potential Opportunities and Obstacles	
16
Identifying A Leader	
18
Sustainable Jersey Certification		
18
Looking Beyond The Template	
18
STRATEGY 1: REDUCE ENERGY CONSUMPTION AND EMISSIONS FROM THE TRANSPORTATION SECTOR	
19
1.2 & 1.3 Train First Responders and NON EMERGENCY STAFF on EVs and EVSe	

20
1.4 Purchase Alternative Fuel Vehicles	
20
 1.5 Improve Municipal Fleet Efficiency	
22
1.6 Install Public EV Charging Infrastructure	 
24
1.8 Encourage Workplace EV Charging Infrastructure 
26
STRATEGY 2: ACCELERATE DEPLOYMENT OF RENEWABLE ENERGY AND DISTRIBUTED ENERGY RESOURCES	 27
2.1 Adopt Supportive Zoning and Permitting for Private Solar	
27
2.3 Adopt Zoning and Permitting for Community Solar 	
28
2.5 Train Non-Emergency Staff on Solar	
29
2.6 Install On-Site Municipal Renewable Generation / 2.13 Host a Community Solar Project on Municipal Property	
30
Strategy 3: MAXIMIZE ENERGY EFFICIENCY AND CONSERVATION AND REDUCE PEAK DEMAND	
33
3.1 Upgrade Energy Efficiency for Municipal Facilities	 
33
3.3 Commercial Energy Efficiency Outreach Campaign	
35
STRATEGY 4: REDUCE ENERGY CONSUMPTION AND EMISSIONS FROM THE BUILDING SECTOR	
37
4.2 Encourage Benchmarking and Commissioning for Existing Buildings	
37
4.3 Require Developers to Complete Green Development Checklist	
37
4.4 Conduct Outreach Targeting New Construction in the Community	 
39
STRATEGY 6: SUPPORT COMMUNITY ENERGY PLANNING AND ACTION With an Emphasis on Encouraging 
and Supporting Participation by Low- and Moderate-Income and Environmental Justice Communities	
40




7
City of Union City Community Energy Plan 
March 2024
TABLE OF CONTENTS
TABLE OF NOTES
Note 1.	 Idle Reduction Types
23
Note 2.	 Typical EVSE Charger Levels
24
Note 3.	 Renewable Energy Credits (RECs)
30
Note 4.	 Energy Upgrade Types
33
Note 5.	 Benefits of a Green Building Policy (Sustainable 
Jersey)
38
Note 6.	 Residential Energy Efficiency Standards, per NJ CEP 
RNC Program 
39
Note 7.	 Income Based Energy Assistance Programs
40
TABLE OF FIGURES
TABLE OF MAPS
Map 1.  City Map
14
Map 2.  Transit Map
15
Map 3.  	 Walk Score® walkability map for Union City. Darker 
green means more amenities and services are 
accessible by foot.
16
Map 4.  	Google Project Sunroof Data for Union City. Yellow 
roofs have more sunlight exposure, browner roofs 
have less. Screenshot taken November 3, 2023.
17
Map 5.  	 Alternative Fueling Stations Near Union City
17
Map 6.  NJ DEP’s Community Fast Charger Solicitation 
Map Tool for Union City. Highest scoring areas for 
suitability are in darker purple, scoring as much as 
90 out 100 for suitability for Fast Charging stations.25
6.2 Conduct Energy Efficiency Outreach to Low- and Moderate-Income Residents	
40
6.5 Conduct Energy Efficiency Outreach to Community-Serving Institutions	
41
CONCLUSION	
43
Next Steps	
43
TABLE OF FIGURES
Figure 1.  NJ Energy Master Plan Cover Page	
13
Figure 2.  Demographic Profile. Source: Sustainable Jersey 
Community Profile Data, originally sourced 
from the US Census Bureau’s 2020 American 
Community Survey.	
15
Figure 3. 	
GHG Emissions by Sector / Energy Type; 
Source: Sustainable Jersey Community Scale GHG 
Emissions Data.	 
15
Figure 4.  VMT by Vehicle Type in 2019; Source: NJTPA On-
Road VMT Data.	
16
Figure 5. 	
Commute Patterns; Source: 2020 
American Community Survey	
16
Figure 6.  CO2e emissions by vehicle fuel type in New 
Jersey and Nationally	
19
Figure 7.  NJDEP’s 2023 Level 2 Charging Incentive 
Comparison Table, last updated January 2023	
25
Figure 8.  Screenshot of Google Project Sunroof data for 
City Hall. At an average of 14.2 Watts/square foot, 
Googles estimated 10,430 square feet of usable 
roof area could support a 148.2 kW system. At 
1,435 hours of sunlight a year that system could 
generate 212,667 kWh/year or an average of 
17,722.25 per month.	
31
Figure 9.  How Community Solar Works; Credit: 
Neighborhoodpower.com. Community solar 
extends the benefit of solar energy to people 
who may not be in a position to install their own 
systems, like renters and houses that receive a lot 
of shade.	
31
Figure 11.  NJ CEP Residential New Construction Incentives	
38
Figure 12.  NJ CEP Commercial  New Construction 
Incentives	
39




City of Union City Community Energy Plan 
March 2024
EXECUTIVE SUMMARY
EXECUTIVE SUMMARY
This Community Energy Plan is prepared for the City of Union City through a grant provided by the New 
Jersey Board of Public Utilities, with technical assistance provided by Sustainable Jersey. Consistent with the 
Community Energy Planning Grant Goals, the purpose of this document is to serve as an action plan for the 
City to promote and adopt cleaner and less expensive energy sources and advance the objectives of the 
State of New Jersey 2019-adopted Energy Master Plan, which aims to generate 100% of the State’s energy 
through renewable sources and reduce greenhouse-gas emissions to 80% of 2006 levels by 2050. 
The Energy Master Plan lays out eighteen initiatives that the City intends to pursue over the next three to 
five years to reduce energy consumption and dependence upon carbon based energy sources by both 
City government buildings and fleet vehicles as well as those of the City’s residents and businesses. The 
initiatives to reduce energy usage and promote renewable energy generation include regulatory actions, 
public outreach to encourage action by private citizens, businesses, and organization, and direct City 
expenditures on public buildings and public rights-of-way. 
The initiatives identified in this Plan include, but are not limited to:
►
Support the use of electric vehicles by increasing the presence of charging stations and electrifying
the City’s vehicle fleet;
►
Zoning to permit private solar installations and community solar projects;
►
Installing on-site renewable energy generation systems on municipal properties;
►
Improving energy efficiency of municipal buildings;
►
Working with the State, utilities providers, and contractors to reduce cost barriers to residential and
commercial energy efficiency improvements and renewable energy generation;
►
Encouraging developers to adopt green building practices;
►
Educating and engaging the public in a collective effort to reduce energy consumption and switch
to renewable energy sources;and
►
Ensuring that low- and moderate-income households are not excluded from the benefits of the City’s
initiatives.
This Community Energy Plan is being written at a time when both the State and Federal governments are 
providing financial incentives for governments, businesses, and households to improve energy efficiency 
and adopt renewable energy generation and electric or alternative fuel vehicles, making clean energy 
more affordable than it has ever been. The future of these incentives - whether they will be renewed or 
eliminated in the coming years - is unknown. Adopting an energy plan and strategically prioritizing the 
initiatives the City will pursue over the next few years is crucial to ensure that the current opportunity is not 
missed.
Union City is considered an overburdened municipality, which is defined as a municipality in which more 
than 50% of the population live within an Overburdened Community (OBC) Census Block and in which 
more than 35% percent of its population earning incomes below 200% of the poverty level OR the the 
municipality has a distress score of 40 or more according to the New Jersey Department of Community 
Affairs Municipal Revitalization Index. Every Block Group in the City meets one or more OBC criteria, and 
the City has a Municipal Revitalization Index score of 58. In 2022, 33,739 of the City’s 65,034 residents were 
living at or below 200% of the poverty level. These economic conditions constitute obstacles to the City and 
its constituents taking actions needed to reduce carbon-based energy consumption in the absence of the 
current incentives. They also reflect the disproportionate susceptibility of the City’s population to the impact 
of climate change and to variations in the costs of energy. As a result, the City is eligible for enhanced 
incentives to implement energy saving actions, investments, and programs.




11
City of Union City Community Energy Plan 
March 2024
GLOSSARY OF TERMS AND ABBREVIATIONS
GLOSSARY OF TERMS AND ABBREVIATIONS
To save space in this document, the following terms and abbreviations are used to reference certain 
technical or scientific language, policies or laws, State or Federal government agencies and departments, 
technology, vehicle types,and the like. 
Alternative Fuel: Vehicle propulsion fuels other than diesel or gasoline and having a lesser net environmental 
impact than those traditional fuels.
BESS: Battery Energy Storage System
BEV: Battery Electric Vehicle - A vehicle that is powered entirely by an electric battery instead of a 
combustible fuel. These are also referred to as PEVs - Plug-in Electric Vehicles.
CO2: Carbon dioxide
Community Solar: One or more solar installations providing energy to buildings and uses on other properties, 
typically through a subscription service.
Complete Streets: A transportation planning and urban design principle favoring street and road design 
that accommodates multiple modes of travel rather than prioritizing single-occupancy vehicles. 
DPW: The City of Union City’s Department of Public Works
EMP or NJ EMP: 2019 New Jersey Energy Master Plan
EPA: The United States Environmental Protection Agency
EV: Electric Vehicle - Generic term for a vehicle that is propelled partially or entirely by an electric powered 
motor in lieu of or in addition to an engine powered by gasoline or another combustible fuel.
EVSE: Electric Vehicle Service Equipment - This is another way of saying EV charging equipment.
GHG or Greenhouse Gases: Gases emitted through both natural and anthropogenic processes which 
contribute to the greenhouse effect in the Earth’s atmosphere, most commonly in reference to CO2 and 
methane
HEV: Hybrid Electric Vehicle - A vehicle that  is primarily propelled by a combustible fuel but which can be 
propelled to a limited extent by an electric battery that is typically charged by the act of braking. 
ICE: Internal combustion engine - a vehicular engine which uses a combustible fuel like gasoline for 
propulsion. Typically does not include HEVs.
LEED: Leadership in Energy Efficient Design - a program hosted by the United States Green Building Council 
(USGBC) which grants certification to buildings, neighborhood developments, and cities that meet the 
minimum standards for one of four levels of efficient design, and which offers a credential program to 
professionals interested in demonstrating proficiency in green building design and operation. 
LMI Household: Low- and/or Moderate-Income Households, as defined by U.S. Department of Housing and 
Urban Development (HUD).
Micro-generation: Any small-scale production of heat or electricity through a low- or no-carbon source, 
including solar photo-voltaic systems, small wind turbines, and other on-site systems typically powering a 
single property.
NJ DCA or DCA: New Jersey Department of Community Affairs
NJ DEP or DEP: New Jersey Department of Environmental Protection
NJ DOT: New Jersey Department of Transportation
NJ Transit: New Jersey Transit


12
City of Union City Community Energy Plan 
March 2024
GLOSSARY OF TERMS AND ABBREVIATIONS
PHEV: Plug-In Hybrid Electric Vehicle - A vehicle that can be propelled by an electric battery for a greater 
distance than an HEV and propelled by a combustible fuel when the battery is drained. Unlike an HEV, the 
electric battery of a PHEV can be charged by EVSE.
Private Solar: Any form of solar installation intended to provide energy to the buildings or uses located on 
the same property as the installation.
US DOE or DOE: The United States Department of Energy
VMT: Vehicle miles traveled - a measure of the number of miles traveled by one or more vehicles over a 
specified period of time.


City of Union City Community Energy Plan 
March 2024
INTRODUCTION
INTRODUCTION & PURPOSE
This Community Energy Plan (CEP) has been prepared for 
the City of Union City in Hudson County, New Jersey, and 
is funded through the 2022 Community Energy Plan Grant 
program administered by the New Jersey Board of Public 
Utilities in partnership with Sustainable Jersey. The goal of the 
program and of the Community Energy Plan is to advance 
the purposes and objectives of the 2019 New Jersey Energy 
Master Plan, which include, by the year 2050:
►
Generating 100% of the State’s electricity through
carbon-neutral methods, which includes balancing
carbon emissions with equal rates of carbon removal;
and
►
Reducing greenhouse gas emissions to 80% of 2006
levels.
The City of Union City desires to not only contribute to the 
State’s pursuit of its energy goals, but also to take actions 
to reduce the energy usage and greenhouse impact from 
services it provides to its residents and businesses and to 
help its residents and businesses reduce their own energy 
and carbon footprints as well as their energy costs. 
The CEP Grant program requires grant recipients to select from 38 initiatives to reduce local energy usage, 
including initiatives related to clean vehicles, solar energy, energy efficiency of buildings, green building 
practices, accessibility of clean energy for low- and moderate-income communities, and energy storage. 
This CEP for Union City identifies 18 initiatives that the City desires to pursue over the next for the next three 
to five years, or beyond, to reduce the City’s climate impact, energy consumption, and energy costs. Those 
initiatives are:
Strategy 1. Reduce Energy Consumption and Emissions from the Transportation Sector
►
1.2 Train First Responders on EVs / EV Charging Infrastructure
►
1.3 Train Non-Emergency Staff on EVs / EV Charging Infrastructure
►
1.4 Purchase Alternative Fuel Vehicles
►
1.5 Improve Municipal Fleet Efficiency
►
1.6 Install Public EV Charging Infrastructure
►
1.8 Encourage Workplace EV Charging Infrastructure
Strategy 2: Accelerate Deployment of Renewable Energy and Distributed Energy Resources
►
2.1 Adopt Supportive Zoning and Permitting for Private Solar
►
2.3 Adopt Zoning and Permitting for Community Solar
►
2.5 Train Non-Emergency Staff on Solar
►
2.6 Install On-site Municipal Renewable Generation
►
2.13 Host a Community Solar Project on Municipal Property
Strategy 3: Maximize Energy Efficiency and Conservation and Reduce Peak Demand
Figure 1.  NJ Energy Master Plan Cover Page


City of Union City Community Energy Plan 
March 2024
INTRODUCTION
►
3.1 Upgrade Energy Efficiency in Municipal Facilities
►
3.3 Commercial Energy Efficiency Outreach Campaign
Strategy 4: Reduce Energy Consumption and Emissions from the Building Sector
►
4.2 Encourage Benchmarking and Commissioning for Existing Buildings
►
4.3 Require Developers to Complete Green Development Checklist
►
4.4 Conduct Outreach Targeting New Construction in the Community
Strategy 6: Support Community Energy Planning and Action with Emphasis on Encouraging and Supporting 
Participation by Low- and Moderate-Income/Environmental Justice Communities
►
6.2 Conduct Energy Efficiency Outreach to Low- and Moderate-Income Residents
►
6.5 Conduct Energy Efficiency Outreach to Community-Serving Institutions
Each action described in this Plan has the potential to improve quality of life and reduce energy costs 
and emissions in the City by educating the public about opportunities and practices that can reduce 
their energy costs and environmental footprints, directly reducing the City’s energy usage, and creating 
opportunities for new and existing buildings to be more efficient.
COMMUNITY PROFILE
DEMOGRAPHICS
The City of Union City is a urban municipality with a population of 68,073 (2020) or a density of 52,873.75 
persons per square mile over a 1.28 square-mile area. It is located in Hudson County, surrounded by West 
New York, North Bergen Township, Jersey City, Hoboken, and Weehawken. 
According to the U.S. Census Bureau’s Longitudinal Employer – Household Data (LEHD) On the Map data 
tool, 26.6% of the City’s labor force in 2020 worked in New York City (20.5% in Manhattan, 2.8% in Brooklyn, 
2.5% in Queens). Another 35% worked in Hudson County, including 12.2% in Union City. Another 11.1% of the 
labor force worked in outer counties such as Middlesex, Passaic, Union, and Morris County.
Despite transit-accessible places of employment comprising 
the majority of working destinations, and despite being well-
served by transit the 2020 American Community Survey 
(ACS) data indicates that 44% of commutes by Union City 
residents are completed by passenger vehicles and just 
40% are completed public transit. It should be noted that 
the ACS treats any commutes that start by car and end on 
transit - such as anyone driving to a train station or bus park-
and-ride - as a commute by passenger vehicle.
The City is a low-income community compared to the 
rest of New Jersey, with a median household income of 
$49,547 in 2020 and 19.7% of the population at or below the 
poverty level (compared to $85,245 and 9.7%, respectively, 
statewide). 
The vast majority of residents, 77%, are of Hispanic or Latino 
origin. The majority of residents, 61%, are white.
Only 19.8% of occupied housing units in the City are owner-
occupied, compared to 64% statewide. Renters have fewer 
options than homeowners to make energy-saving changes 
to their living spaces or adopt green energy; for example, Map 1.  City Map


City of Union City Community Energy Plan 
March 2024
INTRODUCTION
they cannot unilaterally install solar panels on their homes or 
electric vehicle charging equipment, nor are they often able 
to replace older, less efficient large appliances with newer, 
more efficient ones. 
ENERGY AND VEHICLE USAGE PATTERNS
Based on 2022 property tax data, more than 46% of the City’s 
land area is devoted to one-to-four family residential uses, 
and another 7.5% is dedicated to multi-family residential 
uses. Commercial land uses represent another 20.6% of land 
area. For comparison, the 2020 U.S. Census identified 2-to-4 
unit structures as comprising nearly 4 out of 10 housing units 
in the City, and approximately half of the housing units in the 
City as being contained in buildings with 5 or more units. 
Despite the majority of residents commuting by transit, walking 
to work, or working at home, vehicle usage still contributed 
to more than one third (35.67%) of the City’s greenhouse 
gas emissions in 2020.  Vehicle Miles Traveled data for 2019 
indicates that 115 million vehicle miles that were traveled in 
the State were attributable to Union City that year, which is 
more than 4 times the miles attributed to light-duty trucks and 
more than 50 times the miles attributed to buses. The City 
ranks 130 out of 494 municipalities included in the dataset for 
vehicle miles traveled.
North Jersey Transportation Planning Authority data from 2017 and 2019 indicate that the City saw a 
sixty-one thousand mile reduction in vehicle miles traveled between 2017 and 2019, mostly driven by a 
decline in miles driven by passenger vehicles, even as 
commercial vehicles (trucks) increased their vehicle 
miles traveled. 
In 2020, residents, businesses, and government 
facilities purchased a total of 239 million kWh from 
PSE&G. This is about seven (7) million kWh less than 
what was purchased in 2015, as commercial and 
industrial properties consumed eight (8) million less 
in 2020 while residential properties and street lights 
used one (1) million more. While change could reflect 
improvements in energy efficiency, it most likely 
reflects changes resulting from the COVID pandemic, 
including the closing of businesses to minimize the 
spread of disease. Similarly, natural gas consumption 
declined from 2015 to 2020 among both residential 
and non-residential users, from 6.5 million therms to just 
Map 2.  Transit Map
Figure 2.  Demographic Profile. Source: Sustainable Jersey Community Profile Data, originally sourced from the US Census Bureau’s 2020 
American Community Survey.
NJ DCA MRI 
Score*
Low and 
Moderate 
Income*
Percent of 
Population in 
Poverty
Median 
Household 
Income
Households
% Hispanic or 
Latino Origin*
% Other
% Asian, 
Pacific 
Islander, and 
Hawaiian 
% Black 
% White 
Population 
58
Yes
19.7%
$49,457
25,528
77%
30%
4%
6%
61%
68,073
9.43%
11.11%
0.45%
0.89%
18.29%
20.76%
1.01%
2.36%
35.67%
2020 Community-Scale Energy-Related GHG Emissions
by Sector and Energy Type (MT CO2e)
Residential Electricity
Commercial Electricity
Industrial Electricity
Street Lighting Electricity
Residential Natural Gas
Commercial Natural Gas
Industrial Natural Gas
Street Lighting Natural Gas
Other Heating Fuels
On-Road Vehicles
Figure 3.  	GHG Emissions by Sector / Energy Type; Source: 
Sustainable Jersey Community Scale GHG Emissions 
Data.


City of Union City Community Energy Plan 
March 2024
INTRODUCTION
over 6 million therms. Natural gas represents the predominant 
source of heating fuel, being used by 77% of households as 
opposed to 16% that use electric heating. 
Electricity, heating, street lighting, and vehicle usage in 
Union City generated 243,880 metric tons of carbon dioxide 
equivalent (MTCO2e), the standard measure of greenhouse 
gas emissions, down from 288,035 in 2015. About eighteen 
thousand MTCO2e of the estimated reduction is attributed to 
reduced vehicle usage, while the rest is attributed to reduced 
emissions from electricity and heating. The reductions in non-
residential emissions are largely due to lower electric and gas 
consumption, while the reduction in emissions from residential 
users is due to a lower estimated emissions factor per MWh 
(558.3 pounds of CO2e per MWh in 2015 versus 492.293 pounds 
per MWh in 2020). 
While motor vehicles  are responsible for one-third of the 
City’s greenhouse gas emissions, (See Figure 3 on page 15). 
another third of emissions come from residential 
and commercial natural gas consumption. 
It should also be noted that while the 2020 
Statewide emissions rate per-resident was 13.44 
MTCO2e, compared to 3.58262 in Union City, 
making Union City residents the fourth lowest 
emitting municipality in the State. Residents and 
workers in dense, mixed-use communities tend to 
have a lower carbon footprint because of transit 
access, more efficient land use, and efficiencies 
of having multiple tenants per building.
Walkscore.com, which uses geographic data to 
score communities by walkability, transit access, 
and bike friendliness, gives the City a Walk 
Score of 94 - meaning that daily errands do not require a car. 
It also gives the City a transit score of 80, meaning that transit is 
convenient for most trips, and a bike score of 54, meaning that 
the City has some bike infrastructure. See Map 3 on page 16.
ACTIONS TO DATE, AND POTENTIAL OPPORTUNITIES AND OBSTACLES
ACTIONS TO DATE
►
Union City adopted an Electric Vehicle (EV) charging
ordinance implementing the Model Ordinance published
by the NJ DCA and incorporated into the Municipal Land
Use Law in 2021.
►
In 2022 the City received two grants from the State’s EV
Tourism and It Pay$ to Plug In grant programs totaling
$192,000.
►
The Union City Board of Education received incentives
worth over $98k in 2011 through the Local Government
Map 3.  	
Walk Score® walkability map for Union 
City. Darker green means more amenities 
and services are accessible by foot.
Figure 5.  	Commute Patterns; Source: 2020 American 
Community Survey
44%
40%
1%
1%
10%
1%
3%
Transportation to Work
Car, truck, or van
Public transport
Taxicab
Motorcycle
Bicycle
Walked
Other means
Worked at home
Figure 4.  VMT by Vehicle Type in 2019; Source: NJTPA On-Road VMT 
Data.
1,881,626
13,086,029
25,944,126
1,187,901
115,111,346
5,344,392
0
00
00
00
00
00
00
00
Buses (intercity,
transit, &
school)
Combination
Trucks (short &
long haul)
Light Trucks
(commercial &
passenger)
Motorcycle
Passenger Car
Single Unit
Trucks (refuse,
short & long
haul) and
Motorhomes
Vehicle Miles Traveled by Vehicle Type


City of Union City Community Energy Plan 
March 2024
INTRODUCTION
Energy Audit (LGEA) program to identify paths to improve energy efficiency on school facilities.
►
The Union City Housing Authority received a $10,060
incentive in 2015 to retrofit the Palisade Plaza building
at 3700 Palisade Avenue, saving more than 89,000 KWh.
OPPORTUNITIES FOR ENERGY IMPACT
►
Public Transit: The City is well-served by bus and light
rail lines, and is nearby ferry ports on the Hudson River
offering commuter access to New York City. These
amenities help in reducing energy consumption and
emissions from personal vehicle miles traveled. Each
of the nearby rail and ferry stations are served by
buses. The City can explore partnerships and grant
opportunities to fill in the gaps in last-stop connections
to these transit points such as micro-mobility sharing
services or even shuttles to Secaucus.
►
Rooftop Solar: According to a City-wide analysis
from Google’s Sunroof program, the City has 5.7
thousand roofs with 4.4 million square feet that can
accommodate solar installations with a 62.8 MW DC 
capacity and generate over 72,600 MWh of electricity 
per year, or three-quarters of the electricity used by 
residential consumers in 2020. The median roof can fit 
a 476 square foot installation that can generate 7.7 thousand kWh per year.  One hundred and 
thirty three (133) roofs in the City could accommodate systems with a capacity between have 
a between 50k and 300k kW in a year. (https://sunroof.withgoogle.com/data-explorer/place/
ChIJlS0E8YJXwokRgBdC98AFoAs/)
►
Parking Authority: The City has a Parking Authority that operates several public lots and garages
throughout the City. These facilities are ideal locations to install public charging infrastructure. Their
roofs may also be appropriate locations for solar
installations including community solar projects.
►
Public EV Charging Stations: At the moment there are
no public EV charging stations in the City, although
there are stations in neighboring Cities. See Map 5 on
page 17.
CONSTRAINTS TO ENERGY IMPACT
►
Housing Tenure: With 8 out of 10 housing units in the City
being rentals, most of the City’s households have only
limited ability to reduce energy usage and emissions
from buildings.
►
Housing Age: More than half of the housing units in the
City are in buildings that were constructed before 1960.
These buildings are typically less energy efficient and
require significant rehabilitation to improve efficiency.
►
Resident Income: With nearly one out of five households
in poverty and a low city-wide median income,
residents may not have the same resources available
Map 4. 
Google Project Sunroof Data for Union City. 
Yellow roofs have more sunlight exposure, 
browner roofs have less. Screenshot taken 
November 3, 2023.
Map 5.  	
Alternative Fueling Stations Near Union City


City of Union City Community Energy Plan 
March 2024
INTRODUCTION
to switch to electric or alternative fuel vehicles, purchase newer, energy efficient appliances, or invest 
in weather-proofing their homes.
IDENTIFYING A LEADER
The most important decision the City should make to begin its community energy planning program is to 
identify the person, office, or body to lead the implementation of its Community Energy Plan. Sustainable 
Jersey recommends establishing a Green Team, composed of stakeholders from the governing body, 
municipal departments, advisory and decision making boards and committees, residents, and (if 
appropriate) representatives from local non-profits and community organizations. 
A Green Team allows the City to plan and implement its Community Energy Plan in an inclusive, open, and 
strategic manner. It is also beneficial if the Green Team is or works in close collaboration with a non-profit 
organization whose mission is to achieve for the City a specific level of sustainability, such as Sustainable 
Jersey Bronze or Silver Certification, or LEED Certified Cities, and which can take active action to promote 
local sustainability independently (such as outreach actions) and in collaboration with other City agencies. 
The powers and responsibilities of the Green Team can be determined by the City.
SUSTAINABLE JERSEY CERTIFICATION	
Many of the initiatives described in this CEP correspond with one or more “Actions” toward municipal 
certification through Sustainable Jersey as a Bronze or Silver community. The Action information sheets on 
the Sustainable Jersey website provide guidelines for implementing these actions in greater detail than this 
CEP.
LOOKING BEYOND THE TEMPLATE
The numbered initiatives explored in this Plan are based on the initiatives identified in the Work Template 
created jointly by Sustainable Jersey and NJ BPU, and are oriented around the direct relationship between 
energy end-users and utility providers like PSE&G. 
There are a variety of actions that municipalities can take to reduce local energy consumption, vehicle-
miles-traveled, and greenhouse gas emissions that are not included in this Report, including:
►
Zoning ordinances that promote higher density and diverse mix of uses around transit;
►
Promoting composting or providing local food and plant waste collection, which reduces methane
emissions from decomposing organic waste and can reap local rewards such as generating compost
for landscaping or even generating energy through anaerobic digestion processes;
►
Enhancing and expanding the urban tree canopy through tree planting programs or zoning standards, 
which not only helps to improve local air quality by removing pollutants from the air but also helps to
reduce building and automobile energy usage by providing shade in the summer and blocking cold
winds in the winter;
►
Incentivizing new construction to meet green building standards by reducing permitting and review
fees for projects that achieve certifications such as Energy Star or LEED;


1 • REDUCE ENERGY CONSUMPTION AND EMISSIONS FROM TRANSPORTATION
City of Union City Community Energy Plan 
March 2024
19
STRATEGY 1: REDUCE ENERGY CONSUMPTION AND EMISSIONS FROM THE 
TRANSPORTATION SECTOR
This strategy is focused on increasing adoption of 
electric vehicles - not only passenger vehicles, but 
fleet vehicles as well - and taking other actions that 
can reduce transportation related energy use and 
greenhouse gas emissions. Transportation makes up 
42% of emissions in New Jersey (per the NJ EMP) and 
9% of an average household’s budget based on 
2019 Bureau of Labor Statistics data. 
According to the U.S. Department of Energy’s 
Alternative Fuels Data Center, the average annual 
emissions from driving a BEV 11,579 miles in New 
Jersey is just 1,636 pounds of CO2 equivalent (lbs 
CO2e) compared to 12,594 lbs CO2e from a gasoline 
powered car. New Jersey’s EV CO2e emissions are 
significantly lower than the national average due 
to New Jersey’s cleaner electric fuel portfolio. ICE 
vehicles and HEVs have the same emissions in every 
state, as gasoline is chemically the same across the 
United States.
While they tend to have a somewhat higher up-front price tag and higher insurance costs, electric vehicles 
have lower fueling and maintenance costs than ICE vehicles, often resulting in a payback period of about 
five years for vehicles averaging above 15,000 miles per year when compared to gasoline vehicles in the 
same class.
Municipalities can reduce GHG emissions from the transportation sector by electrifying municipal fleets, 
supporting the adoption of electric and alternative fuel vehicles for residential and non-residential use, and 
taking actions to increase the availability of electric vehicle charging infrastructure. 
Union city plans to explore the installation of public EV Charging infrastructure and conduct an outreach 
campaign to create awareness of the incentives available from the State toward the purchase of electric 
vehicles for commercial fleets.
Union City has already incorporated the Statewide electric vehicle charging station requirement into its 
municipal code, which requires a portion of the parking from new development or other applicable site 
improvements to be equipped for electric vehicle charging.
The specific Strategy 1 Initiatives to be pursued by the City include the following:
►
1.2 Train First Responders on EVs and EVSE - To further public confidence and maintain emergency
preparedness, require training on electric vehicles and associated infrastructure for local first
responders.
►
1.3 Train Non-Emergency Staff on EVs and EVSE - Initiate electric vehicle cross-training for non-
emergency staff such as code officials, automotive technicians, and electricians.
►
1.4 Purchase Alternative Fuel Vehicles - Replace existing municipal fleet vehicles with plug-in hybrid,
battery electric, or other sustainable alternative fuel vehicles, using fleet analysis to inform purchases.
►
1.5 Improve Municipal Fleet Efficiency - Coordinate the strategic replacement (or retirement) of
vehicles, scheduling of preventative maintenance, and improvement of driver efficiency to reduce
the GHG footprint of all municipal fleets – public works, police, fire, etc. Requires tracking of fleet data
such as age of vehicles, duty cycle, and use patterns.
Figure 6.  CO2e emissions by vehicle fuel type in New Jersey and 
Nationally. Source: U.S. Department of Energy.


1 • REDUCE ENERGY CONSUMPTION AND EMISSIONS FROM TRANSPORTATION
City of Union City Community Energy Plan 
March 2024
20
►
1.6 Install Public EV Charging Infrastructure - Install electric vehicle charging infrastructure, including
chargers, signage, and safety and accessibility features, for public use.
►
1.8 Encourage Workplace EV Charging Infrastructure -  Meet with local employers to ask them to install
workplace EV charging. If possible, offer incentives such as promotion in municipal communications,
a “ribbon cutting” event with public officials, and/or a fast-tracked permitting process.
1.2 & 1.3 TRAIN FIRST RESPONDERS AND NON EMERGENCY STAFF ON EVS AND EVSE
Fire suppression methods and other emergency 
response 
for 
electric 
vehicles 
and 
charging 
equipment differ from those for traditional fuel 
vehicles. Emergency responders who are not 
trained in response to EV related emergencies put 
themselves and those involved in the emergencies 
at great risk of injury, property damage, or death.
The Green Team will work with the Union City Fire 
Department, the Police Department, and Union City 
Medical Services to determine if EV/EVSE trainings are 
already part of their training routines. If not, the Departments will require their staff to complete one or more 
training courses in emergency response to alternative fuel vehicles on a regular basis as may be needed to 
maintain certification and remain up to date on best practices. 
Similar to Emergency Response personnel, the City will require its code enforcement personnel and technical 
in-house staff and contractors to receive regular training and education on electric vehicles and EVSE. 
The National Fire Protection Association, the National Alternative Fuels Training Consortium, and Kean 
University, and the US Department of Energy’s Electric Vehicle Infrastructure Training Program are examples 
of organizations that offer courses for emergency response professionals. 
1.4 PURCHASE ALTERNATIVE FUEL VEHICLES
Replacing older fleet vehicles with newer alternative 
fuel vehicles can reduce municipal climate impact 
and costs associated with vehicle upkeep and 
fueling. The moment that a vehicle no longer 
serves its purpose or becomes a burden to maintain 
is a “leverage point” - an opportunity that can be 
leveraged to make a greater impact - to change 
energy usage patterns.
As of August of 2023, the City’s fleet includes vehicles 
from the years 1990 to 2023. The oldest vehicle is a medium-duty GMC Topkick truck used by the Sanitation 
Department having 136,420 miles. The newest vehicle is a 2023 Chevy Malibu used for Senior Services and 
having 7,448 miles. The most used vehicle is a 2008 Thomas Bus used by the police department and having 
323,950 miles. There is no consistent trend between the age of the vehicle or departmental use and the 
number of miles accumulated.
While electrified light-duty vehicles tend to be the most visible, medium and heavy duty vehicles do exist 
as hybrid vehicles, battery-electric or plug-in hybrid electric vehicles. Plug-in electric heavy duty vehicles 
are particularly suitable for electric replacement where the vehicle’s function provides enough downtime 
between uses to fully charge (such as a street sweeper, refuse truck, or school bus). The typical operations 
of vehicles like buses and waste collection trucks involve significant stop-and-go movement, which allows 
them to recharge their batteries every time they stop or slow down, making them ideal for electrification 
as well. 
Replace existing municipal fleet vehicles with plug-in 
hybrid, battery electric, or other sustainable alternative 
fuel vehicles, using fleet analysis to inform purchases.
“Purchase Alternative Fuel Vehicles” 
Action
“Meet Target for Green Fleets” Action
To further public confidence and maintain emergency 
preparedness, require training on electric vehicles and 
associated infrastructure for local first responders.
Initiate electric vehicle cross-training for non-emergency 
staff such as code officials, automotive technicians, and 
electricians.
“Make Your Town Electric Vehicle 
Friendly” Action


1 • REDUCE ENERGY CONSUMPTION AND EMISSIONS FROM TRANSPORTATION
City of Union City Community Energy Plan 
March 2024
21
The up-front cost for such vehicles, however, can be substantially more than that of their gasoline or diesel 
fueled counterparts; therefore, the lifetime costs of the vehicle with respect to maintenance and charging 
should be taken into consideration.
The decision as to which vehicles the City should prioritize for replacement should include the following:
►
Current maintenance and fueling costs of existing ICE vehicle - Vehicles with the highest fueling and
maintenance costs should among the first targets for comparable EV replacement. Older vehicles
typically have the worst fuel efficiency, but may cost little to maintain or use due to infrequent usage;
►
Rate of usage - The payback period for an EV (the amount of time it takes for the savings in fuel
and maintenance costs to exceed the cost difference between the EV and its internal-combustion
equivalent) is highest for vehicles  with the highest rate of usage (miles per year). Vehicles that rack up
the most miles each year should be among the first targets for comparable EV replacement.
►
Type of usage - Vehicles whose daily uses include long idling periods (such as a police car or bus)
or frequent stop-and-go patterns (such as a garbage truck or school bus) are great candidates for
electric replacement as those use patterns are most wasteful in ICE vehicles;
►
Available electrified alternatives - The City should evaluate the costs and reliability of available electric
alternatives against newer ICE or HEV models.
►
Grid and electric system compatibility - The City should ensure that it is able to install the necessary
EVSE at appropriate facilities to charge the EV replacement vehicle to at least 80% charge between
uses.
►
Plans for On-Site Solar - The City can get the most out of its investment in EVs and in renewable
energy if it electrifies fleet vehicles that will be charging at facilities that are targeted for on-site solar
installations, as the vehicles could essentially charge for free using energy generated on-site from the
solar array.
►
Available Funding - The City should put vehicles at the front of the line for replacement if special
grants or financing programs are available for the specific vehicle category. This should especially be
the case for heavier duty vehicles that have a higher ticket price.
The City may find that it is more economically practical to contract with a vehicle conversion professional 
to convert current fuel-based fleet vehicles to HEV, BEV or PHEV. Such conversions replace or supplement 
the ICE engine with an battery and/or motor. 
FINANCIAL INCENTIVES AND SAVINGS
►
At the time of this writing, the New Jersey Clean Fleet EV Incentive Program through New Jersey Clean
Energy offers $4,000 grants toward the purchase of light-duty BEVs, $10,000 for class 2B through 6 BEVs,
$5,000 for public level-two chargers and, for overburdened communities, $4,000 for level two fleet
vehicle chargers.
►
Municipalities can take advantage of tax credits for purchase of electric vehicles either by having the
tax credit passed through directly from the vendor or through direct application for reimbursement
from the federal government.
►
Through the Regional Green House Gas Initiative (RGGI), NJ State agencies will occasionally offer
grants for the replacement diesel powered medium and heavy-duty vehicles, such as school buses,
garbage trucks, and the like, with electric alternatives. The most application deadline was September
4, 2023. Overburdened communities receive priority in the grant program. The City should continue to
monitor for future rounds of this grant program.
►
The NJ ZIP program operated through the NJ EDA provides between $20,000 and $175,000 in
assistance to acquire a new zero-emission vehicle. Base voucher amounts will depend on vehicle
class; however, overburdened communities are eligible for a 10% increase in voucher value, and


1 • REDUCE ENERGY CONSUMPTION AND EMISSIONS FROM TRANSPORTATION
City of Union City Community Energy Plan 
March 2024
22
there is a 25% increase available for school buses. Phase 2 (2023) is closed; however, the City 
should continue to monitor for future phases.
►
NJ Municipalities are also eligible for sale tax exemptions for new or used Zero Emission Vehicles (ZEVs)
sold, rented or leased in the State.
►
Union City can advocate for or join a collaborative of municipalities and agencies in Hudson County
to collectively bid for electric vehicles in order to achieve a discounted prices.
Incentive programs and mechanisms to reduce the costs of EV acquisition after adoption of this Plan may 
differ from those listed here. The City will need to assess the usage and maintenance patterns of their 
vehicles against the available incentive programs to determine which programs offer the greatest payoff.
OBSTACLES AND CHALLENGES
Some of the obstacles and barriers that the City may face in this initiative include:
►
Buy-in from fleet drivers (police, fire, etc.) and adapting to the unique driving characteristics of electric
vehicles;
►
Eligibility of desired vehicles for grants, incentives, or legal obstacles to municipal acquisition;
►
Competition for grants and covering municipal portion of costs of acquisition;
►
Costs and logistics associated with acquiring or leasing specialized vehicles like fire and garbage
trucks;
►
Ability to synchronize installation of charging/fueling equipment with acquisition of alternative fuel or
electric vehicles.
NEXT STEPS
1.
The City’s fleet manager, Shawn Thomas, or his designee or successor, will input fleet information into
Sustainable Jersey’s Fleet Inventory spreadsheet and use the sheet to track and assess the usage,
fueling costs, and emissions from the vehicles in the City’s fleet. Data from this sheet will be used to
identify vehicles that are priority for electrification or replacement with other alternative fuel vehicles.
2.
The Fleet Manager will coordinate with the City’s Facilities Manager to assess the readiness of municipal
garages and vehicle maintenance facilities for EV charging or other alternative fueling capabilities.
3.
The Fleet Manager will coordinate with Administration, City Grant Writers, and other City departments
and professionals to monitor and apply for grants to replace vehicles most in need of replacement and
suitable for electrification.
4.
The Fleet Manager will update the fleet inventory on a quarterly or semi-annual basis. Simultaneously,
the City will request that its Grant Writer monitor grant opportunities for fleet vehicles on an ongoing
basis. Continued monitoring of vehicle usage and grant opportunities, particularly as electric and
alternative fuel vehicles are added to the fleet, will allow the City to take the most advantage of grants
while improving fleet efficiency
 1.5 IMPROVE MUNICIPAL FLEET EFFICIENCY
The City can take a number of actions to make its 
fleet more efficient beyond electrifying its vehicle 
fleet. These include:
►
Idle Reduction Technology - Installing Idle
reduction equipment  into fleet vehicles that
are expected to remain in operation for at
least five years. Idle reduction equipment
Coordinate the strategic replacement (or retirement) 
of vehicles, scheduling of preventative maintenance, 
and improvement of driver efficiency to reduce the GHG 
footprint of all municipal fleets – public works, police, fire, 
etc. Requires tracking of fleet data such as age of vehicles, 
duty cycle, and use patterns.


1 • REDUCE ENERGY CONSUMPTION AND EMISSIONS FROM TRANSPORTATION
City of Union City Community Energy Plan 
March 2024
23
temporary shuts off a vehicle’s engine while 
idling while powering electronic devices like 
air conditioning and audio at full or reduced 
performance on battery power. An “Idling 
Reduction Savings Calculator” worksheet is 
included in the appendices to this Plan. ;
►
Behavior Changes - Training or educating
police, public works, and other municipal
personnel on efficient driving and idling
practices;
►
Low Rolling Resistance Tires - According to the
US Department of Energy, “Rolling resistance
is the energy lost from drag and friction of a
tire rolling over a surface. The phenomenon is
complex, and nearly all operating conditions
can affect the final outcome. Conventionally
fueled passenger vehicles use about 4%–
11% of their fuel just to overcome tire rolling
resistance. All-electric passenger vehicles can
use approximately 25% of their energy for this
purpose. For heavy trucks, this quantity can
be as high as 30%–33%. A 10% reduction in
rolling resistance would improve fuel economy
approximately 3% for light- and heavy-duty
vehicles. Installing low rolling resistance tires
can help fleets reduce fuel costs. It’s also
important to ensure proper tire inflation.”
Establishing a City-wide policy to only replace
fleet vehicle tires with low rolling resistance
tires can help to reduce fuel consumption for
medium and heavy-duty internal combustion
vehicles.
►
Speed Control Modules - Contract with an
appropriate vendor to set speed limits on
non-emergency vehicles to prevent vehicles
from driving inefficiently. According to the 
US Department of Energy, every 5 MPH over 50 MPH on a light duty vehicle equates to costing an 
additional $0.25 per gallon of fuel. That amount varies by vehicle type and age. 
►
Select Smaller Vehicles Where Available - Lighter weight vehicles use less fuel and can often meet the
same needs as their larger counterparts (consider, for example, a Ford Escape instead of the larger
Ford Explorer).
OBSTACLES AND CHALLENGES
The most significant obstacle to making the City’s fleet more efficient through interventions such as those 
listed above will be buy-in from Department Heads or fleet drivers. Other obstacles will include supply chain 
issues and related barriers to acquiring efficiency-improving equipment.
NEXT STEPS
1.
The Green Team will coordinate with relevant department heads to identify relevant fuel saving options
Note 1.	
Idle Reduction Types
University of Massachusetts, Amherst, Center for 
Agriculture, Food, and the Environment, identifies these 
types of IRT:
•
Idle Limiter – The simplest form of IRT, this
mechanism turns a vehicle’s engine off after it has
been idling for a predetermined period of time.
•
Electronic Stop/Start System – An electronic device
that monitors vehicle battery levels while the engine
is off, but appliances are in use. Once battery levels
drop below a certain point, the device turns the
engine on for a set amount of time to recharge the
battery, and then turns the engine off again.
•
Auxiliary Power Unit (APU) – A small secondary
power source that allows a vehicle’s electronic
appliances to be used when the primary engine
is not running. APUs can be powered using the
vehicle’s main fuel supply, a small separate fuel
tank, alternative fuel, rechargeable batteries, or
rooftop solar panels.
•
Fuel Operated Heater (FOH) and Battery Air
Conditioning System (BAC) – Small independent
heating and cooling systems. FOHs can operate on a
range of fuels, including gas, diesel, and alternative
fuels.  BACs are powered with rechargeable
batteries, which can be charged by the engine while
it is running, or by rooftop solar panels. These two
systems are frequently utilized together.
•
Plug-in Hybrid Systems – Rechargeable battery
systems can be installed to run power take-offs, 
bucket truck lifts, dump truck hydraulics and other 
truck equipment, even when the engine is off.”
“Fleet Inventory” Action


1 • REDUCE ENERGY CONSUMPTION AND EMISSIONS FROM TRANSPORTATION
City of Union City Community Energy Plan 
March 2024
24
(strategies, technology) for those departments;
2.
Department heads will update their policies where possible to promote fuel saving practices;
3.
The Green Team will create educational materials for distribution to fleet-operating personnel and
display in City offices to promote efficient driving and vehicle maintenance practices.
4.
The Fleet Manager will help department heads identify opportunities to upgrade existing vehicles with
fuel saving technologies or accessories where direct vehicle replacement is not immediately practical.
1.6 INSTALL PUBLIC EV CHARGING INFRASTRUCTURE
The City’s Parking Authority owns 11 parking lots 
and decks for public use. According to statewide 
alternative fueling area data and private EV 
Charging locating service, ChargePoint, there are 
no public electric vehicle chargers within Union City 
at this time (See “Map 5. 	
Alternative 
Fueling 
Stations Near Union City” on page 17).
In 2022 the City received two grants from the State’s 
EV Tourism and It Pay$ to Plug In grant programs 
totaling $192,000. Of that, $150,000 was for the 
installation of a DC Fast Charging station, the fastest 
type of charger currently available. 
TYPES OF EVSE
The type of EVSE to be installed will depend on the 
fleet’s needs and the current and potential capability 
of the site’s electrical systems. There are three basic 
categories of EVSE based on the maximum amount 
of power the charger provides to the battery. See 
“Note 2. Typical EVSE Charger Levels” on page 24.
Level 1 chargers can charge 16 to 40 miles of driving 
in an 8-hour work day based on the 2 to 5 miles of 
range per hour stated in the previous section, and 
even for fleet vehicles with substantial downtime 
between uses. From a public use perspective, these 
are ideal in public lots used by rail commuters or 
local workers who will park their vehicles in those lots 
for at least 6 hours.
Level 2 and DCFC chargers are ideal for vehicles 
that drive many miles per day and/or have minimal 
downtime between uses, such as emergency 
vehicles or public users who are charging their 
vehicles while shopping, dining, or using a public or 
private service.  
Public charging stations with DCFC or Level 2 
charging should be located in public areas where 
EV users are likely to leave their vehicles for at least 
30 minutes. These include municipal lots near shopping areas, City Hall, or religious uses, or installation 
associated with on-street parking. See Map 6 on page 25 identifies the neighborhoods rated to be most 
suitable for Fast Charging in Union City by MJ Bradley and Associates.
Note 2.	 Typical EVSE Charger Levels
As summarized by the Delaware Valley Regional Planning 
Commission:
•
“Level 1: Provides charging through a 120 V AC
plug and does not require installation of additional
charging equipment. Can deliver 2 to 5 miles of range
per hour of charging. Most often used in homes,
but sometimes used at workplaces. Level 1 charging
at home or work may be able to provide adequate
charging for most commuters.
•
Level 2: Provides charging through a 240 V (for
residential) or 208 V (for commercial) plug and
requires installation of additional charging equipment.
Level 2 can deliver 10 to 20 miles of range per hour of
charging. Used in homes, workplaces, and for public
charging.
•
DC Fast Charging (DCFC): Provides charging through
480 V AC input and requires highly specialized, high-
powered equipment as well as special equipment in
the vehicle itself. DCFC can deliver 60 to 80 miles of
range in 20 minutes of charging. Used most often
in public charging stations, especially along long-
distance traffic corridors. The cost for DCFC generally
makes it too expensive for everyday use. Note that
if you think you may need to use DCFC, be sure that
the vehicle you purchase has fast charging provisions
installed. For some vehicles this is an option. For the
2021 Chevrolet Bolt, this option has an MSRP of $750.
Plug-in hybrid electric vehicles typically do not have 
fast charging capabilities.”
Install electric vehicle charging infrastructure, including 
chargers, signage, and safety and accessibility features, 
for public use.
“Public Electric Vehicle Charging” Action


1 • REDUCE ENERGY CONSUMPTION AND EMISSIONS FROM TRANSPORTATION
City of Union City Community Energy Plan 
March 2024
25
NETWORKED VERSUS NON-NETWORKED 
CHARGERS
In addition to the power level categories, 
EVSE come in “networked” and “non-
networked” formats. Networked EVSE 
have a higher up-front cost and costs 
for the benefit of being connected to a 
telecommunications network, but also 
provide benefits such as being able 
to levy a fee for charging or monitor 
charging 
activity. 
Non-networked 
chargers might also accept payment 
through 
credit 
cards 
and 
other 
traditional forms of payment; however, 
this must be assessed on a case by case basis. 
FINANCIAL INCENTIVES AND SAVINGS
At the time of this writing, the New Jersey Clean Fleet 
EV Incentive Program through New Jersey Clean 
Energy offers $4,000 grants toward the purchase of 
fleet Level 2 EV Charging Stations and $5,000 grants 
toward public Level 2 EV Chargers, with a limit of 
2 charging stations in a grant period for areas with 
populations of less than 20,000 persons. Up to $50,000 
may also be available for one DCFC charging 
stations. Overburdened municipalities like Union 
City are eligible for an additional 50% bonus to be 
provided in the form of either additional funding or 
additional eligible chargers. The City may also be 
eligible for additional rebates from PSE&G for DCFC 
infrastructure installation. EV charging equipment 
is also eligible for a 30% tax credit (Alternative Fuel 
Vehicle Refueling Property Credit), further reducing 
the costs to the City. Incentive and other cost-saving 
programs may change after adoption of this Plan.
OBSTACLES AND CHALLENGES
The first challenge faced by a municipality looking to install fleet or public charging stations is identifying the 
locations where chargers will be most convenient and cost effective based on costs to install and power 
the equipment and proximity to places that EV drivers will likely visit. The second is determining the most 
efficient and reliable form of ownership - whether the equipment will be the City’s responsibility or that of a 
third party. After installation, the challenges include possibility of vandalism or misuse requiring repairs and 
maintenance, and monitoring for potential issues and to measure performance.
NEXT STEPS
1.
The City will direct its Planning and Engineering professionals to conduct feasibility studies to identify
municipal facilities or City-owned rights-of-way where public EV charging equipment may be most
impactful, including parking lots near busy shopping areas and places of employment, lots that provide
overnight parking for apartment dwellers, municipal facilities where visitors are likely to stay for 30 minutes 
or longer (libraries, courts, etc.), and other areas. The City will also refer to the NJDEP’s DC Fast Charging
Map 6.  NJ DEP’s Community Fast Charger Solicitation Map Tool for Union City. 
Highest scoring areas for suitability are in darker purple, scoring as 
much as 90 out 100 for suitability for Fast Charging stations.
Figure 7.  NJDEP’s 2023 Level 2 Charging Incentive Comparison 
Table, last updated January 2023


1 • REDUCE ENERGY CONSUMPTION AND EMISSIONS FROM TRANSPORTATION
City of Union City Community Energy Plan 
March 2024
26
Suitability Map to pinpoint neighborhoods where DCFC pays off the most.
2.
The Facilities Manager will assess the readiness of public lots for EVSE;
3.
The City will instruct Grant Writers to pursue grants for EVSE for installation in areas identified in the
feasibility study;
4.
The Green Team will take action to educate the public about the benefits of Public EV, dispel myths
about their harms, and hold ground breaking with City officials for the first public EV stations;
5.
Following installation, the City should monitor usage of the EV charging facilities to assess the success of
the initial installation and determine the most effective strategies for future installations;
6.
Additional grant opportunities will be monitored and pursued accordingly.
1.8 ENCOURAGE WORKPLACE EV CHARGING INFRASTRUCTURE 
One of the best ways to increase the availability 
of electric vehicle charging infrastructure in the 
City is to reach out to the owners and operators of 
the buildings where people work in the City. New 
multi-family residential buildings and commercial 
buildings are required by statute to provide EV or 
EV-ready parking spaces. However, the City can 
use its influence to encourage business owners and 
commercial property owners to voluntarily provide 
EV charing infrastructure for their employees.
OBSTACLES AND CHALLENGES
Property owners and managers often do not understand the benefits of providing EVSE, or the financing 
programs available to make them more affordable. Additionally, many businesses in urban settings are 
renting their facilities and have limited influence or decision making when it comes to making facilities 
improvements. Ownership structures of commercial buildings may also result in complex chains of command 
and communication that limit the success of outreach initiatives.
STRATEGIES AND NEXT STEPS
1.
The City’s Green Team will create promotional materials, including inserts to provide with utility bills
and tax mailers to commercial property owners/managers, advertising the financial incentives for EVSE
on commercial properties and the benefits of having EV parking spaces, and offering a promotional
opportunity, such as a ribbon cutting with a City official and publication on the City’s website and social
media pages.
2.
The Green Team will partner with the Chamber of Commerce and other local organizations to identify
opportunities to communicate directly to businesses and commercial property owners on this initiative.
3.
The City will also instruct its Grant Writers to monitor grant opportunities that encourage partnerships
between municipal governments and private property owners to install EVSE on private properties.
Meet with local employers to ask them to install 
workplace EV charging. If possible, offer incentives such 
as promotion in municipal communications, a “ribbon 
cutting” event with public officials, and/or a fast-tracked 
permitting process.
“Make Your Town EV Friendly” Action
“Electric Vehicle Outreach” Action


2 • ACCELERATE DEPLOYMENT OF RENEWABLE ENERGY
City of Union City Community Energy Plan 
March 2024
27
STRATEGY 2: ACCELERATE DEPLOYMENT OF RENEWABLE ENERGY AND DISTRIBUTED 
ENERGY RESOURCES
The goal of Strategy 2 is to expand the adoption of solar-generated electricity and other forms of micro-
generation by the City and by City residents and businesses. Actions include adopting ordinances to 
remove barriers to private and community solar projects, installing solar energy systems on City properties, 
and reducing obstacles to accessing clean energy, particularly among the City’s LMI residents.
A core component of the success of Strategy 2 is a type of program called community solar. Solar energy 
installations come in a few different forms. Private solar, such as rooftop panels installed on a home or 
a warehouse, provide on-site electricity and sell whatever is left over to the grid, providing a credit on 
the property-owner’s utility bill. Utility providers, such as PSE&G, can also install solar energy systems which 
contribute to the total grid electric production. Community solar is a system in which a property owner can 
develop solar energy infrastructure on their property, or lease land or roof area to another party to develop 
the infrastructure, and allow residents and businesses to subscribe to a portion of the energy generated, 
which is credited to their utility bill proportionate to the amount of solar energy that they have subscribed 
to. 
The specific Strategy 2 Initiatives to be pursued by the City include the following:
►
2.1 Adopt Supportive Zoning and Permitting for Private Solar - Provide clear guidance/standards for
solar developers and limit barriers to solar adoption such as lengthy permitting and multiple reviews.
►
2.3 Adopt Zoning and Permitting for Community Solar - Update municipal zoning ordinances
to specifically allow large-scale solar projects, and designate future community solar sites as
redevelopment zones. Consider offering direct assistance with permitting, expediting the permitting
process, and/or reducing permitting fees for community solar.
►
2.5 Train Non-Emergency Staff on Solar - To ensure municipal staff can efficiently and effectively
inspect, review, permit, etc. solar installations in the community, require training on solar infrastructure
for all relevant staff.
►
2.6 Install On-Site Municipal Renewable Generation - Host a solar, wind, or geothermal project on
municipal property to generate renewable energy for municipal facilities. Such projects can be
leased from a developer or purchased and owned outright.
►
2.13 Host a Community Solar Project on Municipal Property - Host a community solar project on
municipal property, such as a DPW garage, parking lot/garage, or landfill. Most municipalities lease
the site to the developer or enter a power purchase agreement (PPA) with the developer to buy the
electricity at a reduced rate.
2.1 ADOPT SUPPORTIVE ZONING AND PERMITTING FOR PRIVATE SOLAR
The City will ensure that private solar is clearly 
permitted as an accessory use in the City, and limit 
regulatory language to reduce unnecessary barriers 
like added costs and outdated technological 
standards.
A supportive zoning ordinance for private solar 
infrastructure will establish only the minimum necessary standards to protect public health, safety, and 
welfare. Sustainable Jersey publishes a document entitled “Guidance for Creating a Solar Friendly Zoning 
Ordinance” which outlines the “Dos” and “Don’ts” of drafting ordinances surrounding solar. Some of key 
takeaways of this are:
►
The ordinance should avoid setting standards or definitions specifying types of technology, models,
standards, or electrical sizes as they may become outdated or may not be applicable to all situations;
“Make Your Town Solar Friendly” Action
Provide clear guidance/standards for solar developers and 
limit barriers to solar adoption such as lengthy permitting 
and multiple reviews.


2 • ACCELERATE DEPLOYMENT OF RENEWABLE ENERGY
City of Union City Community Energy Plan 
March 2024
28
►
The ordinance should not be overly burdensome, such as requiring site plan approval for all solar
equipment. For example, solar facilities should not be conditional uses.
►
Permitting fees for solar installations should be minimal and should not exceed fees established in
N.J.A.C. 5:23-4.20(c)2.iii(13).
►
The guide includes ordinance-friendly definitions which Sustainable Jersey believes will minimize
confusion or obstructions to solar proliferation.
►
To the extent that the ordinance provides standards for solar facilities, the standards should be distinct
for ground-mounted / freestanding versus roof-mounted equipment.
►
Avoid abstract language regulating the visual impact of solar on a neighborhood.
The above referenced guidance document is contained in the appendices to this Plan.
Adopting a solar supportive ordinance is a quick, low-cost action that the City can take shortly after the 
adoption of this plan. 
OBSTACLES AND CHALLENGES
The City should anticipate that members of the public may have concerns about the appearance of solar 
panels and their related equipment. 
NEXT STEPS
1.
The City will authorize its Planner to review the City’s Master Plan to ensure that the Plan does not contain
language which would discourage solar installations, and to draft an ordinance permitting private solar
based on the guidelines from Sustainable Jersey and its sources.
2.
The solar permitting ordinance will be reviewed by the Planning Board for Master Plan consistency, and
then referred back to the Mayor and Council for adoption.
3.
Staff, Boards, and outside professionals to enforce ordinance.
2.3 ADOPT ZONING AND PERMITTING FOR COMMUNITY SOLAR 
This initiative is similar to the prior two and, in fact, 
may be adopted simultaneously with the general 
solar permitting ordinance and checklist. Zoning 
and permitting for community solar differs from those 
for solar mounted on private properties for private 
purposes in a few ways:
►
Private solar projects are developed at the
scale needed to offset electric demand
on that property, whereas community solar 
projects are developed at a scale to offset electric demand for multiple properties;
►
Private solar is an accessory use to a residence or business whereas community solar may be seen
as a principal use in that it is used to generate revenues for the property owner or lessee of the solar-
mounting surface.
The principles for adopting solar friendly zoning and permitting are generally the same for community solar 
as for private solar – avoid language that may become obsolescent as technology changes and avoid 
creating unnecessary standards or permitting steps. 
Because community solar takes place at a larger scale than private solar (typically), and because there is 
an incentive by the developer to maximize that scale to serve more customers, it may be appropriate for 
the City to establish separate and more stringent regulations for community solar projects than for private 
“Municipally Supported Community Solar” 
Action
Update municipal zoning ordinances to specifically 
allow large-scale solar projects, and designate future 
community solar sites as redevelopment zones. Consider 
offering direct assistance with permitting, expediting the 
permitting process, and/or reducing permitting fees for 
community solar.


2 • ACCELERATE DEPLOYMENT OF RENEWABLE ENERGY
City of Union City Community Energy Plan 
March 2024
29
solar installations; primarily setback limits to residential properties, screening, and security.
Going beyond simply zoning to allow large-scale solar installations, the City can maximize the benefits of 
community solar on private properties by permitting community solar installations as a principal use in a 
designated redevelopment or rehabilitation area, as the development experiences a lessened tax burden 
through a Payment in Lieu of Taxes (PILOT) or a 5-year tax abatement, which can then be passed through 
to customers.
OBSTACLES AND CHALLENGES
The ordinance permitting community solar installations may need to reconcile any public concerns or 
perceptions of large-scale solar installation, such as through appropriate setbacks or screening requirements.
NEXT STEPS
1.
The City will authorize its planning consultant to amend the City’s zoning ordinance to permit large-
scale solar arrays as a principal permitted or conditional use on private properties.
2.
The permitting ordinance will be duly reviewed, adopted, and enforced by the relevant governing
bodies, boards, staff, and professionals.
Due to the densely developed nature of the City, any private community solar projects outside of any 
existing vacant land or proposed redevelopment areas would be limited to commercial or industrial 
rooftops and/or large, open parking lots and parking structures. The City should conduct outreach to the 
owners of the properties identified above to secure partners them as partners in the creation of community 
solar installations in the City. 
2.5 TRAIN NON-EMERGENCY STAFF ON SOLAR
The City’s personnel responsible for inspecting and 
permitting solar installations may not be familiar with 
solar energy systems. The City will require training for 
these staff on how to address this technology, in order 
to ensure the safety of City residents and workers. 
Such training programs are offered by a number of 
institutions for use by municipal staff in various roles. 
Sustainable Jersey identifies three providers for training courses for municipalities to consider:
►
Kean University’s Fire Safety Training Program;
►
US Department of Energy associated SolSmart, which provides webinars and virtual training resources;
►
IREC’s Clean Energy Resources and Training, which provides webinars and virtual training resources.
OBSTACLES AND CHALLENGES
Department heads will need to identify the training program more appropriate to their needs.
NEXT STEPS
►
Department heads will require their staff to complete relevant training courses once every one to
three years.
►
The Green Team or City Administrator will work with those department heads to identify the  most
appropriate training program for their needs and capabilities.
To ensure municipal staff can efficiently and effectively 
inspect, review, permit, etc. solar installations in the 
community, require training on solar infrastructure for all 
relevant staff.
“Make Your Town Solar Friendly” Action


2 • ACCELERATE DEPLOYMENT OF RENEWABLE ENERGY
City of Union City Community Energy Plan 
March 2024
30
2.6 INSTALL ON-SITE MUNICIPAL RENEWABLE GENERATION / 2.13 HOST A COMMUNITY SOLAR PROJECT ON 
MUNICIPAL PROPERTY
MUNICIPAL PROPERTIES
The City and its various departments and sub-
governmental organizations, including its Housing 
Authority and Parking Authority, own a number 
of buildings across the City. These include public 
housing 
facilities, 
public 
parking 
decks/lots, 
community facilities, administrative office facilities, 
and more. Some of these buildings may be suitable 
for front- or- back-of the meter solar installations 
- that is, it may be more economical on some
buildings to lease roof space to a solar developer
that sells electricity back to the system (such as a
community solar operator) and in others it may be
more economical for the system to offset energy
use on-site.
MODES OF OWNERSHIP
The following is taken from Sustainable Jersey’s “Municipal On Site Solar System” action guide:
►
Municipally Owned Solar PV Systems: When
a municipality purchases solar photovoltaic 
equipment outright, the project is no different 
than any other larger capital improvement 
project. This approach usually offers a better 
return on investment than financing the project 
with a lease or other arrangement. However, 
outright solar PV purchases present multiple 
challenges: acquiring immediate capital to 
cover upfront costs; managing procurement, 
permitting, and installation; and maintaining 
the system over time. The municipality is also 
tasked with capturing all available revenue 
from the project, which includes displaced 
utility purchase value and revenue from the 
sale of the Renewable Energy Certificates 
(RECs). See ”Note 3. Renewable Energy Credits (RECs)” on page 30.
►
Financed Solar PV Systems: Commercial financing products are a popular approach to implementing
municipal on-site solar projects.
►
Leased Systems: Under a leasing arrangement, the municipality pays a monthly leasing fee over a
specific term to use the electricity generated by the panels, which are owned by a third party. With
a PPA, the municipality contracts to purchase all the electricity that the (third party-owned) system
produces at a known price for a fixed term. In both arrangements, there is typically an end-of-term
buyout option and a robust maintenance agreement over the term.
Energy consultants can help scope out the financing opportunities for a project. Some energy consultants 
structure their fees to be included in the project financing, allowing the municipality to avoid the fees as 
upfront cost.”
It should be noted that the language above was written prior to the passing of the Inflation Reduction 
“Municipal On-Site Solar System” Action
“Municipally Supported Community Solar” 
Action
Host a solar, wind, or geothermal project on municipal 
property to generate renewable energy for municipal 
facilities. Such projects can be leased from a developer or 
purchased and owned outright.
Host a community solar project on municipal property, 
such as a DPW garage, parking lot/garage, or landfill. Most 
municipalities lease the site to the developer or enter a 
power purchase agreement (PPA) with the developer to 
buy the electricity at a reduced rate.
Note 3.	 Renewable Energy Credits (RECs)
Vouchers of monetary value representing a megawatt-
hour (MWh) of renewable electricity generation. In New 
Jersey, RECs acquired from solar installations are known 
as Solar Renewable Energy Certificates or “SRECs.” As 
directed by the Clean Energy Act of 2018, New Jersey’s 
original SREC Program was closed in 2020 and replaced 
with the Successor Solar Incentive (SuSI) Program that 
launched in mid-2021, which awards “SREC-IIs” for 
solar energy generation. Projects under 5 MW receive 
SREC-IIs via the Administratively Determined Incentive 
(ADI) Program. More information on SRECs, including 
the latest details on the SuSI Program, can be found at 
NJCleanEnergy.com/RE. 


2 • ACCELERATE DEPLOYMENT OF RENEWABLE ENERGY
City of Union City Community Energy Plan 
March 2024
31
Act by the federal government in 
2022, which allowed municipalities 
to directly receive the same benefits 
as the federal tax credit to private 
citizens and businesses through the 
“direct pay” model. This model makes 
ownership of a municipal renewable 
energy 
project 
a 
competitive 
alternative to leasing or PPAs.
COMMUNITY SOLAR VERSUS ON-SITE 
GENERATION
With on-site generation of energy 
from a solar project on a City property, the City can directly 
utilize the energy generated from the installation, allowing it 
municipal operations to continue during power outages, while 
also generating revenues from the sale of RECs. 
With a community solar installation on municipal property, 
however, the community solar provider owns and maintains the 
solar equipment, and electricity is sold directly to the grid. The 
benefits to the City through this model include lease payments 
from the community solar provider to the City, discounts to the 
City if it signs up as the anchor subscriber, and limited up-front 
costs to the City. 
Based on discussions with a community solar provider, the 
minimum size for a successful community solar project is 30,000 
to 50,000 square feet. According to NJDEP building coverage 
data, the only publicly owned buildings with a roof area greater 
than one-acre are school buildings.
Sustainable Jersey provides guidelines for the process of 
launching a Community Solar program and the time frame 
thereof:
1.
Planning: The process of forming a committee, hosting public
meetings and stakeholder meetings, and determining the
priorities and goals of the project – whether that may be
generating revenue from municipal properties, providing low 
cost energy to LMI households, or something else – may take several weeks.
2.
Public Education and User Interface: Educating the public about the program and creating the means
for residents and businesses to sign up to participate could take 4 to 6 months.
3.
Selecting a Vendor/Partner: The bidding, selection, and/or on-boarding process could take 2 to 3
months or longer.
LOW- AND MODERATE-INCOME INCLUSION
The NJ BPU requires all community solar projects to reserve 51% or more of their capacity for low- and 
moderate-income subscribers and to guarantee an energy bill credit discount of at least 15%, meaning 
that the energy purchased by a subscriber from a community solar project will cost 15% less than what it 
might have cost through the utility provider.
Figure 9.  How Community Solar Works; 
Credit: Neighborhoodpower.com. 
Community solar extends the benefit 
of solar energy to people who may 
not be in a position to install their 
own systems, like renters and houses 
that receive a lot of shade.
Figure 8.  Screenshot of Google Project Sunroof data for City Hall. At an average of 
14.2 Watts/square foot, Googles estimated 10,430 square feet of usable 
roof area could support a 148.2 kW system. At 1,435 hours of sunlight 
a year that system could generate 212,667 kWh/year or an average of 
17,722.25 per month.


2 • ACCELERATE DEPLOYMENT OF RENEWABLE ENERGY
City of Union City Community Energy Plan 
March 2024
32
NEXT STEPS
1.
The City will contract a qualified professional or firm to conduct a Solar Feasibility Study(ies) to determine
whether one or more municipal buildings are suitable for rooftop solar, to assess economic benefits  of
solar against the costs to the City, to advise which buildings are suitable for Community Solar, and to
identify incentives available to reduce the costs to the City related to installation for behind-the-meter
use.
2.
Based upon the study outcomes, the City will begin the process of either installing solar on select
buildings for behind-the-meter use or partnering with Community Solar providers to host projects on
municipal properties.
a.
For behind the meter installations, the City will conduct a bidding process to select installers to erect
and maintain the system and manage sale of renewable energy certificates.
b.
For Community Solar projects, the City will conduct a bidding process to select a community solar
provider.
3.
Where appropriate, the City will authorize its planning professional to conduct redevelopment
investigations of municipally owned properties to be considered for community solar in order to
determine if those properties are eligible for designation as an area in need of redevelopment and to
adopt a redevelopment plan permitting community solar and granting incentives for community solar
development, in accordance with N.J.S.A. 40A:12A-1 et seq.


3 • MAXIMIZE ENERGY EFFICIENCY AND CONSERVATION
City of Union City Community Energy Plan 
March 2024
33
STRATEGY 3: MAXIMIZE ENERGY EFFICIENCY AND CONSERVATION AND REDUCE 
PEAK DEMAND
The goal of Strategy 3 is to take actions within the City’s power to reduce energy usage by the municipality, 
residents and businesses. As technology advances, appliances, equipment, and construction materials 
become more energy efficient. The City can take direct action to upgrade its own facilities, and can 
launch public outreach initiatives to make the public aware of services and resources available from the 
state and from PSE&G to offset the costs of improving building energy efficiency.
►
3.1 Upgrade Energy Efficiency for Municipal Facilities - Upgrade municipal facilities to be more energy
efficient. New Jersey’s Clean Energy Program and electric and natural gas utilities offers incentive
programs that guide municipalities through the upgrade process, starting with free audits to establish
the most effective measures to reduce energy use. Following implementation, showcase upgrades in
energy efficiency outreach to local commercial entities.
►
3.3 Commercial Energy Efficiency Outreach Campaign - Implement an outreach effort to help local
businesses take advantage of energy efficiency incentive programs offered by New Jersey’s electric
and natural gas utilities, including the Direct Install (DI) program.
3.1 UPGRADE ENERGY EFFICIENCY FOR MUNICIPAL FACILITIES
An important piece of the City’s energy strategy is 
reducing the its energy consumption by replacing 
inefficient equipment, fixtures, and appliances and 
identify areas where energy is being wasted due 
to outdated building design or improper building 
maintenance. The City desires to achieve a 20% 
reduction in energy consumption from its most 
energy-demanding facility or 20% across all of its 
facilities. 
INCENTIVES AND FUNDING PROGRAMS
LGEA
The New Jersey BPU’s Clean Energy Program’s 
(NJCEP) Local Government Energy Audit (LGEA) 
program covers 100% of the cost of an audit of a 
municipality’s building energy use, including “offices, 
courtrooms, town halls, police and fire stations, 
sanitation buildings, transportation structures, schools 
and community centers”. 
Buildings must have had an average peak demand 
of 200kW or greater in the past 12 months. 
According to the website for the LGEA program, “The 
audit includes an inventory of all energy-consuming 
equipment, comprehensive utility bill analysis, facility 
benchmarking, and a screening for solar, combined 
heat & power, and electric vehicle charging stations. 
Add-on / targeted audit options as outlined in the 
program guide may also be available.  When your 
audit is complete, you’ll have a list of recommended, 
cost-justified measures and facility upgrades that will 
Upgrade municipal facilities to be more energy efficient. 
New Jersey’s Clean Energy Program and electric and 
natural gas utilities offers incentive programs that guide 
municipalities through the upgrade process, starting with 
free audits to establish the most effective measures to 
reduce energy use. Following implementation, showcase 
upgrades in energy efficiency outreach to local commercial 
entities.
Note 4.	 Energy Upgrade Types
• Direct Install - Provides turnkey energy efficiency
solutions for small commercial customers, including
local government facilities for municipalities and
schools. Includes a free on-site energy assessment
(similar to an ASHRAE Level l audit), energy efficiency
upgrade recommendations, and an incentive of
up to 80% of installed cost for completing those
recommendations.
• Prescriptive Equipment - Offers simple rebates on
a wide range of pre-qualified “standard” energy
efficiency measures.
• Custom Equipment - Offers incentives for energy
efficiency measures that do not fall under the
Prescriptive Program.
• Engineered Solutions - Provides tailored energy
efficiency assistance to larger public entities. Includes
an investment grade (ASHRAE Level 3) energy
audit, engineering design, bid-ready document
development, installation vendor selection assistance,
construction administration, commissioning, and


3 • MAXIMIZE ENERGY EFFICIENCY AND CONSERVATION
City of Union City Community Energy Plan 
March 2024
34
help reduce operating expenses and, in many cases, 
improve the health and productivity of the buildings’ 
occupants.”
LGEA caps the audit cost reimbursement at the lesser 
of $100,000 or 100% of the audit.
LGEA 
offers 
technical 
assistance 
to 
program 
participants to obtain older utility bills and to interpret 
utility bills as part of the audit process. LGEA audits 
are available for buildings owned or leased by the 
City.
An example of an audit report published on the LGEA web page is the Asbury Park municipal complex 
audit report, prepared by TRC, which provided the City of Asbury Park with two alternative scenarios for 
upgrading their facilities to reduce energy costs based on the time period for savings to be realized.  It also 
identifies potential project financing incentives for suggested energy upgrades.
ESIP
The Energy Savings Improvement Program (ESIP) is an alternative method for local government units to 
finance energy conservation improvements, adopted by the State legislature in 2009 and amended in 
2012. The program does not “fund” energy improvements; rather, it makes it helps municipalities realize cost 
savings from efficiency improvements, at no cost to the taxpayer, by paying or the cost of the improvement 
over a 15 to 20 year period through a portion of the energy-cost savings.
The first step in the ESIP process is an energy audit, such as the ones reimbursed through LGEA. Subsequently, 
the municipality must prepare an Energy Savings Plan (ESP) that identifies existing systems serving the 
targeted buildings, such as boilers, HVAC, and appliances, and lays out direct energy saving strategies 
related to those systems. The ESP must show that the energy savings over the 15 to 20 year period will offset 
or exceed the total project costs. This process ensures that the municipality can finance the project(s) 
through just the energy savings. 
DIRECT INSTALL
If buildings are not eligible for LGEA or ESIP, the City can apply to the Direct Install program provided 
by PSE&G for buildings with an average peak demand of less than 200kW over a 12 month period. The 
program includes a free on-site energy audit and covers up to 80% of the costs of installing more energy 
efficient systems. The municipality’s burden of the cost (as little as 20%) is paid off over 5 years as a fee on 
the municipality’s energy bill. Meanwhile, the program promises to cut energy costs by as much as 30%. See 
“Note 4. Energy Upgrade Types” on page 33.
MONITORING ENERGY USE
An essential part of the energy efficiency process is benchmarking - collecting and analyzing data on 
the energy usage in each building and comparing to buildings in similar categories in order to identify 
facilities that might be more wasteful than others. In the Fall of 2023, Sustainable Jersey and PSE&G offered 
a Technical Assistance program to assist municipalities in tracking building energy efficiency and pursue 
incentives for facility upgrades. The program also offers to set municipalities up with building portfolio 
management software to monitor energy use. The program also offers $2,500 to assist with the municipal 
responsibilities related to this assistance, such as costs for staff or professionals to collect the requisite data 
for building energy monitoring. Sustainable Jersey anticipates future rounds for this program.
BARRIERS AND OBSTACLES
The City owns a number of facilities and consequently bills are agglomerated into a Master Account 
that reflects energy use and costs on a system wide basis, making it difficult to assess energy usage on a 
maintenance and verification services to support the 
implementation of cost-effective and comprehensive 
efficiency projects.
• Energy Management - Helps identify and implement
no and low-cost energy efficiency measures via
equipment tune-ups and commissioning.
“Energy Efficiency for Municipal Facilities” 
Action


3 • MAXIMIZE ENERGY EFFICIENCY AND CONSERVATION
City of Union City Community Energy Plan 
March 2024
35
building-by-building basis. The City would need to work with PSE&G to establish a system by which the City 
can review individual buildings’ energy use patterns and request building-specific data while also having a 
streamlined system for paying the energy bills for such a widespread system.
NEXT STEPS
1.
The City will seek technical and grant assistance from Sustainable Jersey to assemble energy usage
data necessary to monitor energy usage;
2.
Regardless of the City’s ability to obtain the technical assistance, the City’s administration and finance
departments will instruct staff to coordinate with PSE&G or to make it feasible to track energy use on
a building-by-building basis, and direct the City’s Facilities Manager, CFO, or other party designated
by the Administrator to use the data collected to establish a building portfolio management account;
3.
CFO or other designee will utilize the portfolio management software on a monthly basis to identify
buildings that are under-performing with respect to energy efficiency;
4.
The CFO or other designee will review the requirements of the LGEA, ESIP, and Direct Install programs to
determine eligibility for worst performing buildings;
5.
The City will retain an energy auditor through an RFP process or, in the case of Direct Install, use PSE&G’s
selected auditor;
6.
City will implement most applicable and cost effective recommendations of the energy auditor.
3.3 COMMERCIAL ENERGY EFFICIENCY OUTREACH CAMPAIGN
Commercial users consumed just over 50% of all 
electricity and natural gas purchased in Union City in 
2020. Encouraging businesses to make improvements 
that reduce their energy usage is, therefore, one 
of the most effective actions the City can take to 
reduce local energy consumption. The City will take 
the following actions with a goal of encouraging 5% 
of commercial property owners to make energy efficient upgrades to their properties:
The City will use available outreach tools to encourage its businesses to participate in PSE&G’s Direct 
Install program. As described in relation to municipal properties, above, the Direct Install program assists 
businesses to assess opportunities to reduce energy use by as much as 30%, and covers up to 80% of the 
costs of energy improvements up front, while allowing the business to pay off its own share of the cost of 
improvements interest free over 5 years through a fee added to their energy bill. 
In the Fall of 2023, Sustainable Jersey and PSE&G ran a grant and technical assistance program through which 
Sustainable Jersey will take the lead on commercial outreach actions and provide funding (competitive) to 
compensate the City for resources expended to implement the commercial outreach campaign. 
NEXT STEPS
The City will take the following steps as part of this initiative:
1.
The City will apply for technical assistance and outreach campaign grant funding from Sustainable
Jersey to facilitate and expedite the creation of a commercial outreach campaign.
2.
The Green Team will assist Sustainable Jersey as appropriate or take the lead to generate outreach
materials advertising energy efficiency incentive programs to business owners and commercial property
owners in various languages;
3.
Materials to be distributed in regular mailers, posted on City website and social pages, announced
during public hearings.
Implement an outreach effort to help local businesses 
take advantage of energy efficiency incentive programs 
offered by New Jersey’s electric and natural gas utilities, 
including the Direct Install (DI) program.
“Commercial Energy Efficiency Outreach” 
Action


3 • MAXIMIZE ENERGY EFFICIENCY AND CONSERVATION
City of Union City Community Energy Plan 
March 2024
36
4.
The Green Team will coordinate with the Chamber of Commerce and other local groups to identify
opportunities to promote energy efficiency to local businesses and commercial property owners.
5.
The City will utilize an incentive to encourage business owners who are motivated by the City’s outreach
campaign to notify the City that they’ve taken advantage of energy efficiency incentives, to help the
City track the success of its campaign and analyze strategic effectiveness.


4 • REDUCE ENERGY CONSUMPTION AND EMISSIONS FROM THE BUILDING SECTOR
City of Union City Community Energy Plan 
March 2024
37
STRATEGY 4: REDUCE ENERGY CONSUMPTION AND EMISSIONS FROM THE 
BUILDING SECTOR
New construction projects are opportunities for municipalities to set a trend moving forward for 
environmentally responsible, high-quality buildings that meet green building standards. Green buildings 
provide a number of benefits to the community, to the developer, to the operator, and to the occupants 
of the buildings. They demand less of the community’s resources, place lesser burdens on community 
infrastructure, have lower long term operating and maintenance costs, and provide healthier and more 
productive living and working spaces than buildings that do not meet green building standards. 
Union City will take the following actions to encouraging green building practices in the City:
►
4.2 Encourage Benchmarking and Commissioning for Existing Buildings - Educate local building
managers about benchmarking and commissioning. Inform building managers of utility building
management programs that include benchmarking and/or commissioning.
►
4.3 Require Developers to Complete Green Development Checklist - Pass a Green Building Policy or
Resolution that requires developers to submit a completed Green Development Checklist with Site
Plan Applications. Checklist should refer developers to NJCEP’s Commercial and Residential New
Construction Energy Efficiency programs.
►
4.4 Conduct Outreach Targeting New Construction in the Community - Reach out to developers to
encourage participation in NJCEP’s Commercial and Residential New Construction Energy Efficiency
programs.
4.2 ENCOURAGE BENCHMARKING AND COMMISSIONING FOR EXISTING BUILDINGS
Benchmarking and commissioning are practices 
for ensuring that building systems are performing as 
intended and to compare building performance 
(e.g., energy usage, water usage, indoor air quality) 
to that of its peers. Systems that are under performing 
waste money and fail to create optimal interior 
environments for living and working. Additionally, 
being able to compare energy use to comparable buildings helps raise awareness for property managers 
about areas of waste. 
NEXT STEPS
1.
The Green Team will craft and/or assemble educational materials about commissioning and
benchmarking for placement on the City’s website, inclusion with building department forms and mailers 
that typically go to property managers and building owners. Materials will include brochures for PSE&G’s
Retro-Commissioning program, Strategic Energy Management program, NJCEP’s Benchmarking
service, and other programs advertised through the Commercial Outreach initiative.
2.
The Green Team will also provide a link or QR code on distributed materials to the NJ BPU’s list of “Trade
Allies” providing Commissioning Services, to assist property owners in identifying potential vendors.
3.
The Green Team and the City will also seek out grants and technical assistance from Sustainable Jersey,
PSE&G, and other providers to increase the reach of its outreach campaigns.
4.3 REQUIRE DEVELOPERS TO COMPLETE GREEN 
DEVELOPMENT CHECKLIST
A development checklist does not have the same 
regulatory impact as an ordinance; however, by 
requiring a developer to disclose the environmental 
Pass a Green Building Policy or Resolution that requires 
developers to submit a completed Green Development 
Checklist with Site Plan Applications. Checklist should 
refer developers to NJCEP’s Commercial and Residential 
New Construction Energy Efficiency programs.
Educate local building managers about benchmarking 
and commissioning. Inform building managers of 
utility building management programs that include 
benchmarking and/or commissioning.
“Commercial Energy Efficiency Outreach” 
Action


4 • REDUCE ENERGY CONSUMPTION AND EMISSIONS FROM THE BUILDING SECTOR
City of Union City Community Energy Plan 
March 2024
38
impact of a development, the City can motivate the 
developer to take steps to improve the project’s green 
profile.
Sustainable Jersey publishes a sample green building 
checklist which the City will use as the basis for drafting 
its own checklist. Some of the items in the checklist 
include, but are not limited to:
►
Whether the project is on a brownfield;
►
The proximity of the project to public transit and/
or complete streets;
►
Whether the project preserves or adaptively
reuses existing or historical buildings;
►
Impact of the project on stormwater;
►
Provision 
of 
amenities 
like 
open 
space,
conservation or restoration of environmental
features, inclusionary set-asides, facilitating local
agriculture (farmers market space), compact
and efficient vehicle parking spaces, commuter
shuttles, bike parking facilities, and the like.
►
Use of low-impact design features like bio-swales,
green walls, pervious pavement, and the like;
►
Use of recycled building materials; and
►
Use of energy efficient equipment/appliances,
on-site generation, water efficiency or reuse, use
of natural air and light.
The sample checklist, along with a sample green 
building 
resolution, 
are 
contained 
within 
the 
appendices to this Plan.
NEXT STEPS
1.
The City will authorize its Planner to review with the
Building Department and engineering consultant
the sample checklist and sample resolution
contained within this plan as well as other example
checklists and resolutions and draft checklists and
resolutions that meet the City’s needs;
2.
The City will adopt an ordinance requiring
completion of the checklist with any development
application for major new development.
a.
The City will make reasonable exceptions with
respect to the size and type of development
to ensure it does not impact homeowners
repairing, renovating, or making modest 
expansions to their homes.
b.
The City will build upon the sample checklist to incorporate initiatives required for certification under
Note 5.	 Benefits of a Green Building Policy 
(Sustainable Jersey)
• Owners of older homes are particularly vulnerable to
rising energy costs. Homes built prior to the 1970’s
oil embargo are often much less energy-efficient
than newer units.
• More than half of the 80 million single-family homes
in the United States were constructed before
modern energy codes existed.
• Many homes are poorly insulated, have high
levels of air infiltration, inefficient heating and air
conditioning systems, and inefficient water heaters
and appliances.
• About 40% of households report at least some winter
drafts, and 60% complain of a room that is too warm
in the summer.
• Energy efficiency assessments can identify sources of
poor air quality and other safety and comfort issues
in the home that can be addressed in recommended
energy efficiency upgrades.
“Create a Green Development 
Checklist” Action
“Green Building Policy/Resolution” 
Action
Figure 10.  NJ CEP Residential New Construction Incentives


4 • REDUCE ENERGY CONSUMPTION AND EMISSIONS FROM THE BUILDING SECTOR
City of Union City Community Energy Plan 
March 2024
39
LEED or other green building rating systems, in order to encourage developers to pursue LEED level 
improvements.
4.4 CONDUCT OUTREACH TARGETING NEW CONSTRUCTION IN THE COMMUNITY
The NJ Clean Energy Program offers incentives for 
new construction of energy efficient residential and 
commercial buildings. 
For residential buildings, the incentives are listed in 
the chart to the right based on the efficiency grade, 
and are further detailed in “Note 6. Residential 
Energy Efficiency Standards, per NJ CEP RNC 
Program” on page 39 and in “Figure 10. NJ CEP 
Residential New Construction Incentives”. 
NJ CEP’s new construction program for commercial 
and industrial projects provides incentives for both 
new construction projects and gut rehabilitation 
or 
substantial 
renovation 
projects. 
The 
new 
construction program includes three incentive 
categories: Whole Building/Comprehensive, Multi-
Measure, and Single-Measure, which provide 
incentives for varying levels of energy saving 
construction practices. See “Figure 11. NJ CEP 
Commercial  New Construction Incentives” on 
page 39.
NEXT STEPS
The City will promote these programs through 
media and in locations where developers are most 
likely to see them, including:
►
As an attachment to the Green Building
Checklist, development application forms,
and other mandatory forms or documents
to be completed by developers of new
construction projects;
►
On the Land Use Board and/or Building Department’s
websites;
►
Encouraged in new or amended Redevelopment Plans.
The City will request marketing materials from the NJBPU to 
assist in this initiative.
Note 6.	 Residential Energy Efficiency Standards, per NJ 
CEP RNC Program 
• New Jersey ENERGY STAR Homes are designed to
achieve 15% more energy efficiency than the building
code (10% for new single-family homes). These homes
meet ENERGY STAR version 3.0 or 3.1 standards, which
means they are ENERGY STAR certified.
• New Jersey Zero Energy Ready Home requires a
high energy efficiency achievement in new home
construction. The program requirements include
meeting or exceeding all DOE Zero Energy Ready
Homes technical standards, building in compliance with
the ENERGY STAR Homes Program checklists, meeting
2015 IECC insulation levels, and certifying under EPA’s
Indoor airPLUS Program.
• Zero Energy Home +RE (ZERH+Renewables)This
pathway has the same requirements as the ZERH
pathway with the additional requirement that 100% the
building’s modeled energy usage is met by renewable
energy systems installed prior to completion of the
home.
• Multi-Family High Rise (MFHR) Program requires 15%
increased energy savings above code. This pathway will
satisfy the requirements for ENERGY STAR Multifamily
New Construction (MFNC) Version 1.1 or 1.2 certification.
Figure 11.  NJ CEP Commercial  New Construction 
Incentives
Reach out to developers to encourage participation in 
NJCEP’s Commercial and Residential New Construction 
Energy Efficiency programs.


6 • SUPPORT COMMUNITY ENERGY PLANNING AND ACTION
City of Union City Community Energy Plan 
March 2024
40
STRATEGY 6: SUPPORT COMMUNITY ENERGY PLANNING AND ACTION WITH 
AN EMPHASIS ON ENCOURAGING AND SUPPORTING PARTICIPATION BY LOW- 
AND 
MODERATE-INCOME 
AND 
ENVIRONMENTAL 
JUSTICE 
COMMUNITIES
The objective of Strategy 6 is to ensure that the City’s most vulnerable cohorts, including LMI households, 
households with language barriers, and others, are engaged and included in the City’s energy initiatives. 
Many of the actions that individuals can take to reduce energy costs or adopt clean energy require 
significant up front costs. As an overburdened municipality, the success of Union City’s Community Energy 
Plan depends on the ability of LMI households to benefit from the shift to clean energy and efforts to reduce 
energy consumption. It is also essential that LMI households and households with language barriers are 
engaged and made aware of opportunities for them to reduce their energy costs and energy impact. 
The initiatives to be pursued by the City include:
►
6.2 Conduct Energy Efficiency Outreach to Low- and Moderate-Income Residents - Promote state and
utility energy efficiency programs for low- and moderate-income (LMI) residents using community-
serving institutions as messengers, using non-English promotional materials where appropriate, and
emphasizing co-benefits of energy efficiency upgrades (health, safety, and comfort).
►
6.5 Conduct Energy Efficiency Outreach to Community-Serving Institutions - Reach out to limited-
capacity entities that serve low- and moderate income communities to encourage participation
in state and utility energy efficiency programs. Outreach strategies include messaging benefits of
reduced capital, maintenance, and energy costs and segmenting outreach to different types of
organization with different needs.
6.2 CONDUCT ENERGY EFFICIENCY OUTREACH TO LOW- AND MODERATE-INCOME RESIDENTS
This Community Energy Plan has identified several 
programs designed to make energy efficiency and 
clean energy affordable to homeowners and owners 
of multi-unit dwellings. Cohorts that are more difficult 
to engage include renter households, homeowners 
with language barriers, and homeowners who 
are elderly, and homeowners for whom the most 
impactful projects are out of reach even with 
incentives and rebates to offset project costs.
INCENTIVE AND COST-ASSISTANCE PROGRAMS
►
PSE&G’s 
“Marketplace” 
website 
offers 
substantial discounts on energy and water-
saving items that renters and homeowners with
limited budgets can purchase and install in 
their homes, including low-flow shower heads, 
energy saving power-strips, thermostats, and 
LED light bulbs. In some cases, the purchaser 
can receive these items for free. 
Helping renters access the Marketplace is an
effective way help them save energy and
money; and  Marketplace shoppers are also 
likely to follow the redirect links for PSE&G’s energy efficiency incentive programs for larger purchases 
like HVAC, boilers, and furnaces. PSE&G will occasionally send sample packages to address where 
new accounts are established to make customers aware of cost saving opportunities.
Note 7.	
Income Based Energy Assistance Programs
• Lifeline Program - Operated by the NJ Department
of Human Services to assist income eligible disabled 
adults or seniors to afford utility costs;
• LIHEAP (Low Income Home Energy Assistance
Program) / Universal Service Fund - Helps to offset 
home energy and heating costs for low-income 
households.
• PAGE (Payment Assistance for Gas and Electric) -
Helps to offset energy and gas costs for income eligible 
households. 
Promote state and utility energy efficiency programs 
for low- and moderate-income (LMI) residents using 
community-serving institutions as messengers, using non-
English promotional materials where appropriate, and 
emphasizing co-benefits of energy efficiency upgrades 
(health, safety, and comfort).
“Energy Assistance Outreach” Action


6 • SUPPORT COMMUNITY ENERGY PLANNING AND ACTION
City of Union City Community Energy Plan 
March 2024
41
►
PSE&G offers a Home Weatherization Program for Income-Qualified Customers, which provides free
energy efficiency assessments to income qualified customers and covers the installation cost of up to
$6,000 in energy efficiency upgrades and $1,500 in health and safety improvements. The qualifying
income range for the program is between 250% and 400% of the federal poverty level.
►
Comfort Partners is a joint program between PSE&G and NJCEP that provides energy efficiency and
weatherization assistance to households at or below 250% of the federal poverty level.
►
Energy Check by PSE&G is a program that extends energy saving services to owners of buildings with
four or more apartments.
PSE&G and other State and utility entities also offer a number of programs to assist income-eligible persons 
as well as elderly or disabled persons to afford their home energy and heating costs. See “Note 7. Income 
Based Energy Assistance Programs” on page 40.
Union City may be able to obtain assistance through the PSE&G/Sustainable Jersey partnership grant 
and technical assistance programs to assist the City’s Green Team to implement an outreach campaign 
targeted towards LMI households.
NEXT STEPS
►
The Green Team will lead the City’s application for technical assistance and grant assistance from
Sustainable Jersey to implement an outreach campaign targeting LMI households.
►
The Green Team will host a “Green Fair”, either as a one time event or a periodically repeating event,
to educate the public about available programs, opportunities, or energy saving practices. The
City will seek sponsorship from PSE&G, NJ BPU, Sustainable Jersey, home and small-business energy
efficiency contractors,  hybrid and EV car dealerships, solar installers, and home electronics vendors
others who can use the Fair to reach-out to potential customers in the City. The City can also post
exhibits at the Fair about its own energy accomplishments, goals, and objectives, and to seek public
input about potential initiatives.
►
As the City’s outreach body on all things “green”, the Green Team will be responsible for recruiting
partners, organizing and advertising the event, and generating marketing materials.
►
Advertising materials and informational materials will be prepared in at least two languages to
reach as many LMI residents as possible;
►
Materials will be distributed to LMI-serving institutions to further expand the reach of advertising;
►
The event will be family friendly to ensure that families with children can easily participate.
►
The City will work with PSE&G to include information about the PSE&G Marketplace and PSE&G’s
rebate and incentive programs in regular City mailers and electronic communications.
►
The Green Team will distribute informational materials to LMI-serving institutions to continue to educate
the public year-round
6.5 CONDUCT ENERGY EFFICIENCY OUTREACH TO COMMUNITY-SERVING INSTITUTIONS
Improving the energy efficiency of community-
serving organizations can improve the financial 
capacity of those organizations to improve services 
to their constituents, especially when the cost of 
energy efficiency upgrades is offset by incentive 
programs. 
IMPLEMENTATION STRATEGY
Reach out to limited-capacity entities that serve low- and 
moderate income communities to encourage participation 
in state and utility energy efficiency programs. Outreach 
strategies include messaging benefits of reduced capital, 
maintenance, and energy costs and segmenting outreach 
to different types of organization with different needs.


6 • SUPPORT COMMUNITY ENERGY PLANNING AND ACTION
City of Union City Community Energy Plan 
March 2024
42
1.
The Green Team will identify the not-for-profit, governmental, and quasi-governmental entities in the
City that primarily serve low- and moderate-income residents and businesses in their neighborhoods.
These may include the City’s Housing Authority, the Board of Education, Senior Affairs, North Hudson
Community Action Corp, small business owners that are staples to the community, churches providing
homeless services, and others;
2.
The Green Team will host an event for those entities where it will make them aware of the various
programs available to commercial, governmental, and non-profit entities to improve their energy
efficiency and lower their energy costs;
3.
The Green Team will continue to monitor whether the targeted organizations enroll in applicable
programs.


City of Union City Community Energy Plan 
March 2024
43
8 • CONCLUSION
CONCLUSION
The Community Energy Plan examines 18 actions that the City will strive to achieve over a three-to-five year 
period in order to advance the State’s Energy Master Plan, reduce energy costs, expand access to clean 
energy to low-and moderate-income households, and create green jobs locally. 
Some of these actions require little to no cost to the City, such as conducting public outreach about 
incentive programs, establishing internal policies, systems, and guidelines to improve fleet efficiency, and 
adopting of ordinances, checklists, and permitting documents to expand adoption of clean energy.
Other actions in this Plan require larger investments by the City, such as installing renewable energy 
generation, weatherizing buildings, establishing public EV charging infrastructure, and upgrading and 
replacing inefficient fleet vehicles with electric vehicles or hybrid vehicles. Incentives and innovative 
financing strategies can limit the costs associated with those actions and avoid passing the costs of the 
actions on to taxpayers. 
It should be noted that the time of this writing is a particularly advantageous moment for the City to  make 
investments in clean energy, energy savings, and environmentally friendly infrastructure, as the political 
administrations at the State and Federal level have identified these as priorities. Many of the grants, rebates, 
and supportive programs identified in this Plan may not be available under future administrations, and some 
are scheduled to expire or shrink, or may not be renewed in the coming years. Therefore it is recommended 
that the City begin implementation early.
NEXT STEPS
Following the adopting of the Community Energy Plan, the City will establish a Green Team comprised of 
elected officials, City staff, and community members, to set the City’s agenda and priorities for implementing 
actions listed in this Plan document as well as actions laid out by Sustainable Jersey for certification. City 
officials, staff, and professionals will begin to take the actions in these plans beginning after adoption, 
particularly as grants and incentives for studying or implementing actions become available. 


CITY OF UNION CITY
COMMUNITY ENERGY PLAN
APPENDICES


APPENDIX
1
WORKPLAN TEMPLATE


Community Energy Plan
Workplan Template
A SUSTAINABLE JERSEY GUIDE


Community Energy Plan
Workplan Template
Sustainable Jersey
Sustainability Institute at The College of New Jersey
Forcina Hall, 3rd Floor
2000 Pennington Rd.
Ewing, NJ 08628-0718


This report was made possible through a grant from New Jersey’s Clean Energy ProgramTM.  
New Jersey’s Clean Energy Program is brought to you by the New Jersey Board of Public Utilities.
ABOUT THE NEW JERSEY BOARD OF PUBLIC UTILITIES (NJBPU) 
The NJBPU is a state agency and regulatory authority mandated to ensure safe, adequate and proper utility services at reasonable 
rates for New Jersey customers. Critical services regulated by the NJBPU include natural gas, electricity, water, wastewater, 
telecommunications and cable television. The Board has general oversight and responsibility for monitoring utility service, 
responding to consumer complaints, and investigating utility accidents. 
ABOUT THE NEW JERSEY CLEAN ENERGY PROGRAM (NJCEP) 
NJCEP, established on January 22, 2003, in accordance with the Electric Discount and Energy Competition Act (EDECA), provides 
financial and other incentives to the State’s residential customers, businesses and schools that install high-efficiency or renewable 
energy technologies, thereby reducing energy usage, lowering customers’ energy bills and reducing environmental impacts. The 
program is authorized and overseen by the New Jersey Board of Public Utilities (NJBPU).
ABOUT SUSTAINABLE JERSEY
Sustainable Jersey is a certification program for municipalities in New Jersey. Launched in 2009, Sustainable Jersey is a 
nonprofit, nonpartisan organization that supports community efforts to reduce waste, cut greenhouse gas emissions, and improve 
environmental equity. It provides tools, training and financial incentives to support and reward communities as they pursue 
sustainability programs. Sustainable Jersey is one hundred percent voluntary and each town can choose whether it wants to get 
certified and the actions it wants to do in order to achieve enough points to get certified. 


PART 1: CHECKLIST      i
Introduction: How to use this document  ............................................................................................................................................................. III 
Part I: Checklist  ................................................................................................................................................................................................ 1 
Strategy 1: Reduce Energy Consumption and Emissions from the Transportation Sector  ................................................................................... 2
 
1.1 Adopt Supportive Zoning and Regulations for EV Infrastructure  ........................................................................................................................... 2
 
1.2 Train First Responders on EVs and EVSE  ............................................................................................................................................................ 2 
 
1.3 Train Non-Emergency Staff on EVs and EVSE  ..................................................................................................................................................... 3 
 
1.4 Purchase Alternative Fuel Vehicles  .................................................................................................................................................................... 3 
 
1.5 Improve Municipal Fleet Efficiency  ................................................................................................................................................................... 4 
 
1.6 Install Public EV Charging Infrastructure  ............................................................................................................................................................ 4 
 
1.7 Encourage Non-Municipal Fleets to Improve Efficiency  ...................................................................................................................................... 5 
 
1.8 Encourage Workplace EV Charging Infrastructure  .............................................................................................................................................. 5 
Strategy 2: Accelerate Deployment of Renewable Energy and Distributed Energy Resources  ........................................................................... 6
 
2.1 Adopt Supportive Zoning and Permitting for Private Solar  ................................................................................................................................... 6
 
2.2 Post Solar Permitting Checklist ........................................................................................................................................................................  6 
 
2.3 Adopt Zoning and Permitting for Community Solar  ............................................................................................................................................ 7 
 
2.4 Train First Responders on Solar  ........................................................................................................................................................................ 7 
 
2.5 Train Non-Emergency Staff on Solar  ................................................................................................................................................................. 8 
 
2.6 Install On-site Municipal Renewable Generation  ............................................................................................................................................... 8 
 
2.7 Buy Renewable Electricity for Municipal Facilities  .............................................................................................................................................. 9 
 
2.8 Offer a Solar Employee Benefit Program  ........................................................................................................................................................... 9 
 
2.9 Institute a Community-wide Solar Purchasing Program  ................................................................................................................................... 10
Table of Contents


PART 1: CHECKLIST      ii
 
2.10 Implement Renewable Government Energy Aggregation (R-GEA)  .................................................................................................................. 10
 
2.11 Support Community Solar as Project Ambassador ...........................................................................................................................................  11
 
2.12 Support Community Solar as Outreach Coordinator  ........................................................................................................................................ 11
 
2.13 Host a Community Solar Project on Municipal Property  ...................................................................................................................................12
 Strategy 3: Maximize Energy Efficiency and Conservation and Reduce Peak Demand  ..................................................................................... 13
 
3.1 Upgrade Energy Efficiency in Municipal Facilities  ............................................................................................................................................. 13
 
3.2 Residential Energy Efficiency Outreach Campaign  ........................................................................................................................................... 13 
 
3.3 Commercial Energy Efficiency Outreach Campaign  ......................................................................................................................................... 14
 
3.4 Conduct Energy Efficiency Outreach to Large Energy Users  ............................................................................................................................. 14
Strategy 4: Reduce Energy Consumption and Emissions from the Building Sector  .............................................................................. 15 
 
4.1 Construct New Municipal Buildings as Model Green Buildings  .......................................................................................................................... 15  
 
4.2 Encourage Benchmarking and Commissioning for Existing Buildings  ............................................................................................................... 15
 
4.3 Require Developers to Complete Green Development Checklist  ....................................................................................................................... 16 
 
4.4 Conduct Outreach Targeting New Construction in the Community  ................................................................................................................... 16
Strategy 6: Support Community Energy Planning and Action with an Emphasis on Encouraging and  
Supporting Participation by Low- and Moderate-Income and Environmental Justice Communities  .................................................17 
 
6.1 Make Community Energy Planning Inclusive  .....................................................................................................................................................17  
 
6.2 Conduct Energy Efficiency Outreach to Low- and Moderate-Income Residents  ..................................................................................................17
 
6.3 Support Shared Mobility Programs  ................................................................................................................................................................. 18 
 
6.4 Support Low- and Moderate-Income Community Solar Subscriptions  .............................................................................................................. 18
 
6.5 Conduct Energy Efficiency Outreach to Community-Serving Institutions  .......................................................................................................... 19
Strategy 7: Expand the Clean Energy Innovation Economy  ........................................................................................................................ 20
 
7.1 Adopt Energy Storage Policies  ......................................................................................................................................................................... 20  
 
7.2 Install an Energy Storage System  .................................................................................................................................................................... 20
 
7.3 Develop Local Microgrid  .................................................................................................................................................................................21 
 
7.4 Develop/Participate in a District Energy System ...............................................................................................................................................  21
Part II: Template  ............................................................................................................................................................................................. 22


PART 1: CHECKLIST      iii
Part I provides descriptions of high-impact initiatives to 
consider as part of the municipality’s Community Energy Plan.
Municipalities may include initiatives not listed in Part I, but 
Community Energy Plan Grant recipients must seriously consider 
each initiative in the list. 
For each initiative, Part I offers a brief description, potential 
measures of success, relevant resources for completing the 
initiative, and potential community stakeholders. Most (but 
not all) of the initiatives are linked to Sustainable Jersey energy 
actions; all of the actions required for Sustainable Jersey’s Gold 
Star in Energy are included. 
The initiatives are organized to correspond with the seven 
strategies of the New Jersey Energy Master Plan (EMP). Within 
each EMP Strategy, initiatives appear roughly in order of municipal 
roles, starting with regulation and policy, followed by public 
services, then municipal operations strategies, then community-
facing initiatives.
NOTE: EMP Strategy 5 is not included as municipalities do 
not have jurisdiction over grid regulatory issues. 
Initiatives are also rated by general impact and difficulty, though 
these factors vary by municipality depending on municipal 
staff capacity, types of businesses in the community, existing 
infrastructure, and so on. Municipalities should consider these 
local factors when selecting which initiatives to implement.
Part II is a workspace for the municipality to fill in with 
implementation details for each of the initiatives selected for the 
Community Energy Plan. These details include the lead person 
and entity, general start date, immediate next steps, and other 
elements relevant to how the initiative will be implemented after 
the Community Energy Plan is adopted.
This document is a tool for municipalities to use in creating a Community Energy Plan as part of the NJBPU 
Community Energy Plan Grant (“CEPG”) program. Municipalities participating in the CEPG program must utilize this document to 
triage known practical and impactful strategies to reduce greenhouse gases and achieve a sustainable energy future. The Workplan Template and 
accompanying Sustainable Energy Communities Guide offer guidance on the most high-impact initiatives that New Jersey municipalities can 
implement, enabling grant recipients to focus planning efforts on the specific who, what, where, when, and why of implementing the initiatives in 
the community.
Introduction


PART 1: CHECKLIST      iv
To complete the Workplan Template, the municipality should:
Directions for Completing 
this Document 
1
3
2
4
Consider each initiative listed in Part I, conducting research 
to determine if the initiative is feasible and desirable for the 
community. Research may include engaging the public and 
working with the municipal staff responsible for implementation. 
Sustainable Jersey is available to provide technical assistance 
and/or referrals to relevant experts.
Decide which initiatives 
will be included in the 
Community Energy Plan 
and indicate chosen 
initiatives using the 
provided check boxes.
For each initiative to be included in the Plan, 
complete a fill-in-the-blank page from Part II 
including key implementation details such as 
the lead person/department, start date, and 
immediate next steps. Use the “Measures of 
Success” and “Potential Stakeholders” in Part I to 
inform the “Community notes” section of Part II.
For each initiative that is NOT selected for 
inclusion in the Community Energy Plan, 
describe the reasoning for not including it (e.g., 
cost, lack of resources, other significant barriers 
to implementation) in the Comments/Rationale 
section of the corresponding box in Part I.
PART 1: CHECKLIST      iv


PART 1: CHECKLIST      1
IMPACT:
DIFFICULTY:
CHECK IF DOING:
IMPACT:
DIFFICULTY:
CHECK IF DOING:
Measures of Success
Measures of Success
Resources
Resources
Potential Stakeholders
Potential Stakeholders
0.0 Name of Initiative
0.0 Name of Initiative
Comments/Rationale for NOT including this Initiative:
Comments/Rationale for NOT including this Initiative:
Introduction and information on the initiative
Introduction and information on the initiative
•
Measure 1
•
Measure 2
• 
 Measure 3
•
Measure 1
•
Measure 2
• 
 Measure 3
•
Resource 1
• 
 Resource 2
•
Resource 3
•
Resource 1
• 
 Resource 2
•
Resource 3
• 
 Stakeholder 1
• 
Stakeholder 2
• 
 Stakeholder 1
• 
Stakeholder 2
PART I: Checklist Example
STRATEGY 0:
NAME OF STRATEGY


PART 1: CHECKLIST      2
IMPACT:
DIFFICULTY:
CHECK IF DOING:
IMPACT:
N/A
DIFFICULTY:
CHECK IF DOING:
Measures of Success
Measures of Success
Resources
Resources
Potential Stakeholders
Potential Stakeholders
1.1 Adopt Supportive Zoning and 
Regulations for EV Infrastructure
1.2 Train First Responders on 
EVs and EVSE
Pass NJDCA’s Model Statewide Municipal EV Ordinance specifying 
electric vehicle charging stations (EVSE) as a permitted accessory use, 
establishing the permitting process for charging stations, and requiring 
Make-Ready and EVSE parking in new multifamily developments and 
parking lots. Modify the model ordinance standards for safety, signage, 
etc. as needed. 
To further public confidence and maintain emergency preparedness, 
require training on electric vehicles and associated infrastructure for 
local first responders.
•
“Reasonable Standards” language modified and finalized
•
Ordinance passed
• 
 Make-Ready and EV charging parking minimums posted 
to municipal website
•
Training held for each relevant department
•
Policy established for ongoing training
•
NJDCA’s Model Statewide Ordinance
• 
 Sustainable Jersey’s Make Your Town Electric Vehicle 
Friendly action
• 
 Great Plains Institute’s Summary of Best Practices in EV 
Ordinances
• 
 Sustainable Jersey’s Make Your Town Electric Vehicle 
Friendly action
•
NFPA’s Alternative Fuel Vehicles Safety Training Program
• 
 Downtown businesses/business association
• 
Real estate developers
• 
 Local fleet managers that handle EVs
• 
 Neighboring municipalities
• 
 Automobile dealerships
Comments/Rationale for NOT including this Initiative:
Comments/Rationale for NOT including this Initiative:
STRATEGY 1:
REDUCE ENERGY CONSUMPTION AND EMISSIONS FROM THE TRANSPORTATION SECTOR
Completed


PART 1: CHECKLIST      3
IMPACT:
DIFFICULTY:
CHECK IF DOING:
IMPACT:
DIFFICULTY:
CHECK IF DOING:
Measures of Success
Resources
Potential Stakeholders
Potential Stakeholders
Measures of Success
Resources
Initiate electric vehicle cross-training for non-emergency staff such as 
code officials, automotive technicians, and electricians.
Replace existing municipal fleet vehicles with plug-in hybrid, battery 
electric, or other sustainable alternative fuel vehicles, using fleet 
analysis to inform purchases.
•
Training held for each relevant department
•
Policy established for ongoing training
• 
 Strategic plan prioritizing vehicles in fleet to replace with AFVs
• 
 Fleet charging infrastructure installed for municipal vehicles
• 
 First battery electric vehicle added to municipal fleet
• 
 At least 6.5% of municipal vehicles are electric
• 
 Sustainable Jersey’s Purchase Alternative Fuel Vehicles action
• 
 Sustainable Jersey’s Alternative Fuel Vehicle Procurement Guide
• 
 Fleets for the Future Electric Vehicle Procurement Best Practices 
Guide
•
DVRPC’s Electric Vehicle Resource Kit for Municipalities
•
NJBPU’s Clean Fleet EV Incentive Program
• 
 Fleet management companies (e.g., transportation analytics firms)
• 
 Sustainable Jersey’s Make Your Town Electric Vehicle 
Friendly action
•
NAFTC’s Courses and Workshops
• 
 Neighboring municipalities
• 
 Local unions
1.3 Train Non-Emergency Staff 
on EVs and EVSE
1.4 Purchase Alternative Fuel 
Vehicles
Comments/Rationale for NOT including this Initiative:
Comments/Rationale for NOT including this Initiative:
STRATEGY 1:
REDUCE ENERGY CONSUMPTION AND EMISSIONS FROM THE TRANSPORTATION SECTOR


PART 1: CHECKLIST      4
IMPACT:
DIFFICULTY:
CHECK IF DOING:
IMPACT:
DIFFICULTY:
CHECK IF DOING:
Measures of Success
Measures of Success
Resources
Resources
Potential Stakeholders
Potential Stakeholders
1.5 Improve Municipal Fleet 
Efficiency
1.6 Install Public EV Charging 
Infrastructure
Coordinate the strategic replacement (or retirement) of vehicles, 
scheduling of preventative maintenance, and improvement of driver 
efficiency to reduce the GHG footprint of all municipal fleets – public 
works, police, fire, etc. Requires tracking of fleet data such as age of 
vehicles, duty cycle, and use patterns.
Install electric vehicle charging infrastructure, including chargers, 
signage, and safety and accessibility features, for public use.
•
Annual fleet inventory process established
•
Annual driver training established
•
20% reduction in fleet emissions within 4-year span
•
First public EV charging station installed
•
2 public EV charging stations per 10,000 residents
•
Sustainable Jersey’s Fleet Inventory action
•
Sustainable Jersey’s Meet Target for Green Fleets action
•
Atlas Public Policy’s Fleet Procurement Analysis Tool
• 
 Sustainable Jersey’s Public Electric Vehicle Charging 
Infrastructure action 
•
NJDEP’s It Pay$ to Plug In grant program
• 
 Sustainable Jersey’s Alternative Fuel Vehicle Procurement Guide
•
DVRPC’s Electric Vehicle Resource Kit for Municipalities
• 
 Fleet management companies (e.g., transportation analytics 
firms)
• 
 Municipal services contractors (e.g., waste services companies)
•
Electric utility
• 
 Transportation 
Management Association
•
Car dealerships
•
Car share providers
Comments/Rationale for NOT including this Initiative:
Comments/Rationale for NOT including this Initiative:
STRATEGY 1:
REDUCE ENERGY CONSUMPTION AND EMISSIONS FROM THE TRANSPORTATION SECTOR


PART 1: CHECKLIST      5
IMPACT:
DIFFICULTY:
CHECK IF DOING:
IMPACT:
DIFFICULTY:
CHECK IF DOING:
Measures of Success
Measures of Success
Resources
Resources
Potential Stakeholders
Potential Stakeholders
Comments/Rationale for NOT including this Initiative:
Comments/Rationale for NOT including this Initiative:
1.7 Encourage Non-Municipal 
Fleets to Improve Efficiency
1.8 Encourage Workplace EV 
Charging Infrastructure
Contact local commercial vehicle owners to encourage them to 
strategically replace (or retire) vehicles and improve driver efficiency to 
reduce their fleet’s GHG footprint. Offer resources to ease the process, 
such as procurement tools and incentive information.
Meet with local employers to ask them to install workplace EV 
charging. If possible, offer incentives such as promotion in municipal 
communications, a “ribbon cutting” event with public officials, and/or a 
fast-tracked permitting process. 
•
Template fleet procurement plan provided to commercial 
fleet managers
• 
 Municipal-led recognition program for local leaders in fleet 
efficiency
•
Municipal staff/green team meet with 5+ local employers
•
3 workplace EV charging stations installed thanks to outreach
• 
 2 workplace EV chargers per 100 businesses in the municipality
•
Atlas Public Policy’s Fleet Procurement Analysis Tool
• 
 Sustainable Jersey’s Alternative Fuel Vehicle Procurement Guide
•
Sustainable Jersey’s Electric Vehicle Outreach action
•
Sustainable Jersey’s Fleet Inventory action
• 
Sustainable Jersey’s Meet Target for Green Fleets action
• 
 NYSERDA’s Workplace Electric Vehicle Charging Policies: 
Best Practices Guide
•
Sustainable Jersey’s Electric Vehicle Outreach action
•  
 Sustainable Jersey’s Make Your Town Electric Vehicle 
Friendly action
• 
 Private transit companies
•
Business associations
• 
 Fleet management companies (e.g., transportation analytics firms)
• 
 Electric vehicle charging infrastructure companies
• 
 Local business associations 
• 
 Local charging station installers (e.g., electricians)
STRATEGY 1:
REDUCE ENERGY CONSUMPTION AND EMISSIONS FROM THE TRANSPORTATION SECTOR
Not a priority at this time


PART 1: CHECKLIST      6
Provide clear guidance/standards for solar developers and limit barriers to 
solar adoption such as lengthy permitting and multiple reviews.
Provide clear guidance/standards for solar developers with a 
permitting checklist that can be easily found on the municipality’s 
website. Solicit feedback from users and revise checklist based on 
comments. 
•
Pass solar-friendly ordinance
•
Expedite/eliminate zoning permit
•
Establish flat fee for permitting
•
Permit requirement checklist online
•
Permit checklist revised based on user feedback
•
IREC’s Guide to Preparing Solar Permitting Checklists
• 
 Solar Ready Kansas City’s Streamline Permitting: Best 
Management Practices for Solar Installation Policy
•
Sustainable Jersey’s Make Your Town Solar Friendly action
• 
 Resident organizations (e.g., homeowners associations)
•
Solar developers
• 
 Local businesses/business associations
• 
 Resident organizations (e.g., homeowners associations)
•
Solar developers
IMPACT:
DIFFICULTY:
CHECK IF DOING:
IMPACT:
DIFFICULTY:
CHECK IF DOING:
Measures of Success
Measures of Success
• 
 Sustainable Jersey’s Guidance for Creating a Solar Friendly 
Ordinance
•
Sustainable Jersey’s Make Your Town Solar Friendly action
•
US DOE’s SolSmart Program Guide
Resources
Resources
Potential Stakeholders
Potential Stakeholders
Comments/Rationale for NOT including this Initiative:
Comments/Rationale for NOT including this Initiative:
2.1 Adopt Supportive Zoning and 
Permitting for Private Solar
2.2 Post Solar Permitting 
Checklist
STRATEGY 2:
ACCELERATE DEPLOYMENT OF RENEWABLE ENERGY AND DISTRIBUTED ENERGY RESOURCES
Not a priority at this time


PART 1: CHECKLIST      7
Update municipal zoning ordinances to specifically allow large-scale solar 
projects, and designate future community solar sites as redevelopment 
zones. Consider offering direct assistance with permitting, expediting the 
permitting process, and/or reducing permitting fees for community solar.
To further public confidence and maintain emergency preparedness, 
require training on solar infrastructure for first responders.
• 
 Zoning ordinance adopted enabling large-scale solar projects
• 
 Municipal point of contact established for community solar 
developers
•
Site designated as development zone to host community solar
•
Training held for each relevant department
•
Policy for ongoing training established
•
Sustainable Jersey’s Community Solar Guide
• 
 Sustainable Jersey’s Municipally Supported Community 
Solar action
•
Kean University’s Fire Safety Training Program
•
IREC’s Allied Professional Training
•
US DOE’s SolSmart Program Guide
•
Sustainable Jersey’s Make Your Town Solar Friendly action
• 
 Community solar developers
• 
 Community solar site hosts
• 
 Low- and moderate-income housing developers/managers
• 
 Neighboring municipalities
IMPACT:
DIFFICULTY:
CHECK IF DOING:
IMPACT:
DIFFICULTY:
CHECK IF DOING:
Measures of Success
Measures of Success
Resources
Resources
Potential Stakeholders
Potential Stakeholders
Comments/Rationale for NOT including this Initiative:
Comments/Rationale for NOT including this Initiative:
2.3 Adopt Zoning and Permitting 
for Community Solar 
2.4 Train First Responders on 
Solar
N/A
N/A
STRATEGY 2:
ACCELERATE DEPLOYMENT OF RENEWABLE ENERGY AND DISTRIBUTED ENERGY RESOURCES
Not a priority at this time


PART 1: CHECKLIST      8
To ensure municipal staff can efficiently and effectively inspect, review, 
permit, etc. solar installations in the community, require training on solar 
infrastructure for all relevant staff.
Host a solar, wind, or geothermal project on municipal property to 
generate renewable energy for municipal facilities. Such projects can be 
leased from a developer or purchased and owned outright.
•
Training for relevant departments
•
Cross-train building, zoning, inspection, and permitting staff
•
Policy for ongoing training
• 
 Contract with a developer to buy or lease a renewable 
installation on municipal property
• 
 Implement outreach illustrating the benefits of renewable 
energy to the community using the municipal project
•
IREC’s Allied Professional Training
•
US DOE’s SolSmart Program Guide
•
Sustainable Jersey’s Make Your Town Solar Friendly action
• 
 Sustainable Jersey’s Municipal On-Site Solar System; 
Municipal Wind Energy System; and Municipal Geothermal 
Energy System actions
• 
 American Cities Climate Challenge On-site Solar Procurement 
Guidance
•
NJCEP’s Renewable Energy webpage
• 
 Neighboring municipalities
•
Local unions
• 
 Renewable energy developer(s)
•
Local media
•
Public school district
IMPACT:
DIFFICULTY:
CHECK IF DOING:
IMPACT:
DIFFICULTY:
CHECK IF DOING:
Measures of Success
Measures of Success
Resources
Resources
Potential Stakeholders
Potential Stakeholders
Comments/Rationale for NOT including this Initiative:
Comments/Rationale for NOT including this Initiative:
2.5 Train Non-Emergency Staff 
on Solar
2.6 Install On-Site Municipal 
Renewable Generation
STRATEGY 2:
ACCELERATE DEPLOYMENT OF RENEWABLE ENERGY AND DISTRIBUTED ENERGY RESOURCES


PART 1: CHECKLIST      9
Buy renewable electricity for municipal facilities directly from a green 
energy supplier or participate in a buying pool that supplies electricity 
with high renewable content. The accompanying renewable energy 
certificates (RECs) should be certified as PJM Class I. 
Offer a collective solar purchasing program for municipal employees, 
promoted via existing employee communication network. This type 
of program utilizes scale and low customer acquisition costs to make 
installing solar more affordable for participating employees. Schools 
and municipalities can collaborate to form a larger pool of potential 
customers, even including student families in the offer.
• 
 Contract with third-party supplier or buying pool with a 
greater proportion of renewable content than current 
Renewable Portfolio Standard (22.5% for 2021)
•
Renewable portion is mostly, if not all, PJM Class I RECs
• 
 10% of employees get a quote through purchasing program
•
5% of employees participate in the program
• 
 Sustainable Jersey’s Buy Electricity from a Renewable 
Source action
•
Sustainable Jersey’s Solar Outreach action
•
NREL’s Solarize Guidebook
•
Energy consultant
• 
 Energy buying pool (e.g., NJSEM)
• 
 Municipal employee 
associations
•
Public school district
•
Local solar developer(s)
• 
 Parent-teacher associations
IMPACT:
DIFFICULTY:
CHECK IF DOING:
IMPACT:
DIFFICULTY:
CHECK IF DOING:
Measures of Success
Measures of Success
Resources
Resources
Potential Stakeholders
Potential Stakeholders
Comments/Rationale for NOT including this Initiative:
Comments/Rationale for NOT including this Initiative:
2.7 Buy Renewable Energy for 
Municipal Facilities
2.8 Offer a Solar Employee 
Benefit Program
STRATEGY 2:
ACCELERATE DEPLOYMENT OF RENEWABLE ENERGY AND DISTRIBUTED ENERGY RESOURCES
Not a priority at this time
Not a priority at this time


PART 1: CHECKLIST      10
Partner with solar installers or a solar marketplace to offer special pricing 
on solar installations to residents and/or businesses for a limited time. 
Establish the partner solar installer(s) and special pricing via RFP process, 
then advertise the offering to the community. Alternatively, partner with 
a competitive online solar marketplace to offer residents a custom online 
webpage to receive quotes.
Establish a Renewable Government Energy Aggregation (R-GEA) 
program. R-GEA is a third-party electric supply contract negotiated by 
a municipality (or group of municipalities) on behalf of its residents. 
Utilizing their size, municipalities can negotiate for a supply that is more 
sustainable, often less expensive, and with better and more secure terms 
than can typically be achieved by individual residents. 
•
5% of residents receive quotes for solar installations
•
2% of residents install solar as part of the campaign
• 
 Third-party supplier bids received below utility electricity rate 
• 
 R-GEA contract contains high-quality renewable content (e.g., 
PJM Class-I) at least 20% above the current RPS at the time 
(RPS is 22.5% for 2021) 
•
Sustainable Jersey’s Solar Outreach action
• 
 NREL’s Solarize Guidebook
• 
 Sustainable Jersey’s How-To Guide: Renewable Government 
Energy Aggregation
• 
 Sustainable Jersey’s Renewable Government Energy 
Aggregation action
•
Local solar developer(s)
•
Service organizations
•
Local media
• 
 Homeowners associations
•
Energy consultant(s)
•
Local media
• 
 Neighboring municipalities
IMPACT:
DIFFICULTY:
CHECK IF DOING:
IMPACT:
DIFFICULTY:
CHECK IF DOING:
Resources
Resources
Potential Stakeholders
Potential Stakeholders
Comments/Rationale for NOT including this Initiative:
Comments/Rationale for NOT including this Initiative:
2.9 Institute a Community-wide 
Solar Purchasing Program
2.10 Implement Renewable 
Government Energy 
Aggregation (R-GEA)
Measures of Success
Measures of Success
STRATEGY 2:
ACCELERATE DEPLOYMENT OF RENEWABLE ENERGY AND DISTRIBUTED ENERGY RESOURCES
Not a priority at this time
Not a priority at this time


PART 1: CHECKLIST      11
Facilitate connections between community solar developers and 
the local site owner, anchor subscribers, nonprofit sponsors, and/or 
affordable housing property owners. Municipalities can lend credibility 
to the multi-benefit opportunity of a potential community solar project.
Use municipal resources and networks (mailing lists, websites, etc.) 
to educate the community about community solar in general and the 
details of local projects (e.g., subscription rates and requirements). 
•
Anchor subscribers established for community solar project
• 
 Project partner underwrites subscription fees for low- and 
moderate-income residents
• 
 Community solar information posted to municipal website
• 
 Community solar promoted by outreach partners via their 
networks
• 
 Sustainable Jersey’s Municipally Supported Community 
Solar action
•
Sustainable Jersey’s Community Solar Guide
• 
 Sustainable Jersey’s Municipally Supported Community 
Solar action
•
Sustainable Jersey’s Community Solar Guide
• 
 Community solar developers and project hosts
• 
 Affordable housing organizations
•
Faith-based organizations
• 
 Community solar developers
•
Local media
• 
 Affordable housing organizations
•
Faith-based organizations
IMPACT:
DIFFICULTY:
CHECK IF DOING:
IMPACT:
DIFFICULTY:
CHECK IF DOING:
Measures of Success
Measures of Success
Resources
Resources
Potential Stakeholders
Potential Stakeholders
Comments/Rationale for NOT including this Initiative:
Comments/Rationale for NOT including this Initiative:
2.11 Support Community Solar 
as Project Ambassador 
2.12 Support Community Solar 
as Outreach Coordinator 
STRATEGY 2:
ACCELERATE DEPLOYMENT OF RENEWABLE ENERGY AND DISTRIBUTED ENERGY RESOURCES
Not a priority at this time
Not a priority at this time


PART 1: CHECKLIST      12
Host a community solar project on municipal property, such as a DPW 
garage, parking lot/garage, or landfill. Most municipalities lease the site 
to the developer or enter a power purchase agreement (PPA) with the 
developer to buy the electricity at a reduced rate.
•
Agreement with developer to host a project
•
Municipality serves as project anchor subscriber
•
NJBPU’s Community Solar Brochure
• 
 Sustainable Jersey’s Municipally Supported Community 
Solar action
•
Sustainable Jersey’s Community Solar Guide (pg. 10-14)
•
NJDEP’s NJ Community Solar PV Siting Tool
• 
 Community solar developers
• 
 Neighborhood associations
• 
 State agencies handling brownfields
IMPACT:
DIFFICULTY:
CHECK IF DOING:
Measures of Success
Resources
Potential Stakeholders
Comments/Rationale for NOT including this Initiative:
2.13 Host a Community Solar 
Project on Municipal Property
STRATEGY 2:
ACCELERATE DEPLOYMENT OF RENEWABLE ENERGY AND DISTRIBUTED ENERGY RESOURCES


PART 1: CHECKLIST      13
Upgrade municipal facilities to be more energy efficient. New Jersey’s 
Clean Energy Program and electric and natural gas utilities offers incentive 
programs that guide municipalities through the upgrade process, starting 
with free audits to establish the most effective measures to reduce energy 
use. Following implementation, showcase upgrades in energy efficiency 
outreach to local commercial entities.
Implement an outreach effort to help residents take advantage of 
energy efficiency incentive programs offered by New Jersey’s electric 
and natural gas utilities, including Home Performance with ENERGY 
STAR and Comfort Partners.
• 
 Apply for Local Government Energy Audit or Engineered 
Solutions audit, if eligible
•
Achieve 20% annual energy savings for one building
• 
 Achieve 20% annual energy savings across the municipal 
building portfolio
•
Outreach team training with Sustainable Jersey
• 
 5% of residents participate in Home Performance with 
ENERGY STAR program during the campaign
•
NJ gas and electric utilities’ commercial energy efficiency 
program websites
•
NJCEP’s Combined Heat and Power program
• 
 Sustainable Jersey’s Energy Efficiency for Municipal 
Facilities action
• 
 NJ gas and electric utilities’ residential energy efficiency 
program websites
• 
 Sustainable Jersey’s Residential Energy Efficiency Outreach
action
•
Public school district
• 
 Neighboring municipalities 
• 
 Natural gas/electric utility
• 
 HPwES contractor(s)
• 
 Neighborhood and faith-based organizations
IMPACT:
DIFFICULTY:
CHECK IF DOING:
IMPACT:
DIFFICULTY:
CHECK IF DOING:
Measures of Success
Measures of Success
Resources
Resources
Potential Stakeholders
Potential Stakeholders
Comments/Rationale for NOT including this Initiative:
Comments/Rationale for NOT including this Initiative:
3.1 Upgrade Energy Efficiency 
for Municipal Facilities
3.2 Residential Energy Efficiency 
Outreach Campaign
STRATEGY 3:
MAXIMIZE ENERGY EFFICIENCY AND CONSERVATION AND REDUCE PEAK DEMAND
Residential population predominantly renters


PART 1: CHECKLIST      14
Implement an outreach effort to help local businesses take advantage 
of energy efficiency incentive programs offered by New Jersey’s electric 
and natural gas utilities, including the Direct Install (DI) program.
Contact large energy users in the community to prompt interest in 
managing energy use, including participating in utility commercial 
energy efficiency incentive programs like Engineered Solutions and 
PJM’s Demand Response program.
•
Outreach team training with Sustainable Jersey
• 
 5% of businesses participate in Direct Install program during 
the campaign
• 
 One of the community’s largest energy users enrolls in utility 
energy efficiency program
• 
 One of the community’s largest energy users enrolls in 
demand-side management program
• 
 NJ gas and electric utilities’ commercial energy efficiency 
program websites
• 
 Sustainable Jersey’s Commercial Energy Efficiency 
Outreach action
• 
 NJ gas and electric utilities’ 
commercial energy efficiency 
program websites
• 
 NJCEP’s Large Energy Users 
Program
• 
 Natural gas/electric utility
• 
 Local DI contractor
• 
 Building Owners and 
Managers Association
• 
 Local business associations
• 
 Minority business 
association
• 
 Natural gas/electric utility
•
Business associations
• 
 Rutgers University Center for Green Building
IMPACT:
DIFFICULTY:
CHECK IF DOING:
IMPACT:
DIFFICULTY:
CHECK IF DOING:
Measures of Success
Measures of Success
Potential Stakeholders
Potential Stakeholders
Comments/Rationale for NOT including this Initiative:
Comments/Rationale for NOT including this Initiative:
3.3 Commercial Energy 
Efficiency Outreach Campaign
3.4 Conduct Energy Efficiency 
Outreach to Large Energy Users
Resources
Resources
STRATEGY 3:
MAXIMIZE ENERGY EFFICIENCY AND CONSERVATION AND REDUCE PEAK DEMAND
• 
 Rutgers University’s Green 
Building Manual
• 
 Sustainable Jersey’s 
Commercial Energy 
Efficiency Outreach action
• 
 PJM’s Demand Response
program
No appropriate user


PART 1: CHECKLIST      15
Implement a policy encouraging or requiring consideration of green 
building practices for any new municipal construction project. Highlight 
the incentives from NJCEP’s New Construction Energy Efficiency
program. Following construction, showcase green building features with 
on-site kiosks and digital webpages to encourage others to follow suit.
Educate local building managers about benchmarking and 
commissioning. Inform building managers of utility building management 
programs that include benchmarking and/or commissioning.
• 
 Pass resolution or ordinance encouraging/requiring that new 
municipal buildings follow green building practices
•
Construct the municipality’s first LEED-Platinum building
• 
 Hold a public event touting the “green” features of a new 
municipal building
• 
 Information about benchmarking and commissioning posted 
to municipal website
• 
 Major building owner agrees to have buildings benchmarked 
and commissioned 
•
Sustainable Jersey’s New Construction action
•
Sustainable Jersey’s Green Building Policy/Resolution action
•
Rutgers University’s Green Building Manual
• 
 NJ gas and electric utilities’ commercial energy efficiency 
program websites
• 
 Sustainable Jersey’s Commercial Energy Efficiency Outreach
action
• 
 Building architects and developers (e.g., member of U.S. Green 
Building Council)
• 
 Rutgers University Center for Green Building
•
Local media
• 
 Commercial building managers
• 
 Natural gas/electric utility
• 
 Facility maintenance services companies
IMPACT:
DIFFICULTY:
CHECK IF DOING:
IMPACT:
DIFFICULTY:
CHECK IF DOING:
Measures of Success
Measures of Success
Resources
Resources
Potential Stakeholders
Potential Stakeholders
Comments/Rationale for NOT including this Initiative:
Comments/Rationale for NOT including this Initiative:
4.1 Construct New Municipal 
Buildings as Model Green 
Buildings
4.2 Encourage Benchmarking 
and Commissioning for Existing 
Buildings
STRATEGY 4:
REDUCE ENERGY CONSUMPTION AND EMISSIONS FROM THE BUILDING SECTOR
Not a priority at this time


PART 1: CHECKLIST      16
Pass a Green Building Policy or Resolution that requires developers 
to submit a completed Green Development Checklist with Site Plan 
Applications. Checklist should refer developers to NJCEP’s Commercial
and Residential New Construction Energy Efficiency programs.
Reach out to developers to encourage participation in NJCEP’s 
Commercial and Residential New Construction Energy 
Efficiency programs.
•
Green Development Checklist published
• 
 Municipal ordinance requires developers to submit a 
completed Green Development Checklist
• 
 Major new development utilizes recommendations from 
Green Development Checklist
• 
 Information on NJCEP’s New Construction Energy Efficiency 
incentive programs distributed via multiple mediums
•
Major new development utilizes NJCEP program(s)
• 
 Sustainable Jersey’s Create a Green Development Checklist
action 
• 
 Sustainable Jersey’s Green Building Policy/Resolution action 
• 
 NJCEP’s Commercial and Residential New Construction 
Energy Efficiency webpages.
• 
 Builders trade associations (e.g., U.S. Green Building Council)
• 
 Building architects and developers
•
Financial institutions
• 
 Builders trade associations (e.g., U.S. Green Building Council)
• 
 Building architects and developers
•
Financial institutions
IMPACT:
DIFFICULTY:
CHECK IF DOING:
IMPACT:
DIFFICULTY:
CHECK IF DOING:
Resources
Resources
Potential Stakeholders
Potential Stakeholders
Comments/Rationale for NOT including this Initiative:
Comments/Rationale for NOT including this Initiative:
4.3 Require Developers to 
Complete Green Development 
Checklist 
4.4 Conduct Outreach Targeting 
New Construction in the 
Community
Measures of Success
Measures of Success
STRATEGY 4:
REDUCE ENERGY CONSUMPTION AND EMISSIONS FROM THE BUILDING SECTOR


PART 1: CHECKLIST      17
IMPACT:
DIFFICULTY:
CHECK IF DOING:
IMPACT:
DIFFICULTY:
CHECK IF DOING:
Measures of Success
Measures of Success
Resources
Resources
Potential Stakeholders
Potential Stakeholders
Comments/Rationale for NOT including this Initiative:
Comments/Rationale for NOT including this Initiative:
6.1 Make Community Energy 
Planning Inclusive
6.2 Conduct Energy Efficiency 
Outreach to Low- and 
Moderate-Income Residents
Ensure low- and moderate-income residents are represented in energy 
planning processes, both on the core planning team and among those 
contributing via public comment. Methods include scheduling meetings 
at convenient times (varying meeting time if needed), engaging with 
community organizations that can elevate underrepresented voices, and 
advertising planning meetings in appropriate media.
Promote state and utility energy efficiency programs for low- and 
moderate-income (LMI) residents using community-serving 
institutions as messengers, using non-English promotional materials 
where appropriate, and emphasizing co-benefits of energy efficiency 
upgrades (health, safety, and comfort).
• 
 Demographics of entire community represented on 
planning team
•
Public comment meetings well-attended
• 
 Hold an event specifically targeting LMI residents for 
energy efficiency programs
• 
 5% of eligible residents participate in income-qualifying 
state/utility energy efficiency programs
• 
 Sustainable Jersey’s Improve Public Engagement in 
Planning and Zoning action
• 
 Cadmus and USDN’s Guidebook on Equitable Clean 
Energy Program Design
•
Utility residential energy efficiency program websites
• 
 Sustainable Jersey’s Energy Assistance Outreach action
• 
 Sustainable Jersey’s Residential Energy Efficiency Outreach
action (see Resources section)
•
Local media
• 
 Meeting hosts (libraries, 
businesses)
•
Public school district
• 
 Faith-based organizations
• 
 Affordable housing 
owners/managers (public 
& private)
•
Tenant’s organizations
•
Public school district
• 
 Faith-based organizations
SUPPORT COMMUNITY ENERGY PLANNING AND ACTION 
STRATEGY 6:
With an Emphasis on Encouraging and Supporting Participation by 
Low- and Moderate-Income and Environmental Justice Communities
Not a priority at this time


PART 1: CHECKLIST      18
Promote and develop shared transportation networks of buses, cars, bikes, 
etc. with design features that particularly assist low- and moderate-income 
residents. Encourage shared transportation services to expand access in 
low-income neighborhoods and provide low-income membership options.
As a partner in a community solar project, ensure that some project 
capacity is reserved for low- and moderate-income (LMI) residents 
and/or a discount is offered for LMI subscribers.
• 
 Launch new shared transportation option in the municipality
• 
 Create low-income membership option for residents using a 
shared transportation network
• 
 Over 51% of community solar project capacity reserved for 
LMI residents
• 
 Discount of 15% or more to LMI subscribers of community 
solar project
• 
 The Greenlining Institute’s Electric Carsharing in 
Underserved Communities
• 
 Federal Highway Administration’s Travel Behavior: Shared 
Mobility and Transportation Equity
• 
 Sustainable Jersey’s Municipally Supported Community 
Solar action
•
Sustainable Jersey Community Solar Guide
• 
 Shared electric bike/scooter companies
• 
 Shared automobile companies
• 
 Neighboring municipalities
• 
 Transportation Management Association
• 
 Community solar developers
• 
 Affordable housing owners/managers (public & private)
•
Community nonprofits
•
Tenant’s organizations
IMPACT:
DIFFICULTY:
CHECK IF DOING:
IMPACT:
DIFFICULTY:
CHECK IF DOING:
Measures of Success
Measures of Success
Resources
Resources
Potential Stakeholders
Potential Stakeholders
Comments/Rationale for NOT including this Initiative:
Comments/Rationale for NOT including this Initiative:
6.3 Support Shared Mobility 
Programs
6.4 Support Low- and 
Moderate-Income Community 
Solar Subscriptions
SUPPORT COMMUNITY ENERGY PLANNING AND ACTION 
STRATEGY 6:
With an Emphasis on Encouraging and Supporting Participation by 
Low- and Moderate-Income and Environmental Justice Communities
City is well served by public transit
Superseded by the rules for community solar


PART 1: CHECKLIST      19
Reach out to limited-capacity entities that serve low- and moderate-
income communities to encourage participation in state and utility energy 
efficiency programs. Outreach strategies include messaging benefits 
of reduced capital, maintenance, and energy costs and segmenting 
outreach to different types of organization with different needs.
• 
 Hold an event specifically targeting community-serving institutions 
for energy efficiency programs
•
In UEZ or Opportunity Zone, if any exist in municipality
• 
 5% of eligible entities participate in a state/utility energy efficiency program
•
NJ gas and electric utilities’ commercial energy efficiency program websites 
• 
 Sustainable Jersey’s Energy Assistance Outreach action
• 
 ACEEE’s Extending the Benefits of Nonresidential Energy Efficiency to Low-
Income Communities
• 
 Affordable housing owners/
managers (public & private)
•
Health clinics
•
Faith-based organizations
•
Community foundations
•
Local business associations
• 
 Food banks and homeless 
shelters
IMPACT:
DIFFICULTY:
CHECK IF DOING:
Measures of Success
Resources
Potential Stakeholders
Comments/Rationale for NOT including this Initiative:
6.5 Conduct Energy Efficiency 
Outreach to Community-Serving 
Institutions
SUPPORT COMMUNITY ENERGY PLANNING AND ACTION 
STRATEGY 6:
With an Emphasis on Encouraging and Supporting Participation by 
Low- and Moderate-Income and Environmental Justice Communities


PART 1: CHECKLIST      20
STRATEGY 7:
Adopt standards and establish requirements for permitting battery energy 
storage systems. Post information about energy storage regulations to the 
municipal website and ensure appropriate municipal staff are informed.
Install on-site energy storage, such as batteries, compressed air, 
or thermal storage, for municipal facilities. Following construction, 
showcase the project with on-site kiosks and municipal webpages to 
encourage others to follow suit.
•
Regulations adopted addressing battery energy storage
•
Permitting system for energy storage established
•
RFP for municipal energy storage system posted
•
Energy storage project installed and operational
•
NYSERDA’s Battery Energy Storage System Guidebook
•
SolSmart’s Solar + Storage, A Guide for Local Governments
•
Carbon Trust’s Energy Storage Guide
•
Electric utility
• 
 Energy storage companies
•
Electric utility
• 
 Energy storage companies
EXPAND THE CLEAN ENERGY INNOVATION ECONOMY
IMPACT:
DIFFICULTY:
CHECK IF DOING:
IMPACT:
DIFFICULTY:
CHECK IF DOING:
Measures of Success
Measures of Success
Resources
Resources
Potential Stakeholders
Potential Stakeholders
Comments/Rationale for NOT including this Initiative:
Comments/Rationale for NOT including this Initiative:
7.1 Adopt Energy Storage 
Policies
7.2 Install an Energy Storage 
System
Not relevant to the City
Not a priority at this time


PART 1: CHECKLIST      21
Participate in development of a microgrid. Microgrid development 
generally starts with a feasibility study, followed by project design, then 
project implementation. Following construction, showcase the project with 
on-site kiosks, a municipal webpage, and/or ribbon-cutting event. 
Partner on developing an energy-efficient district energy system. 
Development generally starts with surveying interest in the community 
and completing a feasibility study and financial analysis. If district 
energy makes sense, hire contractor(s) to design and construct the 
project. Once complete, showcase the project with on-site kiosks, a 
municipal webpage, and/or ribbon-cutting event.
•
Microgrid feasibility study completed
•
Microgrid completed
•
Feasibility study for district energy completed
•
District energy system installed and operational
• 
 NJBPU’s Town Center Distributed Energy Resource 
Microgrid program
• 
 US DOE’s Microgrid Guide for Publicly Owned Critical 
Infrastructure
• 
 International District Energy Association’s Community 
Energy: Planning Development and Delivery Guide
• 
 Preservation Green Lab’s The Role of District Energy in 
Greening Existing Neighborhoods
•
Electric utility
•
School/school districts
•
Business centers
•
Colleges and universities
• 
 Downtown business 
associations
• 
 Natural gas/electric utility
• 
 Downtown business associations
•
Construction companies
IMPACT:
DIFFICULTY:
CHECK IF DOING:
IMPACT:
DIFFICULTY:
CHECK IF DOING:
Measures of Success
Measures of Success
Resources
Resources
Potential Stakeholders
Potential Stakeholders
Comments/Rationale for NOT including this Initiative:
Comments/Rationale for NOT including this Initiative:
7.3 Develop Local Microgrid
7.4 Develop/Participate in a 
District Energy System
STRATEGY 7:
EXPAND THE CLEAN ENERGY INNOVATION ECONOMY
Not relevant to the City
Not relevant to the City


PART 2: TEMPLATE      22
1.2 Train First Responders on EV and EVSE
Initiative:
PART II: Template
Example
EMP Strategy:
Initiative lead:
Anticipated funding sources:
Anticipated initiative length:
• 
Emergency Medical Services
• 
Police
• 
Fire Department
• 
 No current training is offered, planning to use free offering 
from National Fire Protection Association
• 
Will train new first responders annually
1. 
Joe Smith will register for access to NFPA training.
2.  Joe Smith will send email to all first responder departments with link 
to NFPA training and request that all current members complete it by a 
specified date.
3. Joe Smith will schedule next training for same month next year.
Departments involved:
Next steps: (specific and tangible):
• 
 First responder departments are often very busy, training 
should be scheduled around immediate priorities
Obstacles/Barriers:
1: Transportation
3/2022
N/A (no cost)
Ongoing (annual)
Medium
Joe Smith, President of EMS
Sustainable Jersey Community Energy Guide:
Initiative Planning Template
Initiative start date:
Priority for muni:
Community notes (include current status, selected measure of success):


PART 2: TEMPLATE      23
Sustainable Jersey Community Energy Guide:
Initiative Planning Template
Initiative:
EMP Strategy:
Initiative lead:
Anticipated initiative length:
Departments involved:
Obstacles/Barriers:
Initiative start date:
Priority for muni:
Anticipated funding sources:
Next steps: (specific and tangible):
Community notes (include current status, selected measure of success):
1: Transportation Sector
2: Train first responders on EV/EVSE
Administration
<18 mo
Mod
Dept budgets, state/fed incentives
Ongoing
Police
Fire
Administration
- Overcoming preconceived notions, biases, misinformation
Status: Not started
MoS: Training held, and policy established for ongoing training
1. Administrator to with Department heads to determine if trainings
already part of routine
2. Department heads to identify suitable courses on EV/EVSE
3. Determine appropriate frequency for trainings, schedule of topics
4. Establish training schedule and specifications in department policies
moving forward.


PART 2: TEMPLATE      24
Sustainable Jersey Community Energy Guide:
Initiative Planning Template
Initiative:
EMP Strategy:
Initiative lead:
Anticipated initiative length:
Departments involved:
Obstacles/Barriers:
Initiative start date:
Priority for muni:
Anticipated funding sources:
Next steps: (specific and tangible):
Community notes (include current status, selected measure of success):
1: Transportation Sector
Building
Public works
Status: Not started
MoS: Training held, and policy established for ongoing training
None anticipated
1. Work with Department heads to determine if trainings already part of
routine.
2. Department heads to identify suitable courses on EV/EVSE
3. Determine appropriate frequency for trainings, schedule of topics
4. Establish training schedule and specifications in department policies
moving forward.
Green Team, Administration
<18 months
Dept budgets, state/fed incentives
Ongoing
Moderate
3: Train non-emergency staff on EV/EVSE


PART 2: TEMPLATE      25
Sustainable Jersey Community Energy Guide:
Initiative Planning Template
Initiative:
EMP Strategy:
Initiative lead:
Anticipated initiative length:
Departments involved:
Obstacles/Barriers:
Initiative start date:
Priority for muni:
Anticipated funding sources:
Next steps: (specific and tangible):
Community notes (include current status, selected measure of success):
1: Transportation Sector
Public Works
Fire
Police
Parks/Rec
Buildings
Senior Services
Finance
Status: Seeking grant funding
MoS:
-Strategic plan prioritizing vehicles in fleet to replace with AFVs
• Fleet charging infrastructure installed for municipal vehicles
• First battery electric vehicle added to municipal fleet
• At least 6.5% of municipal vehicles are electric
- Buy-in from department heads/drivers
- Learning curve for driving EVs
- Competing for grants
- Paying for local portion of vehicle costs (cost minus grants/incentives)
- Equipping facilities with charging stations
1. Fleet manager to assess maintenance/fueling costs and usage rates of
existing fleet vehicles to identify priority vehicles for replacement /
electrification;
2. Facilities manager to assess readiness of relevant buildings for
necessary EV charging capabilities to support EV fleet;
3. City to direct grant writers and other relevant professionals/staff to
monitor for and pursue grant programs for EVs and EVSE to acquire
vehicles prioritized for acquisition and necessary charging equipment
4. City to revisit the process on an ongoing, quarterly, or semi-annual
basis in order to be take advantage of all grant opportunities.
Fleet Manager
Immediate
State, federal grants/loan programs
Ongoing
High
4: Purchase Alternative Fuel Vehicles


PART 2: TEMPLATE      26
Sustainable Jersey Community Energy Guide:
Initiative Planning Template
Initiative:
EMP Strategy:
Initiative lead:
Anticipated initiative length:
Departments involved:
Obstacles/Barriers:
Initiative start date:
Priority for muni:
Anticipated funding sources:
Next steps: (specific and tangible):
Community notes (include current status, selected measure of success):
1: Transportation Sector
Fleet manager
Public works
Fire
Police
Parks/Rec
Building
Senior Services
Green Team
Status: Normal maintenance procedures
Status: Fleet manager in place who maintains fleet inventory
MoS:
• Annual driver training established
• 20% reduction in fleet emissions within 4-year span
- Driver buy-in to fuel saving initiatives
- Supply chain issues or other barriers to installing fuel saving
equipment and accessories
1. Green team and department heads to identify relevant fuel saving
practices;
2. Department policies regarding vehicle usage to be updated to
encourage fuel saving practices;
3. Green team to provide educational materials for distribution to staff
who drive fleet vehicles;
4. Fleet manager to identify vehicles that are suitable for fuel saving
upgrades, and advocate for such upgrades to the City administrative and
elected officials
Fleet Manager, Department Heads
Immediate
General funds, grants
Ongoing
Moderate
5: Improve municipal fleet efficiency


PART 2: TEMPLATE      27
Sustainable Jersey Community Energy Guide:
Initiative Planning Template
Initiative:
EMP Strategy:
Initiative lead:
Anticipated initiative length:
Departments involved:
Obstacles/Barriers:
Initiative start date:
Priority for muni:
Anticipated funding sources:
Next steps: (specific and tangible):
Community notes (include current status, selected measure of success):
1: Transportation Sector
-Parks and Recreation
-Public Works
-Facilities manager
-Grant writing, engineering, and planning consultants
Status: City pursuing funding for EV charging stations
MoS:
• First public EV charging station installed
• 2 public EV charging stations per 10,000 residents
- Competing for funding for equipment
- Identifying optimal locations for EVSE
- Selecting networked versus non-networked
- Ensuring that equipment is regularly maintained kept in working order
- Preventing vandalism
1. City to task planning and engineering professionals to identify priority
areas for first EVSE installations based on commercial activity, public
services, parking turnover rates, public lots with spaces reserved for
apartment residents, areas with older apartment buildings least likely to
have EVSE, etc.
2. Instruct grant writers to pursue grants for public infrastructure based
upon findings in phase 1
3. Educate the public about the benefits of public EV and dispel myths
about their harms and risks, hold ground-breaking for first EV station
4. Continue to monitor for grant opportunities and EV adoption trends in
the City.
Green Team, facilities manager
<1 year
State, federal, private grants
Five years
high
6: Install public EV charging infrastructure


PART 2: TEMPLATE      28
Sustainable Jersey Community Energy Guide:
Initiative Planning Template
Initiative:
EMP Strategy:
Initiative lead:
Anticipated initiative length:
Departments involved:
Obstacles/Barriers:
Initiative start date:
Priority for muni:
Anticipated funding sources:
Next steps: (specific and tangible):
Community notes (include current status, selected measure of success):
1: Transportation Sector
- Administration
- Mayor and Council
-Grant writing professionals
Status: No program at this time
Measure of Success:
• Municipal staff/green team meet with 5+ local employers
• 3 workplace EV charging stations installed thanks to outreach
• 2 workplace EV chargers per 100 businesses in the
municipality
- Buy-in from business/property owners
1. Green Team to create materials advertising benefits of workplace EV
and grants/incentives for installation;
2. Materials to be distributed with other regular mailers from
municipality, published on municipal social networking pages, municipal
web page;
3. Rewards and/or local incentives for installations to be determined by
governing body and administrative staff
4. Grant writers to identify EVSE grants that permit municipalities to
partner with large employers to install lots on private properties - City to
identify and select partners (large employment property owners) for
initiatives.
Green team
< 1 year
TBD
Three years
Low
8: Encourage workplace EV installations


PART 2: TEMPLATE      29
Sustainable Jersey Community Energy Guide:
Initiative Planning Template
Initiative:
EMP Strategy:
Initiative lead:
Anticipated initiative length:
Departments involved:
Obstacles/Barriers:
Initiative start date:
Priority for muni:
Anticipated funding sources:
Next steps: (specific and tangible):
Community notes (include current status, selected measure of success):
2: Renewable Energy
- Planning consultant
- Engineering consultant
- Legal consultant
- Building Department
- Planning Board
- Governing Body
Status: Solar is not mentioned in the City code
Measures of Success:
• Pass solar-friendly ordinance
• Expedite/eliminate zoning permit
• Establish flat fee for permitting
- Public perception and misconceptions of solar panels in residential
neighborhoods
- Expediting permitting process without sacrificing public safety, quality
of living and working spaces
1. City administrator or elected officials to instruct consultants and
building department to prepare a draft ordinance and permit based on
model ordinances and best practices elsewhere;
2. Drafts reviewed, duly adopted and enforced
Governing Body, Administration
<1 year
TBD
<6 months
Moderate
1: Adopt Supportive Zoning for Private Solar


PART 2: TEMPLATE      30
Sustainable Jersey Community Energy Guide:
Initiative Planning Template
Initiative:
EMP Strategy:
Initiative lead:
Anticipated initiative length:
Departments involved:
Obstacles/Barriers:
Initiative start date:
Priority for muni:
Anticipated funding sources:
Next steps: (specific and tangible):
Community notes (include current status, selected measure of success):
2: Renewable Energy
- Planning consultant
- Engineering consultant
- Legal consultant
- Building Department
- Planning Board
- Governing Body
Status: Solar is not mentioned in the City code
Measures of Success:
• Zoning ordinance adopted enabling large-scale solar projects
• Municipal point of contact established for community solar
developers
• Site designated as development zone to host community solar
- Public perception of large solar facilities
- Availability of appropriate buildings for large scale solar facilities
- Expediting permitting process without sacrificing public safety, quality
of living and working spaces
1. City administrator or elected officials to instruct consultants and
building department to prepare a draft ordinance and permit based on
model ordinances and best practices elsewhere;
2. Drafts reviewed, duly adopted and enforced
Governing Body, Administration
<1
TBD
<6 months
Moderate
3: Adopt Zoning and Permitting for Community Solar


PART 2: TEMPLATE      31
Sustainable Jersey Community Energy Guide:
Initiative Planning Template
Initiative:
EMP Strategy:
Initiative lead:
Anticipated initiative length:
Departments involved:
Obstacles/Barriers:
Initiative start date:
Priority for muni:
Anticipated funding sources:
Next steps: (specific and tangible):
Community notes (include current status, selected measure of success):
2: Renewable Energy
Building Department
Status: Current training curriculum does not include solar
installations
Measures of Success:
• Training for relevant departments
• Cross-train building, zoning, inspection, and permitting staff
• Policy for ongoing training
None anticipated
1. Administration/Green Team to work with Building Department to
require regular training on solar
2. Building department to incorporate new training into policies and
procedures
Administration/Green Team
<1 year
TBD
Ongoing
Moderate
5: Train non-emergency staff on solar


PART 2: TEMPLATE      32
Sustainable Jersey Community Energy Guide:
Initiative Planning Template
Initiative:
EMP Strategy:
Initiative lead:
Anticipated initiative length:
Departments involved:
Obstacles/Barriers:
Initiative start date:
Priority for muni:
Anticipated funding sources:
Next steps: (specific and tangible):
Community notes (include current status, selected measure of success):
2: Renewable Energy
Facilities manager
Public Works
School Board
Finance
Status: Solar installations on some public buildings
Measure of Success:
• Contract with a developer to buy or lease a renewable
installation on municipal property
• Implement outreach illustrating the benefits of renewable
energy to the community using the municipal project
- Age and readiness of buildings for rooftop solar (quality of roof,
electrical systems)
- Educating City decision makers and the public about the costs and
benefits of solar installations on different buildings
- Determining purpose of installation > back of meter versus front of
meter (i.e. power public building or return to grid)
1. Contract out a Solar Feasibility Study to determine potential solar
electric generation from building roofs, parking decks, parking, lots in
comparison to electric usage.
2. Use results of Study to select identify projects with greatest payoff
potential, including potential savings from generating power for on-site
use versus potential revenues from leasing space to solar developers.
3. Conduct bidding process to develop systems and manage sale of
renewable energy certificates.
Governing body, administration
<2 years
State, federal grant programs
3 years
Moderate
6: Install on-site municipal renewable energy


PART 2: TEMPLATE      33
Sustainable Jersey Community Energy Guide:
Initiative Planning Template
Initiative:
EMP Strategy:
Initiative lead:
Anticipated initiative length:
Departments involved:
Obstacles/Barriers:
Initiative start date:
Priority for muni:
Anticipated funding sources:
Next steps: (specific and tangible):
Community notes (include current status, selected measure of success):
2: Renewable Energy
Administration
Governing Body
Finance
Facilities manager
Status: City does not host any community solar projects
Measure of Success:
• Agreement with developer to host a project
• Municipality serves as project anchor subscriber
- Community familiarity of Community Solar Program
- Competition for participation in BPU program
1. If findings under initiative 2.6 identify appropriate public sites for
Community Solar developments, the City will RFP for developers to host
community solar installations on those sites
Green Team, Admin, Governing Body
<1 year
TBD
3 year
moderate
13: Host a Community Solar Project


PART 2: TEMPLATE      34
Sustainable Jersey Community Energy Guide:
Initiative Planning Template
Initiative:
EMP Strategy:
Initiative lead:
Anticipated initiative length:
Departments involved:
Obstacles/Barriers:
Initiative start date:
Priority for muni:
Anticipated funding sources:
Next steps: (specific and tangible):
Community notes (include current status, selected measure of success):
3: Energy Efficiency
Buildings
Facilities Manager
Finance
Status: Audits and retrofits completed in 2011 and 2015 by BOE
and Housing Authority
Measure of Success:
• Apply for Local Government Energy Audit or Engineered
Solutions audit, if eligible
• Achieve 20% annual energy savings for one building
• Achieve 20% annual energy savings across the municipal
building portfolio
- Communicating costs and benefits of programs to administration and
governing body
- Separating out building-by-building energy usage in PSE&G in order to
track energy use at a building level rather than a system-wide level.
1. Collect historical energy usage for municipal buildings in order to
determine which energy efficiency programs each building is eligible for
(some programs have minimum energy consumption threshold),
independently or with Technical Assistance from Sustainable Jersey.
2. Create a Energy Star Portfolio Manager and enter energy usage data
to begin evaluating usage patterns, identify areas to reduce waste.
3. City to RFP for energy auditor or use pre-selected auditor from PSE&G
based upon the incentive program selected.
4. City to select most appropriate efficiency improvements option
presented by auditor based on City's needs and financing options.
5. City to implement energy efficiency improvements process.
Administration, Green Team
<1 year
BPU, DEP, EDA, IRA
2 years
Moderate
1: Upgrade Energy Efficiency for Muni. Facilities


PART 2: TEMPLATE      35
Sustainable Jersey Community Energy Guide:
Initiative Planning Template
Initiative:
EMP Strategy:
Initiative lead:
Anticipated initiative length:
Departments involved:
Obstacles/Barriers:
Initiative start date:
Priority for muni:
Anticipated funding sources:
Next steps: (specific and tangible):
Community notes (include current status, selected measure of success):
3: Energy Efficiency
Tax collector
Administration
Measures of Success:
• Outreach team training with Sustainable Jersey
-5% of businesses participate in Direct Install program during
the campaign
- Preparing outreach materials in variety of languages
- Identifying best medium to reach commercial property owners and
businesses
1. The City will apply for technical assistance and outreach campaign
grant funding from Sustainable Jersey to facilitate and expedite the
creation of a commercial outreach campaign.
2. Green Team will assist Sustainable Jersey as appropriate or take the
lead to generate outreach materials advertising energy efficiency
incentive programs to business owners and commercial property
owners in various languages;
3. Materials to be distributed in regular mailers, posted on City website
and social pages, announced during public hearings.
Green Team
<2 years
TBD
Ongoing
Low
3:. Commercial Outreach


PART 2: TEMPLATE      36
Sustainable Jersey Community Energy Guide:
Initiative Planning Template
Initiative:
EMP Strategy:
Initiative lead:
Anticipated initiative length:
Departments involved:
Obstacles/Barriers:
Initiative start date:
Priority for muni:
Anticipated funding sources:
Next steps: (specific and tangible):
Community notes (include current status, selected measure of success):
4: Building Sector
Clerk/Administration
Measure of Success:
• Information about benchmarking and commissioning posted
to municipal website
• Major building owner agrees to have buildings benchmarked
and commissioned
- Identifying best medium to reach property owners to encourage them
to use benchmarking and commissioning to reduce energy waste.
1. Green Team to generate materials communicating the benefits and
options for energy benchmarking and commissioning
2. Materials to be distributed by mailers, published on the City website
and social pages, in City offices, and mentioned in regular meetings.
3. Green Team or City to use social media and public meetings to
highlight property owners who undergo benchmarking/commissioning
as result of this outreach.
Green Team
<2 years
TBD
Ongoing
Low
2: Existing Building Benchmarking and Commissioning


PART 2: TEMPLATE      37
Sustainable Jersey Community Energy Guide:
Initiative Planning Template
Initiative:
EMP Strategy:
Initiative lead:
Anticipated initiative length:
Departments involved:
Obstacles/Barriers:
Initiative start date:
Priority for muni:
Anticipated funding sources:
Next steps: (specific and tangible):
Community notes (include current status, selected measure of success):
4: Building Sector
Administration
Building Department
Zoning Officer
Planning Consultant
Land Use Boards
Measures of Success:
• Green Development Checklist published
• Municipal ordinance requires developers to submit a
completed Green Development Checklist
• Major new development utilizes recommendations from
Green Development Checklist
- Ensuring that applicants and reviewing staff and boards are aware of
the new checklist and enforce its completion
1. City governing body and administration to instruct the Building
Department and City Planning consultants to prepare a green checklist.
2. Completed checklist to be prepared
3. Ordinance/Resolutions to be adopted requiring developers to
complete the checklist and Boards/officers to review the checklist as
part of application consideration.
4. Boards and Officers to require applicants to incorporate checklist
items into projects.
5. Boards and their professionals to encourage adoption of practices in
the checklist where appropriate and applicable to the development.
Governing Body
<1 year
none anticipated
Ongoing
Moderate
3: Require developers to complete green checklist


PART 2: TEMPLATE      38
Sustainable Jersey Community Energy Guide:
Initiative Planning Template
Initiative:
EMP Strategy:
Initiative lead:
Anticipated initiative length:
Departments involved:
Obstacles/Barriers:
Initiative start date:
Priority for muni:
Anticipated funding sources:
Next steps: (specific and tangible):
Community notes (include current status, selected measure of success):
4: Building Sector
Building Department
Finance Department
Clerk
Measures of Success:
• Information on NJCEP’s New Construction Energy Efficiency
incentive programs distributed via multiple mediums
• Major new development utilizes NJCEP program(s)
- Identifying best media for communicating to developers
- Obtaining developer buy-in
1. Green Team to develop materials targeting developers, including
information on energy efficiency programs to be attached to
development application materials and checklists.
2. Building Department and other relevant Departments to include
outreach materials in mailers, digital and physical application packages.
Green Team
<2 years
PSE&G, or Clean Energy Program
Ongoing
Low
4: Conduct outreach targeting new construction


PART 2: TEMPLATE      39
Sustainable Jersey Community Energy Guide:
Initiative Planning Template
Initiative:
EMP Strategy:
Initiative lead:
Anticipated initiative length:
Departments involved:
Obstacles/Barriers:
Initiative start date:
Priority for muni:
Anticipated funding sources:
Next steps: (specific and tangible):
Community notes (include current status, selected measure of success):
6: Community Energy Planning
Clerk
Finance
Housing Authority
Board of Education
Measures of Success:
• Hold an event specifically targeting LMI residents for energy
efficiency programs
- Distribute educational materials to LMI residents for energy
efficiency programs
• 5% of eligible residents participate in income-qualifying
state/utility energy efficiency programs
- Language barriers
- Scheduling obstacles for events (childcare, etc)
1. Green team to generate materials to educate LMI households about
energy efficiency programs and energy bill support programs in multiple
languages and targeted towards renters
2. Green team to hold event to educate LMI public about these programs
3. Green team to work with other departments to distribute these
programs to public housing residents, parents of public school students,
etc.
Green Team
<2 years
PSE&G, other
Ongoing
High
2: Low/Mod Income Outreach


PART 2: TEMPLATE      40
Sustainable Jersey Community Energy Guide:
Initiative Planning Template
Initiative:
EMP Strategy:
Initiative lead:
Anticipated initiative length:
Departments involved:
Obstacles/Barriers:
Initiative start date:
Priority for muni:
Anticipated funding sources:
Next steps: (specific and tangible):
Community notes (include current status, selected measure of success):
6: Community Energy Planning
Land Use Board
Building
Measures of Success:
• Over 51% of community solar project capacity reserved for LMI
residents
• Discount of 15% or more to LMI subscribers of community
solar project
None anticipated
1. If City hosts community solar project on public property, RFP for
developer will require minimum 51% of capacity to be reserved for LMI
households with a discount of 15% or more
Administration/Governing Body
<3 years
none anticipated
Ongoing
High
4: Support Low/Mod Income Community Solar Subscription


PART 2: TEMPLATE      41
Sustainable Jersey Community Energy Guide:
Initiative Planning Template
Initiative:
EMP Strategy:
Initiative lead:
Anticipated initiative length:
Departments involved:
Obstacles/Barriers:
Initiative start date:
Priority for muni:
Anticipated funding sources:
Next steps: (specific and tangible):
Community notes (include current status, selected measure of success):
6: Community Energy Planning
Measures of Success:
• Hold an event specifically targeting community-serving
institutions for energy efficiency programs
• In UEZ or Opportunity Zone, if any exist in municipality
• 5% of eligible entities participate in a state/utility energy
efficiency program
1. Green team to hold event or events with community serving
institutions to promote energy saving opportunities that can be passed
down to the community
Green Team
<2 years
PSE&G, other
Ongoing
Moderate
5: Outreach to Community Serving Institutions


APPENDIX
2
IDLING REDUCTION 
SAVINGS CALCULATOR


Idling Reduction Savings Calculator
For an interactive Excel version of this calculator, please go to http://www.transportation.anl.gov/downloads/idling_worksheet.xls.
Calculate Costs for Avoidable Idling
gallons/hour
hours/year
X
=
gallons/year
How much fuel is used for idling? 
(If you don’t know, see reference 
table on reverse.)
Realistically, how many hours each 
year might you use idling reduction 
(IR) devices instead of idling?
/gallon
$
What is the price of fuel? 
X
Avoidable Idling Fuel Costs
=
/year +
$
gallons/hour
X
hours/year
1
2
/oil change
÷
miles/oil change
=
/year +
$
$
3
4
=
/overhaul or 
replacement
÷
miles/overhaul 
or replacement
$
/year
$
How much does an engine 
overhaul or new vehicle cost?
How many miles between 
overhauls or vehicle replacement?
5
How many miles between 
oil changes?
How much does an oil 
change cost?
Add values in right-hand column
Preventive Maintenance Cost1
Overhaul or Replacement Cost1
/year
$
Total Avoidable Idling Costs
=
Calculate Costs for Idling Reduction (IR) – Device and/or Electrified Parking Space (EPS)
6
gallons/hour
hours/year
X
How much fuel is used by the 
IR device?
How many hours each year could 
you use IR devices instead of idling?*
7
=
/year
$
Operating Cost for On-board IR Device
8
/hour
X
hours/year
$
=
/year
$
$
Total Operating Costs for IR
Cost per hour to plug into EPS
How many hours each year could 
you use EPSs instead of idling?*
Calculate Savings from IR
9
10
=
years
Payback Time
* Total number of hours from lines 6 and 8 should equal the number of hours in line 1.
1. TMC Recommended Practice 1108, “Analysis of Costs from Idling and Parasitic Devices for Heavy Duty Trucks” 
(2003). Technology & Maintenance Council, American Trucking Associations (TMC/ATA).
X
miles/gallon
miles/year
=
“Miles of idling”1 (idling is like 
putting miles on your engine)
What is your average fuel 
economy?
=
/mile
$
miles/year
X
miles/year
X
=
/mile
$
“Miles of idling”
“Miles of idling”
X
/gallon
$
/year
= $
Price of fuel (same as price listed 
in line 1)
Fuel cost for IR device
/year
/year
+ $
$
Maintenance cost for IR device
=
/year
/year
+ $
Cost to plug in
$
/year 
saved
$
÷
Capital cost of on-board IR device
SAVINGS Line 5 − Line 8
=
gallons/year
A
B
A
B
=
gallons saved/year


How Much Fuel Is Used for Idling?
 Vehicle Type
Class
Fuel Type
Size Indicator
Idling Fuel Use (gal/h)
Source
Engine Size
(l)
GVWR 
(lb)
No load
With load
 Passenger Car (Ford Focus)
1
G
2
−
0.16
0.29
ANL 1
 Passenger Car (Volkswagen Jetta)
1
D
2
−
0.17
0.39
ANL 1
 Passenger Car (Ford Crown Victoria)
1
G
4.6
−
0.39
0.59
ANL 1 & 2
 Medium Heavy Truck
6
G
5–7
19,700–26,000
0.84
−
WVU
 Delivery Truck
5
D
−
19,500
0.84
1.11
NREL
 Tow Truck
6
D
−
26,000
0.59
1.142
ORNL
 Medium Heavy Truck
6–7
D
6–10
23,000–33,000
0.44
−
WVU
 Transit Bus
7
D
−
30,000
0.97
−
ORNL
 Combination Truck
7
D
−
32,000
0.49
−
ORNL
 Bucket Truck
8
D
−
37,000
0.90
1.502
ORNL
 Tractor-Semitrailer
8
D
−
80,000
0.64
1.153,1
TMC
Other Idling Reduction Resources
n IdleBox www.cleancities.energy.gov/idlebox
n IdleBase http://cleancities.energy.gov/idlebase
n National Idling Reduction Network News energy.gov/eere/vehicles/vehicle-technologies-office-national-idling-reduction-network-news
n Argonne National Laboratory http://www.transportation.anl.gov/engines/idling.html
n Alternative Fuels Data Center http://www.afdc.energy.gov/conserve/idle_reduction_basics.html
D = diesel. G = gasoline. Gal = gallon(s). GVWR = gross vehicle weight rating. h = hour(s). l = liter(s). lb = pound(s). PTO = power take-off.
1. High idle.
2. PTO on.
3. Air conditioning on.
Sources
ANL 1: Stutenberg,  K., and Lohse-Busch, H. “APRF [Advanced Powertrain Research Facility at Argonne National Laboratory] Conventional Vehicles Snapshot Study.” Presentation to U.S. DOE, December 2, 2012.
ANL 2: Rask, E.; Keller, G.; Lohse-Busch, H.; et al. (2013). “Final Report: Police Cruiser Fuel Consumption Characterization.” Work performed by Argonne National Laboratory for the Illinois Tollway Authority.
NREL: National Renewable Energy Laboratory Project Draft Final Report for the Period August 1, 2012, through March 31, 2014, “Data Collection, Testing and Analysis of Hybrid Electric Trucks and Buses Operating in California Fleets.” ARB Agreement Number 
11-600, NREL Contract Number FIA-12-1763, April 15, 2014.
ORNL: Lascurain, M.B.; Franzese, O.; Capps, G.; et al. (2012). Medium Truck Duty Cycle Data from Real-World Driving Environments: Project Final Report (ORNL/TM-2012/240). Work performed by Oak Ridge National Laboratory for the U.S. DOE. 
TMC: TMC Recommended Practice 1108, “Analysis of Costs from Idling and Parasitic Devices for Heavy Duty Trucks” (2003). Technology & Maintenance Council, American Trucking Associations (TMC/ATA).
WVU: Khan, ABM S.; Clark, N.N.; Gautam, M.; et al. (2009). “Idle Emissions from Medium Heavy Duty Diesel and Gasoline Trucks.” Journal of the Air & Waste Management Association (59:3) 354–359.


APPENDIX
3
MODEL SOLAR 
SUPPORTIVE ZONING 
ORDINANCE


Sustainable Jersey 
Guidance for Creating A Solar Friendly Zoning Ordinance 
Version 1.0 
April 2017 
 
 
GUIDANCE FOR CREATING A SOLAR FRIENDLY ORDINANCE 
 
 
The purpose of this Sustainable Jersey Guidance document is to assist municipalities in crafting a solar 
ordinance that meets the objectives outlined in the Make Your Town EV Friendly Action and that is best 
suited to each community’s character and land use objectives.   
 
Discussion and sample language regarding the following areas is included in this guidance:  
 
Intent/Background/Purpose 
-- Address goals and benefits of solar/renewable energy 
Definitions 
-- Define solar technologies and terms 
General Regulations 
-- Address issues such as height, size, setbacks, and lot coverage 
Permitting Fees 
-- Establish permitting fees for residential rooftop solar PV installations 
 
 
INTENT/BACKGROUND/PURPOSE 
 
o The purpose will generally highlight the benefits of solar for the community: environmental, 
energy security, economic, etc. 
o If the ordinance is a “stand-alone” ordinance, the municipality may wish to tie the regulations 
back to New Jersey’s Municipal Land Use Law by referencing applicable language that may apply 
to solar (e.g., health, safety, welfare). 
 
This section should: 
 
o Clarify a municipality’s rationale for establishing a solar energy ordinance in language that is 
compatible with existing local land use plans and zoning code.  
o Clarify the types of solar systems the municipality is protecting through the ordinance (small-
scale, utility scale, etc.). 
 
Sample Language for Intent/Background/Purpose: 
 
The purpose of this Ordinance is to provide a clear-cut regulatory system for solar energy, a 
renewable and non-polluting energy resource that reduces fossil fuel emissions, including 
greenhouse gases that contribute to global climate change. The specific goals of the [Master 
Plan/Climate Plan] of [Municipality] support renewable energy and the use of solar energy is 
encouraged by New Jersey legislation. 
 
OR 
The purpose of the Ordinance is to facilitate the construction, installation and operation of Solar 
Energy Facilities in [Municipality] in a manner that protects public health, safety and welfare and 
avoids significant impacts to protected resources such as important agricultural lands, endangered 


Sustainable Jersey 
Guidance for Creating A Solar Friendly Zoning Ordinance 
Version 1.0 
April 2017 
 
 
species, high value biological habitats and other protected resources. It is the intent of this ordinance 
to encourage solar facilities that reduce reliance on fossil fuels, increase local economic development 
and job creation, reduce greenhouse gas emissions, assist New Jersey in meeting its Renewable 
Portfolio Standards, and/or promote economic development diversification. 
 
OR 
The purpose of this ordinance is to provide a regulatory framework for the construction of Solar 
Energy Systems in [Municipality], subject to reasonable restrictions, which will preserve the public 
health, safety, and welfare, while also maintaining the character of [Municipality]. 
 
OR 
The purpose of this ordinance is to provide for the use of solar energy, including specifications 
related to the land development, installation and construction of solar energy systems in 
[Municipality], subject to reasonable conditions to protect the public health, safety, and welfare. This 
section applies to solar energy systems to be installed and constructed on any property. 
 
What NOT to do 
 
Purpose sections should not: 
 
 
include specific goals such as number of megawatts (MW) or number of projects; 
 
make reference to specific types of technology that could quickly become outdated or 
impractical. 
 
Not specifying PV system size and/or technology allows for innovation and advancement in PV 
technology where a smaller amount of land or roof space could result in a larger capacity system (as 
measured in W or kW). 
 
 
DEFINITIONS 
 
o Each municipality should consider its requirements for the types of solar facilities it envisions for 
its community when considering which definitions to utilize in the Ordinance. 
o Any term used in the text of the ordinance must be defined. The definition of each term can 
greatly impact how an ordinance is enforced; providing accurate definitions of these terms will 
ensure clarity in the enforcement of the ordinance. Definitions may be included in the body of 
the alternative energy ordinance, if it is a stand-alone ordinance, or may be incorporated into 
the Definitions section of the solar ordinance.  
 
This section should: 
 
o Clearly define each term specific to solar energy systems included in the ordinance.  
o Provide separate definitions for small scale accessory use (Solar Energy System) and utility scale 
principal use (Solar Energy Facility) so that they can be regulated distinctly.   
o Provide definitions of solar energy system types such as: roof-mounted, ground-mounted, and 
building-integrated. 
 


Sustainable Jersey 
Guidance for Creating A Solar Friendly Zoning Ordinance 
Version 1.0 
April 2017 
 
 
Sample Language for Definitions: 
 
 
Solar Energy System – Accessory Use  
 
An energy system that consists of one or more solar collection devices, solar energy related 
“balance of system” equipment, and other associated infrastructure with the primary intention 
of generating electricity, storing electricity, or otherwise converting solar energy to a different 
form of energy. Solar energy systems may generate energy in excess of the energy requirements 
of a property only if it is to be sold back to a public utility in accordance with the NJ Net Metering 
law [see Note below on net-metering in New Jersey].   
 
OR 
 
A solar energy system – accessory use consists of one (1) or more photovoltaic, concentrated 
solar thermal, or solar hot water devices either free-standing ground, building integrated or roof 
mounted, as well as related equipment which is intended for the purpose of reducing or meeting 
the energy needs of the property’s principal use. 
 
These definitions include physically what a solar energy system is (can be solar hot water or PV), 
how it is to be used. 
These definitions apply only to accessory use systems. These definitions do not allow utility-
scale use. 
Note on net-metering in New Jersey:  
 
Net metering helps customers maximize their renewable energy investments.  It enables 
customers to obtain full retail credits on their utility bill for each kWh of electricity their 
system produces up to 100% of their electricity usage over the course of a year. 
 
When a renewable energy system produces more electricity than the customer actually 
uses, the customer will be compensated with credits at the full retail value of the 
electricity for the production over and above what they use.  For example, on a typical 
sunny day at moderate temperatures, a customer with a solar system may use less 
electricity than the system actually generates. When electricity production exceeds 
usage, the utility meter will spin backwards and provide the customer with credits for 
the excess energy produced. These credits can be used by customers as needed. 
 
For more information, see: http://www.njcleanenergy.com/renewable-
energy/programs/net-metering-and-interconnection 
 
 
Solar Energy Facility – Principal Use  
 
An alternative energy facility that consists of one or more ground-mounted, free-standing, or 
building-integrated solar collection devices, solar energy related equipment and other associated 
infrastructure with the primary intention of generating electricity or otherwise converting solar 
energy to a different form of energy for primarily off-site use. 
 
OR 
 


Sustainable Jersey 
Guidance for Creating A Solar Friendly Zoning Ordinance 
Version 1.0 
April 2017 
 
 
An area of land or other area (e.g. parking lot canopy, landfill, brownfield, etc.) used for a solar 
collection system principally used to capture solar energy, convert it to electrical energy or 
thermal power and supply electrical or thermal power primarily for off-site use.  Principal solar 
energy systems consist of one (1) or more free-standing ground, or roof mounted solar collector 
devices, solar related equipment and other accessory structures and buildings including light 
reflectors, concentrators, and heat exchangers, substations, electrical infrastructure, 
transmission lines and other appurtenant structures.  
 
 
This definition applies to ordinances that choose to address utility-scale solar energy 
facilities.  Such facilities would be considered a principal use. 
 
 
 
Ground-Mounted Solar Energy System  
 
A solar energy system that is directly installed on solar racking systems, which are attached to an 
anchor in the ground and wired to connect to an adjacent home or building. Ground-mounted 
systems may be appropriate when insufficient space, structural and shading issues, or other 
restrictions prohibit rooftop solar. 
 
 
A ground mounted solar energy system is a subset or particular type of solar energy 
system that may require additional restrictions or review. Municipalities may wish to 
impose specific regulations on ground-mounted solar energy systems, in which case, a 
definition would be important to include. 
 
 
 
Solar Farm or Solar Garden 
 
A set of solar collection devices designed to capture sunlight and convert it to electricity primarily 
for offsite consumption and use; some electricity may be used by an onsite building or structure.   
 
 
Solar gardens can be designed as community solar systems in which community 
members can own shares in the solar system; subscribe to receive the generated solar 
power; or can purchase the output of the solar system to offset their own utility bills. 
[Sample language for solar gardens from: Southern NH Planning Commission. Solar 
Friendly Best Planning Practices, p. 4:  snhpc.org/pdf/ FinalSolarResourceGuide2015.pdf] 
 
What NOT to do 
 
• 
Definition section should not specify the electrical size of the PV system (i.e. defining a small 
scale system as equal to or less than 100 kW).  Not specifying PV system size allows for 
innovation and advancement in PV technology where a smaller amount of land or roof space 
could result in a larger capacity system (as measured in W or kW). 
• Definitions sections should not address concerns about system siting; these concerns should be 
addressed through appropriate use, setback, or height restrictions to ensure that the land use 
and siting goals are met no matter the system size.  This allows more flexibility to those who 
wish to site or install solar on their roof. 
 


Sustainable Jersey 
Guidance for Creating A Solar Friendly Zoning Ordinance 
Version 1.0 
April 2017 
 
 
GENERAL REGULATIONS 
 
The general regulations are guidelines or added requirements that may be integrated into the local 
review process. This section of the ordinance can present regulations that the municipality may include 
in the ordinance, such as height, setbacks, aesthetics/screening, and impervious coverage.  
 
This section should clarify approval standards that: 
 
 
may be imposed upon specific types of solar energy systems (i.e., ground-mounted/freestanding 
versus roof-mounted); 
 
may be imposed upon specific districts; or 
 
may be generally applied to all solar energy systems. 
 
Setbacks 
 
Ground-Mounted:  For ground-mounted solar energy systems, setback requirements can help 
alleviate aesthetic and safety concerns, yet overly restrictive setback requirements can limit the 
available space in which a solar PV array can be sited. Since solar PV panels rely on adequate access 
to sunlight, municipalities may want to consider easing setback requirements for ground-mounted 
solar PV systems. 
 
Sample Language for Ground-Mounted: 
 
The location of the Ground-Mounted System shall meet all applicable accessory-use setback 
requirements of the zoning district in which it is located. 
 
OR 
All Ground-Mounted Systems shall be set back a distance of ____ feet from any property line in a 
residential zoning district or in conformance with the area and bulk standards for accessory 
structures in commercial districts as provided herein.  
 
OR 
Ground-Mounted Systems shall not be permitted in a front yard unless the applicant 
demonstrates that the rear yard locations will not result in acceptable solar access. 
 
Roof-Mounted:  Setback regulations for roof-mounted systems can ensure that adequate pathways 
exist for access along roof edges and ridge lines for first responders in case of a fire or for 
maintenance crews in the case of system repair.  The minimum construction requirements can be 
found in the NJ Editions of the National Electrical Code, International Building Code (and by 
reference, International Fire Code), and International Residential Code, as applicable.   Items not 
covered within these codes may be added to a local ordinance. 
 
Sample Language for Roof-Mounted: 
 
 
The design of the solar energy system shall conform to applicable local, state and national solar 
codes and standards. A building permit reviewed by department staff shall be obtained for a 


Sustainable Jersey 
Guidance for Creating A Solar Friendly Zoning Ordinance 
Version 1.0 
April 2017 
 
 
solar energy system. All design and installation work shall comply with all applicable provisions 
in the National Electric Code (NEC), the International Residential Code (IRC), International 
Commercial Building Code, State Fire Code, and any additional requirements set forth by the 
local utility (for any grid-connected solar systems).  [Sample language from: Solar Simplified, p. 
9:  solarsimplified.org/zoning/solar-zoning-toolbox/solarzoningordinance] 
 
Height:  Height regulations can help alleviate local land use concerns over aesthetics (e.g. how much of 
the system can be seen from the street). However, height restrictions can prevent a solar PV system 
from being installed if the building on which it is sited is already at maximum allowed height if the 
municipality does not specify an exemption for the system in its ordinance. Separate height language 
options are provided for sloped and flat roofs. In communities with both sloped and flat roof types, it 
may be most appropriate to include separate regulations by roof type. 
 
Sample Language for Height Regulations: 
 
Height – Sloped Roof 
For a roof-mounted system installed on a sloped roof, the highest point of the system shall not 
exceed the highest point of the roof to which it is attached as allowed by setback requirements. 
 
Height – Flat Roof 
For a roof-mounted system installed on a flat roof, the highest point of the system shall be 
permitted to exceed the district’s height limit by up to fifteen (15) feet above the rooftop to 
which it is attached. 
 
Height – Ground-Mounted 
Ground-mounted or freestanding solar energy systems shall not exceed applicable maximum 
accessory structure height in the zoning district in which the solar energy system is located. 
 
Height – Parking Canopies 
A solar energy system may exceed the applicable maximum accessory structure height if it will 
cover an impervious surface parking area. Height may not exceed the height of the primary 
structure that the parking area serves. Minimum height of the parking canopy must allow 
clearance for emergency service and service vehicles. 
 
What NOT to do 
 
If an ordinance is designed and enforced properly, the height and setback restrictions should alleviate 
aesthetic concerns about solar PV systems.  Therefore, municipalities should not over-regulate for 
aesthetic concerns such as: 
 
 
conspicuous panels that are visible from the street, 
 
conspicuous equipment tied to the panels, or 
 
glare. 
 
 


Sustainable Jersey 
Guidance for Creating A Solar Friendly Zoning Ordinance 
Version 1.0 
April 2017 
 
 
SPECIAL CONSIDERATIONS:  HISTORIC DISTRICTS 
 
Municipalities with historic districts should work with their Historic Preservation Commission to 
determine whether there will be restrictions on solar PV installations in historic districts that will require 
review. If design guidelines, siting restrictions, or review requirements exist, they should be laid out 
explicitly in the ordinance to ensure that a clear and understandable review process is known to the 
applicant. Review processes add time and added labor cost through delayed installations, so 
municipalities should attempt to make solar provisions for historic districts minimally restrictive. Below 
are two examples of design guidelines for installing solar on historic properties. 
 
 
Implementing Solar PV Projects on Historic Buildings and in Historic Districts, National 
Renewable Energy Laboratory: 
www.nrel.gov/docs/fy11osti/51297.pdf 
 
Installing Solar Panels on Historic Buildings, North Carolina Solar Center: 
nccleantech.ncsu.edu/wp-content/uploads/Installing-Solar-Panels-on-Historic-
Buildings_FINAL_2012.pdf 
 
Solar Panels on Historic Properties, National Park Service: 
www.nps.gov/tps/sustainability/new-technology/solar-on-historic.htm 
 
Sample Language for Historic Districts: 
 
Solar energy systems within a historic district or on a historic resource property are not 
permitted unless written approval or a Certificate of Appropriateness has been granted by the 
Historic Preservation Commission as established by [historic preservation ordinance]. 
 
OR 
All solar energy systems/facilities within [historic district/overlay/etc.] or on a historic resource 
property as defined by [the municipal inventory/register/etc.] must follow the administrative 
procedures required by [historic preservation ordinance]. 
 
 
SPECIAL CONSIDERATIONS:  TREES 
 
While it is true that shade of any kind interferes with a solar energy system’s ability to operate, 
removing trees to install solar technology is generally not recommended.  However, there are legitimate 
arguments for and against removing trees to accommodate solar panels.  There is no clear right answer 
and much of the calculus depends on the values and objectives of each community.  Municipalities are 
encouraged to consider if this is an issue warranting local regulation.  If there is an existing tree 
protection ordinance, for example, the municipality can determine if solar panels should be given any 
special consideration and amend the ordinance accordingly.  
 
 


Sustainable Jersey 
Guidance for Creating A Solar Friendly Zoning Ordinance 
Version 1.0 
April 2017 
 
 
PERMITTING FEES 
 
Using a flat-fee method instead of a value-based method to assess permit fees streamlines the process 
and ensures that larger residential solar energy systems are not arbitrarily penalized.  Fees should fairly 
reflect the time needed for city staff to review and issue a permit as these costs to the municipality 
remain constant regardless of system size for standard residential roof-mounted arrays.  
 
The permitting fee ordinance should: 
 
Establish reasonable residential permit fees in line with NJAC 5:23-4.20:  
 
NJAC 5:23-4.20 (c) 2. iii. (13) For photovoltaic systems, the fee shall be based on the designated 
kilowatt rating of the solar photovoltaic system as follows: 
(A) One to 50 kilowatts, the fee shall be $ 65.00; 
(B) Fifty-one to 100 kilowatts, the fee shall be $ 129.00; and 
(C) Greater than 100 kilowatts, the fee shall be $ 640.00. 
 
The municipality should strive to set a fee that covers the cost of average plan review and inspections. 
To set the fee, the municipality can multiply the billable hourly rates for staff involved in the review 
process that can be expected for 80% of permit submittals.  Examples of these calculations are provided 
in the Department of Energy SunShot document Best Management Practices for Solar Installation, which 
can be found at:  marc.org/Environment/Energy/pdf/BMP-Process-Step-2-1-A-Standardize-Permit-
Fees.aspx 
 
What NOT to do 
 
Fees based on the size or value of the solar PV installation unfairly penalize homeowners even though 
the cost to process the permit application for both systems is approximately the same.  For example, the 
permit application for a smaller residential solar PV system costs the municipality approximately the 
same amount to process as a larger residential solar PV system, but a value-based fee structure can 
result in higher fees being assessed for the larger system.  Fees should be set that reflect the time 
needed for staff to process the application. 
 
 
 
 
 


Sustainable Jersey 
Guidance for Creating A Solar Friendly Zoning Ordinance 
Version 1.0 
April 2017 
 
 
Resources 
 
Zoning and Permitting Background Documents  
 
American Planning Association (APA). Briefing Papers #3: Integrating Solar into Local Plans. 
www.planning.org/research/solar/briefingpapers/localplans.htm 
 
American Planning Association (APA). Briefing Papers #4: Integrating Solar into Local Development 
Regulations. 
www.planning.org/research/solar/briefingpapers/localdevelopmentregulations.htm 
 
American Planning Association (APA). Briefing Papers #5: Balancing Solar Energy Use with Potential 
Competing Interests. [includes guidance on historic districts and trees] 
www.planning.org/research/solar/briefingpapers/potentialcompetinginterests.htm 
 
Delaware Valley Regional Planning Commission.  Renewable Energy Ordinance Framework for Solar PV. 
www.dvrpc.org/EnergyClimate/ModelOrdinance/Solar/pdf/2016_DVRPC_Solar_REOF_Reformatted_Fin
al.pdf 
 
EnergizeCT. Connecticut Rooftop Solar PV Permitting Guide.  
www.energizect.com/sites/default/files/uploads/%281%29%20CT%20Rooftop%20Solar%20PV%20Perm
itting%20Guide%20v1.0.pdf 
 
Grow Solar. Creating “Solar Ready” Communities: Three State Regional Analysis (Minnesota, Wisconsin, 
Illinois).  www.growsolar.org/wp-content/uploads/2015/05/Three-State-Regional-Analysis.pdf 
 
Interstate Renewable Energy Council (IREC) and VoteSolar.  Project Permit: Best Practices in Residential 
Solar Permitting.  
projectpermit.org/wp-content/uploads/2013/05/Solar-Permitting-Best-Practices_May2013.pdf 
 
Interstate Renewable Energy Council (IREC). Simplifying the Solar Permitting Process: Residential Solar 
Permitting Best Practices Explained. 
www.irecusa.org/publications/residential-solar-permitting-best-practices-explained/ 
 
Massachusetts Department of Energy Resources. Questions and Answers: Ground-Mounted Solar 
Photovoltaic Systems.  
www.mass.gov/eea/docs/doer/renewables/solar/solar-pv-guide.pdf 
 
Metropolitan Area Planning Council (MAPC, Massachusetts). Guide to Streamlining the Solar PV 
Permitting Process and Developing Supportive Zoning Bylaws. 
www.mapc.org/system/files/bids/Solar%20Permitting%20and%20Zoning%20Bylaws.pdf 
 
Minnesota. Local Government Solar Toolkit: Planning, Zoning, and Permitting. 
www.cleanenergyresourceteams.org/sites/default/files/MinnesotaPZPToolkit1.pdf 
 


Sustainable Jersey 
Guidance for Creating A Solar Friendly Zoning Ordinance 
Version 1.0 
April 2017 
 
 
State of Washington Department of Commerce. Planning and Zoning: Opportunities for Local 
Governments to Support Rooftop Solar.  
nwsolarcommunities.org/wp-content/uploads/2013/05/ESSP_PlanningZoning.pdf 
 
U.S. Department of Energy. Office of Energy Efficiency and Renewable Energy (EERE). Solar Powering 
Your Community: A Guide for Local Governments.  
www1.eere.energy.gov/solar/pdfs/47692.pdf 
 
 
Sample Zoning Ordinances 
 
Borough of Glassboro (Gloucester County, NJ). Chapter 107. Development Regulations. Article IV. Design 
and Performance Standards.§ 107-72. Solar energy systems. [Added 9-8-2009 by Ord. No. 09-45] 
ecode360.com/12606957 
 
City of Chicago Solar Zoning Ordinance.  
www.cityofchicago.org/content/dam/city/depts/zlup/Sustainable_Development/Publications/City_of_C
hicago_Solar_Zoning_Policy_Updated.pdf 
 
Southern New Hampshire Planning Commission. Solar Friendly Best Planning Practices for New 
Hampshire Communities: A Quick Resource Guide for Planning Boards and Municipal Officials in Crafting 
Solar Friendly Regulations and Developing Solar Friendly Communities in New Hampshire. 
www.snhpc.org/pdf/FinalSolarResourceGuide2015.pdf 
 
Utah Clean Energy. Solar Simplified Model Solar Zoning Ordinance.  
www.solarsimplified.org/permitting/solar-zoning-toolbox 
 
Western Pennsylvania Rooftop Solar Challenge. Solar Installation Guidebook.  
www.pennfuture.org/Files/News/SunSHOT_Guide.compressed.pdf 
 


APPENDIX
4
BOULDER, CO SOLAR PV 
SYSTEM CHECKLIST


Form: B/46 • Rev. 01.25.22 • g:/publications/building/b46-solar-photovoltaic-systems-checklist.pdf	
1
Community Planning & Permitting
Courthouse Annex Building
2045 13th Street
PO Box 471
Boulder, CO 80302
Building Safety &
Inspection Services:
EZBP & License Applications,
Reports & Letters
ezbp@bouldercounty.org
303-441-3926
Plan Review & Building Code Questions:
 building@bouldercounty.org 
 720-564-2640 
 www.bouldercounty.org
Boulder County
Community Planning
& Permitting 
Publications
Solar photovoltaic applications are reviewed by the county electrical inspectors. 
The following checklist shall be submitted with your plans. Each item on the list 
shall be marked to verify it is part of the submittal. Incomplete information may 
result in plan rejection or delay in the approval of your project.
All accessory ground-mounted solar arrays require Site Plan Review Waiver 
(SPRW) approval as a part of the permit application.
Plan Submittal Requirements
All ground mounted systems require:
	
R A completed Building Permit application form. Include the proposed PV 
system capacity in watts, and whether system is a stand-alone, grid-tied, or 
hybrid system.
	
R A deposit (the balance of fees is due at the time of permit issuance).
	
R Electronic PDF files are to be submitted to Building Safety & Inspection 
Services through the Online Application Submittals webpage at www.
boco.org/CPP-application-submittal. Minimum drawing scale is ¼” per 
foot.
For roof mounted residential systems:
	
R A completed EZBP application form.
	
R Electronic PDF files are to be submitted to Building Safety & Inspection 
Services through the Online Application Submittals webpage at www.
boco.org/CPP-application-submittal. Minimum drawing scale is ¼” per 
foot.
Site Plan - Equipment Outside a Building
	
R Show the location of all disconnects.
	
R Show the location of all batteries.
	
R Show the location of inverters.
	
R Show the location and connection of all grounding electrode conductors.
	
R Show the clearances around all equipment.
	
R Show dimensions between equipment and structures.
	
R Show dimensions between equipment and property lines.
	
R Show the layout of all the arrays and the required minimum access 
and pathways per section R324 of the Boulder County Building Code 
Amendments.
Note: See the Pole or Ground Mounted Panels section on page 2 for additional 
site plan requirements.
Floor Plan - Equipment Within a Building
	
R Show the location of all disconnects.
	
R Show the location of all batteries.
	
R Show the location of inverters.
	
R Show the location and connection of all grounding electrode conductors.
	
R Show location of all equipment within structures.
	
R Label the use of the room in which the equipment is placed.
	
R Show clearances of the equipment.
Plan Submittal Requirements continued on page 2
Solar Photovoltaic Systems Checklist
Per 2020 NEC (National Electrical Code)
Solar 
Photovoltaic 
Systems 
Checklist


2	
Form: B/46 • Rev. 01.25.22 • g:/publications/building/b46-solar-photovoltaic-systems-checklist.pdf
Wiring Requirements
	
R Provide a one-line diagram that includes the following information:
	
R Label whether the system is stand-alone, grid-tied, or hybrid.
	
R Conductor sizes.
	
R Conductor insulation types (i.e., THHN, THWN, direct burial cable, etc.).
	
R Conductor material (i.e., copper/aluminum).
	
R Conduit sizes.
	
R Conduit material (i.e., non-metallic, EMT, etc.).
	
R Over current device ratings.
	
R Existing and new panel amperage ratings (buss ratings).
	
R Series and parallel configuration of the module connections.
Equipment Requirements
	
R Provide product listing sheets for all equipment with the following information:
	
R Module short circuit current ratings.
	
R Module open circuit voltage ratings.
	
R Module series fuse ratings.
	
R Inverter output circuit current rating.
	
R Inverter UL listings.
	
R All associated documentation (i.e., batteries, inverters, disconnects, modules, charge controllers, over-current 
devices etc.).
	
R Method of grounding for modules and array.
	
R Projected kWH/year for the system.
Note: Voltage correction factor is based on 125% (2020 NEC Table 690.7).
Panels
Roof Mounted Panels
Provide the following information:
	
R An Engineer’s evaluation regarding the dead-load capability of the existing roof structure and its ability to support 
the added weight of the solar photovoltaic system. The Engineer must reference the required wind and snow load 
for the site. If the panels project above the ridge line of the roof, this most also be part of engineers evaluation.
	
R For flat roof installations provide method of repair for roof penetrations.
Pole or Ground Mounted Panels
Provide the following information:
	
Q Site Plan to include the following:
	
R Location of panel(s) on property.
	
R Dimensions from panel(s) to property lines.
	
R Dimensions from panel(s) to other structures on the property and property easements.
	
Q Engineered footing design.
Rough Solar PV Inspections
Beginning Feb. 1, 2011, Boulder County began doing rough solar PV inspections. This inspection should be scheduled 
after the installation of the solar PV racking system, grounding, and no more than 50% of the PV modules. Roof mounted 
junction boxes or DC combiner boxes shall also be installed and wires terminated. In addition to the rough inspection, at 
the completion of the work, Building Safety and Inspection Services will conduct a final inspection.
If you have questions, contact Boulder County Building Safety & Inspection Services at 720-564-2640, or email
building@bouldercounty.org.


APPENDIX
5
DIRECT INSTALL 
BROCHURE


The PSE&G Direct Install Program is designed 
to deliver comprehensive, cost-effective, energy 
efﬁ ciency equipment for eligible PSE&G business 
customers, with 12-month individual facility 
electricity average peak demand usage of less 
than 200 kW. PSE&G can help businesses 
identify energy saving opportunities as part of
the PSE&G Business Energy Saver Program.
Financial incentives are available to reduce the upfront 
cost of installing energy-saving equipment. In addition, 
customers can opt for repayment of the project 
costs with no interest, spread over a ﬁ ve-year period, 
with payment billed on your monthly PSE&G bill. 
PSE&G’s Direct Install Program can help uncover 
hidden facility energy savings that can cut energy 
costs by as much as 30%. When the work is complete, 
customers repay as little as 20% of the total project 
cost—interest-free—over 60 months on their PSE&G 
bill (or in one lump-sum payment, if preferred).
Business Energy Saver Program
The PSE&G Business Energy 
Saver Program incentives help to 
ensure low equipment installation 
costs, short payback periods, and 
reduced energy use, leaving more 
money in your pocket. Savings 
realized through energy efﬁ ciency 
improvements can provide businesses 
with greater opportunity to invest 
in their business, developing or 
enhancing products and services 
that can be revenue generators.
Unlock Direct 
Installation 
Energy Savings 
for Your Facility


Business Energy Saver Program 
How the program works:
  +   The Direct Install Program team 
will verify customer eligibility.
  +   A PSE&G authorized contractor will 
perform an energy assessment at no-cost 
for participating customer facilities. 
  +   The contractor will generate a proposal 
outlining costs, project details and 
participation agreements, and obtain 
all approvals and signatures.
  +   The customer reviews the proposal and 
signs off on the proposed work.   
  +   The PSE&G authorized contractor submits ﬁ nal 
paperwork for processing and project initiation. 
  +   PSE&G performs a post-installation inspection. 
  +   PSE&G provides ﬁ nal approval process 
and ﬁ nal payment notiﬁ cation. 
The Direct Install Program 
beneﬁ ts customers by:
  +   Paying for 100% of up-front costs. 
  +   Providing a free on-site energy audit 
and detailed project cost estimate.
  +   Recommending energy efﬁ ciency upgrades.
  +   Executing all work through PSE&G 
authorized contractors.
  +   Lowering energy costs by installing 
energy-efﬁ cient equipment. 
  +   Helping to increase facility operational efﬁ ciencies.
  +   Creating the foundation for business 
facility operational efﬁ ciency. 
  +   Creating a safer and more comfortable 
workplace for employees. 
  +   Helping meet customer environmental 
goals by reducing the use of outdated 
and inefﬁ cient equipment and supporting 
lower carbon footprint standards.
The US Department of Energy estimates that lighting 
accounts for 40% of energy consumption in commercial facilities. 
Of that total, 30% is used in unoccupied areas. 
For additional information scan this QR code 
or visit bizsave.PSEG.com


APPENDIX
6
BUSINESS ENERGY 
SAVER PROGRAM GUIDE


BizSave.PSEG.com | 1-844-300-PSEG (1-844-300-7734)
October 2022_v2.4
Business Energy 
Saver Program
Prescriptive and Custom Incentive Guide 


BizSave.PSEG.com | 1-844-300-PSEG (1-844-300-7734)
Page 2 - 2022-10-06_v2.4
PSE&G
Commercial and Industrial Incentive Guide
General Eligibility Requirements...............................................................................3
Lighting.....................................................................................................................4
HVAC.......................................................................................................................10
Heating....................................................................................................................16
Water Heating & Boilers..........................................................................................17
Refrigeration............................................................................................................19
Food Service...........................................................................................................21
Miscellaneous.........................................................................................................24
Custom...................................................................................................................26
Table of Contents 
This table of contents is interactive, click on the 
page you would like to navigate to. 


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PSE&G
Commercial and Industrial Incentive Guide
General Eligibility Requirements
•	 The table below contains eligibility requirements and expected incentive values.  Actual incentives may 
vary based on other program requirements and guidelines.
•	 Eligible products must be installed and used in accordance with their rated condition.
•	 All installations must be installed in accordance with all applicable local, state and national codes and 
ordinances.
•	 Program approval is required prior to purchase and installation for custom measures.


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PSE&G
Lighting
LIGHTING
Interior Fixtures & Retrofit Kits
Classification
Incentive
Unit
Eligibility Criteria
1 x 4 LED integrated retrofit kit
$50
per fixture
Eligible fixtures must be 
listed on DesignLights 
Consortium® with DLC 
Primary Use Designation as 
shown and DLC Category: 
Indoor Luminaires
1 x 4 LED new luminaire rated
$50
per fixture
2 x 2 LED integrated retrofit kit
$30
per fixture
2 x 2 LED new luminaire
$40
per fixture
2 x 4 LED integrated retrofit kit
$50
per fixture
2 x 4 LED new luminaire
$50
per fixture
LED direct linear ambient retrofit kit
2 ft.
$15
per fixture
4 ft.
$15
per fixture
8 ft.
$25
per fixture
LED direct/indirect linear ambient new 
luminaire
2 ft.
$30
per fixture
3 ft.
$30
per fixture
4 ft.
$60
per fixture
6 ft.
$75
per fixture
8 ft.
$100
per fixture
LED Track or Mono-point Directional 
Lighting Fixtures
$30
per fixture
Eligible fixtures must be 
listed on DesignLights 
Consortium® with DLC 
Primary Use Designation 
as shown and DLC 
Category: Indoor 
Luminaires
LED Wall-Wash Luminaires
$30
per fixture
High Bay LED
5000 - 9,999 
Lumens
$100
per fixture
10,000 to 19,999 
Lumens
$150
per fixture
20,000 to 29,999 
Lumens
$200
per fixture
30,000 to 39,999 
Lumens
$300
per fixture
•	 All new lighting fixtures, retrofit kits and components must carry the appropriate designated 
Underwriters Laboratory (UL) or Electrical Testing Laboratory (ETL) label.
•	 All installations shall be designed and installed in accordance with best practices such as the 
Illuminating Engineering Society of North America (IESNA) Lighting Handbook.
•	 DesignLights Consortium® categories are listed under the Eligibility Criteria. Installed fixtures must be 
listed under that category to qualify for incentives.
•	 If the proposed equipment does not meet the eligibility requirements or is not listed below, the applicant 
may still may be eligible for a Custom Incentive. Contact a PSE&G representative for more details.


BizSave.PSEG.com | 1-844-300-PSEG (1-844-300-7734)
Page 5 - 2022-10-06_v2.4
PSE&G
Lighting
LIGHTING
Interior Fixtures & Retrofit Kits
Classification
Incentive
Unit
Eligibility Criteria
High Bay LED
≥40,000 Lumens
$400
per fixture
Eligible fixtures must be listed 
on DesignLights Consortium® 
with DLC Primary Use 
Designation as shown 
and DLC Category: Indoor 
Luminaires
Low Bay LED
5,000 to 9,999 
Lumens
$100
per fixture
10,000 to 19,999 
Lumens
$150
per fixture
20,000 to 29,999 
Lumens
$200
per fixture
30,000 to 39,999 
Lumens
$300
per fixture
≥40,000 Lumens
$400
per fixture
LED Stairwell and Passageway Luminaires
All Lumens
$50
per fixture
Exterior LED Fixtures
Classification
Incentive
Unit
Eligibility Criteria
LED Architectural Flood and Spot 
Luminaries
up to 4,999 
Lumens
$50
per fixture
DLC Primary Use Designation 
as shown and DLC Category: 
Outdoor Luminaires
5,000 - 9,999 
Lumens
$150
10,000 to 19,999 
Lumens
$250
20,000 to 29,999 
Lumens
$300
30,000 to 39,999 
Lumens
$400
above 40,000 
Lumens
$525
LED Landscape/Accent Flood and Spot 
Luminaires 
LED Parking Garage Luminaires
up to 4,999 
Lumens
$50
per fixture
DLC Primary Use Designation 
as shown and DLC Category: 
Outdoor Luminaires
5,000 - 9,999 
Lumens
$150
10,000 to 19,999 
Lumens
$300
20,000 to 29,999 
Lumens
$350
30,000 to 39,999 
Lumens
$450
above 40,000 
Lumens
$400
LED Bollard Fixtures
up to 4,999 
Lumens
$50
per fixture
DLC Primary Use Designation 
as shown and DLC Category: 
Outdoor Luminaires
5,000 - 9,999 
Lumens
$150
10,000 to 19,999 
Lumens
$175
20,000 to 29,999 
Lumens
$225


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Page 6 - 2022-10-06_v2.4
LIGHTING
Exterior LED Fixtures
Classification
Incentive
Unit
Eligibility Criteria
LED Bollard Fixtures
30,000 to 39,999 
Lumens
$275
per fixture
DLC Primary Use Designation 
as shown and DLC Category: 
Outdoor Luminaires
above 40,000 
Lumens
$350
LED Fuel Pump Canopy
LED Outdoor Pole/Arm- Mounted Area 
and Roadway Luminaires
LED Outdoor Wall-Mounted Area 
Luminaires
up to 4,999 
Lumens
$50
per fixture
DLC Primary Use Designation 
as shown and DLC Category: 
Outdoor Luminaires
5,000 - 9,999 
Lumens
$150
10,000 to 19,999 
Lumens
$300
20,000 to 29,999 
Lumens
$300
30,000 to 39,999 
Lumens
$450
above 40,000 
Lumens
$400
Other LED Fixtures
Classification
Incentive
Unit
Eligibility Criteria
Accent Light Line Voltage  
Bath Vanity 
Cove Mount
up to 1,499 
Lumens
$15
per fixture
ENERGY STAR Certified 
Light Fixtures
1,500 - 2,999 
Lumens
$30
≥3,000 Lumens
$45
Ceiling Mount 
Pendant (Downlight, Decorative, etc.) 
Recessed Downlight 
 Wall Sconces
up to 1,499 
Lumens
$10
per fixture
ENERGY STAR Certified 
Light Fixtures
1,500 - 2,999 
Lumens
$15
≥3,000 Lumens
$20
Linear Strip 
Solid State Retrofit
up to 1,499 
Lumens
$5
per fixture
ENERGY STAR Certified 
Light Fixtures
1,500 - 2,999 
Lumens
$10
≥3,000 Lumens
$15
Outdoor (Various Types) 
Outdoor Pole-Mount
up to 1,499 
Lumens
$30
per fixture
ENERGY STAR Certified 
Light Fixtures
1,500 - 2,999 
Lumens
$30
≥3,000 Lumens
$40
Wrapped Lens
up to 1,499 
Lumens
$5
per fixture
ENERGY STAR Certified 
Light Fixtures
1,500 - 2,999 
Lumens
$20
≥3,000 Lumens
$30
PSE&G
Lighting


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Page 7 - 2022-10-06_v2.4
PSE&G
Lighting
LIGHTING
Security
up to 1,499 
Lumens
$20
per fixture
ENERGY STAR Certified 
Light Fixtures
1,500 - 2,999 
Lumens
$30
≥3,000 Lumens
$40
Under Cabinet
up to 1,499 
Lumens
$11
per fixture
ENERGY STAR Certified 
Light Fixtures
1,500 - 2,999 
Lumens
$16.50
≥3,000 Lumens
$22
LED Lamps
Classification
Incentive
Unit
Eligibility Criteria
LED Linear Replacement Lamps
2 ft.
$4
per lamp
DLC General Application as 
shown and DLC Category: 
Linear Replacement Lamps
3 ft.
$6
4 ft.
$6
8 ft.
$6
High Output LED Linear Replacement 
Lamp
4 ft.
$6
LED U-Bend Lamp
$5
LED 2G11 Base Lamps
$8.50
per lamp
DLC General Application as 
shown and DLC Category: 
Four Pin-Base Replacement 
Lamps for CFLs
LED Hortizontally-Mounted Lamps
$8.50
LED Vertically-Mounted Lamps
$8.50
LED HID Replacement Lamps
Classification
Incentive
Unit
Eligibility Criteria
LED Replacement for HID Lamps
 ≤125W
$50
per lamp
DLC Category: Mogul (E39) 
Screw-base Replacements for 
HID Lamps
 >125W - ≤250W
$75
>250W
$100
LED Bulbs
Classification
Incentive
Unit
Eligibility Criteria
A Lamp
$10
per bulb
ENERGY STAR Certified 
Light Bulbs
BR30
$3
BR40
$3
G16.5
$3
G25
$3
G30
$3
G40
$3


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Page 8 - 2022-10-06_v2.4
PSE&G
Lighting
LIGHTING
LED Bulbs
Classification
Incentive
Unit
Eligibility Criteria
PAR16
$5
per bulb
ENERGY STAR Certified 
Light Bulbs
PAR20
$5
PAR30
$8
R14
$5
R16
$5
R20
$8
Other
$2.50
LED Exit Sign
Classification
Incentive
Unit
Eligibility Criteria
LED Exit Sign
$15
per sign
LED Refrigerated Case Lighting
Classification
Incentive
Unit
Eligibility Criteria
Refrigerated Case Lighting
4 ft.
$50
per fixture
DLC Primary Use Designation 
as shown and DLC Category: 
Indoor Luminaires
5 ft.
$50
6 ft.
$50
LIGHTING CONTROLS
Standalone Lighting Controls
Classification
Incentive
Unit
Eligibility Standard
Dual daylight & occupancy sensor (DOS)- 
integrated into fixture
20w to 149w 
controlled
$30
per fixture
UL or other OSHA-approved 
Nationally Recognized Testing 
Laboratory in accordance 
with applicable US standards
Dual daylight & occupancy sensor (DOS)- 
integrated into fixture
≥150w controlled
$50
per fixture
Daylight continuous dimming control - 
integrated into fixture
20w to 149w 
controlled
$20
per fixture
Daylight continuous dimming control - 
integrated into fixture
≥150w controlled
$40
per fixture
Interior Occupancy/Vacancy Sensor - 
Remote Mounted
$25
per control
Interior Occupancy/Vacancy Sensor -  
Wall Mounted
$25
per control
Interior Occupancy/Vacancy Sensor - 
Integrated
$30
per control
Interior Occupancy Dimming Control - 
Integrated
$15
per control
Interior Occupancy Sensor for Highbay - 
Remote Mounted
$25
per control


BizSave.PSEG.com | 1-844-300-PSEG (1-844-300-7734)
Page 9 - 2022-10-06_v2.4
PSE&G
Lighting
LIGHTING
Network Lighting Controls
Classification
Incentive
Unit
Eligibility Standard
Networked lighting control system 
controlling efficient lurninaires
$0.60
per Watt 
controlled
DLC listed. UL or other 
OSHA-approved Nationally 
Recognized Testing 
Laboratory  in accordance 
with applicable US 
standards
Lurninaire level lighting control - with local 
or cloud server
20W - 149W 
Controlled
$30
per fixture
Lurninaire level lighting control - with local 
or cloud server
≥150W Controlled
$60
per fixture


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Page 10 - 2022-10-06_v2.4
PSE&G
HVAC
HVAC
Packaged Terminal Units
Classification
Qualifying 
Efficiency
Incentive
Unit
Eligibility Standard
PTHP
≥5,000, 
< 7,000 Btu
12.875 EER 
3.48964 COP
$100
per ton
ASHRAE 90.1 2016; Equipment 
must meet or exceed the 
qualiying efficiency listed for the 
applicable classification tiers
≥7,000, 
< 8,000 Btu
12.1025 EER 
3.4093 COP
$100
per ton
≥8,000, 
< 9,000 Btu
11.7935 EER 
3.35574 COP
$100
per ton
≥9,000, 
< 10,000 Btu
11.4845 EER 
3.30218 COP
$100
per ton
≥10,000, 
< 11,000 Btu
11.1755 EER 
3.24862 COP
$100
per ton
≥11,000, 
< 12,000 Btu
10.8665 EER 
3.19506 COP
$100
per ton
≥12,000, 
< 13,000 Btu
10.5575 EER 
3.1415 COP
$100
per ton
≥13,000, 
< 14,000 Btu
10.2485 EER 
3.08794 COP
$100
per ton
≥14,000, 
< 15,000 Btu
9.9395 EER 
3.03438 COP
$100
per ton
≥15,000 Btu
9.785 EER 
3.0076 COP
$100
per ton
PTAC
≥5,000, 
< 7,000 Btu
12.875 EER
$100
per ton
ASHRAE 90.1 2016; Equipment 
must meet or exceed the 
qualiying efficiency listed for the 
applicable classification tiers
≥7,000, 
< 8,000 Btu
12.1025 EER
$100
per ton
≥8,000, 
< 9,000 Btu
11.7935 EER
$100
per ton
≥9,000, 
< 10,000 Btu
11.4845 EER
$100
per ton
•	 Efficiency requirements to comply with ASHRAE.
•	 An AHRI Certificate is required for new electric HVAC units. AHRI Certificates can be downloaded from 
http://www.ahridirectory.org.
•	 Manufacturers Specification Sheet Required


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PSE&G
HVAC
HVAC
Packaged Terminal Units
Classification
Qualifying 
Efficiency
Incentive
Unit
Eligibility Standard
PTAC
≥10,000, 
< 11,000 Btu
11.1755 EER
$100
per ton
ASHRAE 90.1 2016; Equipment 
must meet or exceed the 
qualiying efficiency listed for the 
applicable classification tiers
≥11,000, 
< 12,000 Btu
10.8665 EER
$100
per ton
≥12,000, 
< 13,000 Btu
10.5575 EER
$100
per ton
≥13,000, 
< 14,000 Btu
10.2485 EER
$100
per ton
≥14,000, 
< 15,000 Btu
9.9395 EER
$100
per ton
≥15,000 Btu
9.785 EER
$100
per ton
Single Package Vertical Systems
Classification
Qualifying 
Efficiency
Incentive
Unit
Eligibility Standard
Single Package Vertical Heat 
Pumps - Tier 1
≤ 5.4 tons
10.2 EER 
3.1 COP
$80
per ton
ASHRAE 90.1 2016; Equipment 
must meet or exceed the 
qualiying efficiency listed for the 
applicable classification tiers
Single Package Vertical Heat 
Pumps - Tier 2
≤ 5.4 tons
10.7 EER 
3.2 COP
$160
per ton
Single Package Vertical Heat 
Pumps - Tier 1
> 5.4 and 
≤ 11.25 tons
10.2 EER 
3.1 COP
$80
per ton
Single Package Vertical Heat 
Pumps - Tier 2
> 5.4 and 
≤ 11.25 tons
10.7 EER 
3.2 COP
$160
per ton
Single Package Vertical Heat 
Pumps - Tier 1
> 11.25 and 
≤ 20 tons
10.2 EER 
3.1 COP
$80
per ton
Single Package Vertical Heat 
Pumps - Tier 2
> 11.25 and 
≤ 20 tons
10.7 EER 
3.2 COP
$160
per ton
Single Package Vertical AC - Tier 1
≤ 5.4 tons
10.2 EER
$75
per ton
ASHRAE 90.1 2016; Equipment 
must meet or exceed the 
qualiying efficiency listed for the 
applicable classification tiers
Single Package Vertical AC - Tier 2
≤ 5.4 tons
10.7 EER
$100
per ton
Single Package Vertical AC - Tier 1
> 5.4 and 
≤ 11.25 tons
10.2 EER
$45
per ton
Single Package Vertical AC - Tier 2
> 5.4 and 
≤ 11.25 tons
10.7 EER
$90
per ton
Single Package Vertical AC - Tier 1
> 11.25 and 
≤ 20 tons
10.2 EER
$45
per ton
Single Package Vertical AC - Tier 2
> 11.25 and 
≤ 20 tons
10.7 EER
$90
per ton


BizSave.PSEG.com | 1-844-300-PSEG (1-844-300-7734)
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HVAC
Air Source Heat Pumps
Classification
Qualifying 
Efficiency
Incentive
Unit
Eligibility Standard
Single Package - Tier 1
≤ 5.4 tons
14.3 SEER 
8.2 HSPF
$75
per ton
ASHRAE 90.1 2016; Equipment 
must meet or exceed the 
qualiying efficiency listed for the 
applicable classification tiers
Single Package - Tier 2
≤ 5.4 tons
15.5 SEER 
8.5 HSPF
$100
per ton
 Split System - Tier 1
≤ 5.4 tons
14.3 SEER 
8.4 HSPF
$75
per ton
 Split System - Tier 2
≤ 5.4 tons
15.5 SEER 
8.5 HSPF
$100
per ton
Split and Single Package - Tier 1
> 5.4 and 
≤ 11.25 tons
11.5 SEER 
12.2 IEER 
3.4 COP
$80
per ton
Split and Single Package - Tier 2
> 5.4 and 
≤ 11.25 tons
12.1 SEER 
12.8 IEER 
3.5 COP
$100
per ton
Split and Single Package - Tier 1
> 11.25 and 
≤ 20 tons
11.5 SEER 
11.6 IEER 
3.3 COP
$80
per ton
Split and Single Package - Tier 2
> 11.25 and 
≤ 20 tons
11.7 SEER 
15.0 IEER 
3.3 COP
$100
per ton
Split and  Single Package 
- Tier 1
> 20 tons
9.5 SEER 
10.6 IEER 
3.2 COP
$80
per ton
Split and  Single Package 
- Tier 2
> 20 tons
9.7 SEER 
12.0 IEER 
3.2 COP
$100
per ton
Ductless, Mini Split Air 
Conditioners or Heat Pumps
All Sizes
15.5 SEER 
8.5 HSPF
$125
per ton
Ductless, Mini Split Air 
Conditioners
All Sizes
15.5 SEER
$125
per ton
Ground And Water Heat Pumps
Classification
Qualifying 
Efficiency
Incentive
Unit
Eligibility Standard
Water Source Heat Pump - Tier 1
≤ 1.4 tons
12.4 EER 
4.0 COP
$50
per ton
ASHRAE 90.1 2016; Equipment 
must meet or exceed the 
qualiying efficiency listed for the 
applicable classification tiers
Water Source Heat Pump - Tier 2
≤ 1.4 tons
14.0 EER 
4.8 COP
$100
per ton
Water Source Heat Pump - Tier 1
> 1.4 and
≤ 5.4 tons
13.3 EER 
4.3 COP
$50
per ton
Water Source Heat Pump - Tier 2
> 1.4 and 
≤ 5.4 tons
15.0 EER 
4.5 COP
$100
per ton
Water Source Heat Pump - Tier 1
> 5.4 and 
 ≤11.25 tons
13.3 EER 
4.3 COP
$50
per ton
PSE&G
HVAC


BizSave.PSEG.com | 1-844-300-PSEG (1-844-300-7734)
Page 13 - 2022-10-06_v2.4
PSE&G
HVAC
HVAC
Ground And Water Heat Pumps
Classification
Qualifying 
Efficiency
Incentive
Unit
Eligibility Standard
Water Source Heat Pump - Tier 2
> 5.4 and 
 ≤11.25 tons
15.0 SEER 
4.5 COP
$100
per ton
ASHRAE 90.1 2016; Equipment 
must meet or exceed the 
qualiying efficiency listed for the 
applicable classification tiers
Ground Water Source Heat Pump 
- Tier 1
≤ 11.25 tons
18.4 EER 
3.7 COP
$100
per ton
Ground Water Source Heat Pump 
- Tier 2
≤ 11.25 tons
22.0 EER 
3.9 COP
$500
per ton
Ground Source Heat Pump - Tier 1
≤ 11.25 tons
14.4 EER 
3.2 COP
$100
per ton
Ground Source Heat Pump - Tier 2
≤ 11.25 tons
18.0 EER 
3.6 COP
$500
per ton
Air Cooled - Unitary HVAC
Classification
Qualifying 
Efficiency
Incentive
Unit
Eligibility Standard
Single Package - Tier 1
≤ 5.4 tons
14.3 SEER
$75
per ton
ASHRAE 90.1 2016; Equipment 
must meet or exceed the 
qualiying efficiency listed for the 
applicable classification tiers
Single Package - Tier 2
≤ 5.4 tons
16.0 SEER
$100
per ton
Split System - Tier 1
≤ 5.4 tons
14.0 SEER
$75
per ton
Split System - Tier 2
≤ 5.4 tons
16.0 SEER
$100
per ton
Split and Single Package - Tier 1
> 5.4 and 
 ≤11.25 tons
11.5 EER 
13.0 IEER
$80
per ton
Split and Single Package - Tier 2
> 5.4 and 
 ≤11.25 tons
12.5 EER 
14.0 IEER
$100
per ton
Split and Single Package - Tier 1
> 11.25 and 
≤ 20 tons
11.5 EER 
12.4 IEER
$80
per ton
Split and Single Package - Tier 2
> 11.25 and 
≤ 20 tons
12.0 EER 
14.0 IEER
$100
per ton
Split and Single Package - Tier 1
> 20 and 
≤ 63.33 tons
10.5 EER 
11.6 IEER
$80
per ton
Split and Single Package - Tier 2
> 20 and 
≤ 63.33 tons
11.0 EER 
12.5 IEER
$100
per ton
Central DX Air Conditioner - Tier 1
> 63 tons
9.7 EER 
11.2 IEER
$80
per ton
Central DX Air Conditioner - Tier 2
> 63 tons
10.0 EER 
12.0 IEER
$80
per ton


BizSave.PSEG.com | 1-844-300-PSEG (1-844-300-7734)
Page 14 - 2022-10-06_v2.4
PSE&G
HVAC
VARIABLE FREQUENCY DRIVERS
Variable Frequency Drives (VFD) Measures
Classification
Incentive
Unit
Eligibility Standard
Supply Air Fan VFD 
 
Return Air Fan VFD 
 
Chilled Water or Condenser Water Pump VFD 
 
Heating Hot Water Pump VFD 
 
Water Source Heat Pump VFD 
 
Cooling Tower Fan VFD 
 
Boiler Feedwater Pump VFD
≤ 2 HP
$500 
per drive
Horsepower (HP) refers to 
nameplate HP of the motor 
controlled by the drive. Product 
must be UL Listed, or listed 
by equivalent OSHA Nationally 
Recognized Testing Laboratory.
3 HP
$600 
per drive
4 HP
$700 
per drive
5 HP
$800 
per drive
7.5 HP
$1,150 
per drive
10 HP
$1,400 
per drive
15 HP
$1,750 
per drive
20 HP
$2,000 
per drive
25 HP
$2,500 
per drive
30 HP
$3,000 
per drive
40 HP
$3,500 
per drive
50 HP
$4,000 
per drive
60 HP
$4,500 
per drive
75 HP
$5,000 
per drive
100 HP
$6,000 
per drive
101 HP to 200 
HP 
$50 
per HP
Ventilation Measures
Classification
Incentive
Unit
Eligibility Criteria
90% TE Make-up Air Unit - Gas  Only
$8
per kbtu/
hr
Product must be UL Listed, 
or listed by equivalent OSHA 
Nationally Recognized Testing 
Laboratory (NRTL)
High Speed Fan
24" -  35"
$50
per unit
36" - 47"
$75
per unit
48" - 61"
$100
per unit
EC Motors - HVAC Blower Fan
$150
per 
motor
High Volume Low Speed Fan (HVLS)
16'
$400
per unit
18'
$450
per unit


BizSave.PSEG.com | 1-844-300-PSEG (1-844-300-7734)
Page 15 - 2022-10-06_v2.4
PSE&G
HVAC
Ventilation Measures
Classification
Incentive
Unit
Eligibility Criteria
High Volume Low Speed Fan (HVLS)
20'
$500
per unit
Product must be UL Listed, 
or listed by equivalent OSHA 
Nationally Recognized Testing 
Laboratory (NRTL)
22'
$550
per unit
24'
$600
per unit
HVAC - Other
Classification
Incentive
Unit
Eligibility Criteria
Dual Enthalpy Economizer
≤ 5 tons
$250
per 
control
Product must be UL Listed, 
or listed by equivalent OSHA 
Nationally Recognized Testing 
Laboratory (NRTL)
> 5 tons
$250
per 
control
Motel Room Guest Occupancy Sensor - 
Electric Only
$75
per unit
Hotel Guest Room Occupancy Sensor - 
Electric Only
$75
per unit
Smart Thermostat Electric AC & Heat
$100
per unit
Smart Thermostat Electric AC &  Gas  Heat
$100
per unit
EC Motors - Hydronic Pump
< 1HP
$150 
per unit
Horsepower (HP) refers to 
nameplate HP of the motor 
controlled by the drive. Product 
must be UL Listed, or listed 
by equivalent OSHA Nationally 
Recognized Testing Laboratory.
1 HP 
$150 
per unit
 2 HP
$175 
per unit
3 - 5 HP
$250 
per unit
6 - 10 HP
$500 
per unit
11+ HP
$750 
per unit


BizSave.PSEG.com | 1-844-300-PSEG (1-844-300-7734)
Page 16 - 2022-10-06_v2.4
PSE&G
Heating
HEATING
Gas Furnace & Unit Heater
Classification
Qualifying 
Efficiency
Incentive
Unit
Eligibility Standard
Gas Furnace
< 225 kBtu
95% AFUE
$800 
per unit
ENERGY STAR
< 225 kBtu
97% AFUE
$1,000 
per unit
≥ 225 kBtu 
95% AFUE
$800 
per unit
≥ 225 kBtu 
97% AFUE
$1,000 
per unit
Condensing Unit Heater
All Sizes
 90% AFUE
$750 
per unit
Gas Heater
Classification
Incentive
Unit
Eligibility Criteria
Gas Infrared Heater
≤ 100 Mbtu/h
$750 
per unit
Product must be UL Listed, or listed by 
equivalent OSHA Nationally Recognized 
Testing Laboratory (NRTL)
> 100 Mbtu/h
$500 
per unit
Tune Ups - Gas Only
Classification
Incentive
Unit
Eligibility Criteria
Boiler Tune-up
All Sizes
$1
per kBtu
Before / After Combustion Analysis  
Results Required
Furnace Tune Up
All Sizes
$150 
per 
Furnace
Economizer
Classification
Incentive
Unit
Eligibility Criteria
Fuel Use Economizer
$1,200 
per unit
•	 Equipment must meet or exceed the qualiying efficiency listed for the applicable classification tiers.


BizSave.PSEG.com | 1-844-300-PSEG (1-844-300-7734)
Page 17 - 2022-10-06_v2.4
PSE&G
Water Heating & Boilers
WATER HEATING & BOILERS
Gas Condensing Boilers
Classification
Qualifying 
Efficiency
Incentive
Unit
Eligibility Standard
Hot water, condensing 
boiler - Tier 1
< 300 MBH
90% AFUE
$750 
per 
Boiler
≥ 300 to 
≤ 2500 MBH
88% TE
$3 
per MBH
CEE Tier 1
> 2500 to 
≤ 4000 MBH
81% TE
$3 
per MBH
Hot water, condensing 
boiler - Tier 2
< 300 MBH
95% AFUE
$850 
per 
Boiler
ENERGY STAR
≥ 300 to 
≤ 2500 MBH
94% TE
$3.50 
per MBH
> 2500 to 
≤ 4000 MBH
88% TE
$3.50 
per MBH
Gas Non-Condensing Boilers
Classification
Qualifying 
Efficiency
Incentive
Unit
Eligibility Criteria
Hot water, non-condensing boiler 
< 300 MBH
85% AFUE
$1.50 
per MBH
≥ 300 to 
≤ 1500 MBH
85% TE
$1.75 
per MBH
> 1500 to 
≤ 2500 MBH
85% TE
$1.50 
per MBH
> 2500 to 
≤ 4000 MBH
85% CE
$1.50 
per MBH
Steam, all except natural draft, 
non-condensing boiler
< 300 MBH
82% AFUE
$2 
per MBH
≥ 300 to 
≤ 2500 MBH
81% TE
$2 
per MBH
> 2500 to 
≤ 4000 MBH
81% CE
$2 
per MBH
Steam, natural draft, non-
condensing boiler
< 300 MBH
82% AFUE
$2 
per MBH
≥ 300 to 
≤ 2500 MBH
82% TE
$1 
per MBH
2500 to 
≤ 4000 MBH
82% CE
$1 
per MBH
Gas Water Heaters
Classification
Qualifying 
Efficiency
Incentive
Unit
Eligibiity Standard
DHW, Instant, Gas-Fired
≤ 200,000 Btuh
> 90% TE
$750 
per unit
ENERGY STAR
> 200,000 Btuh
> 90% TE
$1,000 
per unit
•	 Equipment must meet or exceed the qualiying efficiency listed for the applicable classification tiers


BizSave.PSEG.com | 1-844-300-PSEG (1-844-300-7734)
Page 18 - 2022-10-06_v2.4
PSE&G
Water Heating & Boilers
Gas Water Heaters
Classification
Qualifying 
Efficiency
Incentive
Unit
Eligibiity Standard
DHW Storage, Gas-Fired
< 75,000 Btuh
> 0.67 EF or 
0.64 UEF
$350 
per unit
ENERGY STAR
< 75,000 Btuh
 > 0.81 UEF
$500 
per unit
> 75,000 to 
< 105,000 Btuh
> 82% TE
$500 
per unit
> 75,000 to 
< 105,000 Btuh
> 94% TE
$750 
per unit
> 105,000 Btuh
> 82% TE
$500 
per unit
> 105,000 Btuh
 > 94% TE
$750 
per unit
Condensing Integrated Boiler and 
Water Heater
≤ 300 MBH
92% AFUE
$1,300 
per unit
> 300 MBH
94% TE
$1,500 
per unit
Electric Water Heaters
Classification
Qualifying 
Efficiency
Incentive
Unit
Eligibility Criteria
Heat Pump Electric Storage 
Water Heater
size > 55 gallons
$1,000 
per unit
Equipment must be qualified 
by the current version 
 of ENERGY STAR
size ≤ 55 gallons
$750 
per unit
Water Heating - Other
Classification
Incentive
Unit
Eligibility Standard
Boiler Outside Air Reset Control
Gas
$1 
per kBtu
Hot Water Recirculating system 
with demand control/temperature 
modulation - Dormitory 
Gas
$20 
per 
Dwelling 
Unit
Hot Water Recirculating system 
with demand control/temperature 
modulation - Multi Family
Gas
$40 
per 
Dwelling 
Unit


BizSave.PSEG.com | 1-844-300-PSEG (1-844-300-7734)
Page 19 - 2022-10-06_v2.4
PSE&G
Refrigeration
REFRIGERATION
Refrigeration Motors, Controls, & Com-
pressors
Classification
Incentive
Unit
Eligibility Criteria
Anti-Sweat Heater Control / Door Heater 
Control
Cooler/Medium 
Temp Door
$50 
per Door
Product must be UL Listed, 
or listed by equivalent OSHA 
Nationally Recognized Testing 
Laboratory (NRTL)
Freezer/Low Temp 
Door
$50 
per Door
Floating Head Pressure Controls
$75 
per Ton
EC Motors for Evaporator Fans
replacing shaded 
pole motor 
$75 
per Motor
replacing PSC
$75 
per Motor
Variable Speed Refrigeration Compressor
$1,000 
per 
Compressor
ASHRAE 90.1 2013; Equipment 
must exceed the standard
Refrigeration Gaskets, Doors & Strips
Classification
Incentive
Unit
Eligibility Criteria
Automatic Door Closer
Cooler
$50 
per Door
Product must be UL Listed, 
or listed by equivalent OSHA 
Nationally Recognized Testing 
Laboratory (NRTL)
Freezer
$75 
per Door
Door Gasket
Cooler Reach-in
$4 
per Linear ft
Product must be UL Listed, 
or listed by equivalent OSHA 
Nationally Recognized Testing 
Laboratory (NRTL)
Freezer Reach-in
$4 
per Linear ft
Cooler Walk-in
$4 
per Linear ft
Freezer Walk-in
$4 
per Linear ft
Strip Curtains
Cooler, 
Convenience Store
$5 
per Sq. ft.
Product must be UL Listed, 
or listed by equivalent OSHA 
Nationally Recognized Testing 
Laboratory (NRTL)
Cooler, Restaurant
$5 
per Sq. ft.
Cooler, 
Supermarket
$5 
per Sq. ft.
Freezer, 
Convenience Store
$5 
per Sq. ft.
Freezer, Restaurant
$5 
per Sq. ft.
Freezer, 
Supermarket
$5 
per Sq. ft.
Freezer, 
Refrigerated 
Warehouse
$5 
per Sq. ft.
Night Cover
Low temp (-32°F 
to 0°F)*
$20 
per Linear 
ft.
Product must be UL Listed, 
or listed by equivalent OSHA 
Nationally Recognized Testing 
Laboratory (NRTL)
 Medium Temp, 
case temperature 
(> 0°F 
to ≤ 32°F)*
$15 
per Linear 
ft.


BizSave.PSEG.com | 1-844-300-PSEG (1-844-300-7734)
Page 20 - 2022-10-06_v2.4
PSE&G
Refrigeration
Refrigeration Gaskets, Doors & Strips
Classification
Incentive
Unit
Eligibility Criteria
Night Cover
 High Temp case 
temperature (> 
32F° to 55°F)*
$10 
per Linear 
ft.
Product must be UL Listed, 
or listed by equivalent OSHA 
Nationally Recognized Testing 
Laboratory (NRTL)
Refrigeration Display Case Doors on Open 
Display Case*
$75 
per Linear 
ft.
Product must be UL Listed, 
or listed by equivalent OSHA 
Nationally Recognized Testing 
Laboratory (NRTL)
Walk-in or Reach-in Cooler/Freezer 
Evaporator Fan Motor Control 
$75 
per Motor
Product must be UL Listed, 
or listed by equivalent OSHA 
Nationally Recognized Testing 
Laboratory (NRTL)
*Incentive is capped at $500 per cover/case.


BizSave.PSEG.com | 1-844-300-PSEG (1-844-300-7734)
Page 21 - 2022-10-06_v2.4
PSE&G
Food Service
FOOD SERVICE
Ovens, Fryers, Steamers & Griddles
Classification
Incentive
Unit
Eligibility Criteria
Combination Oven/Steamer
Gas
$2,000 
per Oven
Equipment must be qualified by 
the current version 
 of ENERGY STAR or CEE
Electric
$1,200 
Convection Oven
Gas
$750 
per Oven
Electric
$350 
Standard Vat Fryer 
Electric
$200 
per Fryer
Steam Cooker
Gas
$200 
per Pan
Electric
$150 
Griddle
Gas
$500 
per Griddle
Electric
$300 
Rack Oven
Single - Gas
$1,000 
per Oven
Double - Gas
$1,000 
Commercial Conveyor Oven 
Gas
$1,500 
per Oven
Commercial Fryer 
Gas
$750 
per Fryer
Dishwashers
Classification
Incentive
Unit
Eligibility Criteria
Commercial Dishwasher - 
Under Counter - Electric
Low Temperature
$75 
per 
Dishwasher
Equipment must be qualified by 
the current version 
 of ENERGY STAR or CEE
High Temperature
$400 
Commercial Dishwasher - 
Under Counter - Gas
Low Temperature
$50 
High Temperature
$400 
Commercial Dishwasher - 
Door Type - Electric
Low Temperature
$800 
High Temperature
$600 
Commercial Dishwasher - 
Door Type - Gas
Low Temperature
$400 
High Temperature
$700 
Commercial Dishwasher - 
Single Tank Conveyor - Electric
Low Temperature
$400 
High Temperature
$1,000 
Commercial Dishwasher - 
Single Tank Conveyor - Gas
Low Temperature
$200 
High Temperature
$1,000 
Commercial Dishwasher - 
Multiple Tank Conveyor - Electric
Low Temperature
$1,000 
High Temperature
$1,500 


BizSave.PSEG.com | 1-844-300-PSEG (1-844-300-7734)
Page 22 - 2022-10-06_v2.4
PSE&G
Food Service
Dishwashers
Classification
Incentive
Unit
Eligibility Criteria
Commercial Dishwasher - Multiple Tank 
Conveyor - Gas
Low Temperature
$200 
per 
Dishwasher
Equipment must be qualified by 
the current version 
 of ENERGY STAR or CEE
High Temperature
$1,500 
Refrigerators & Freezers
Classification
Incentive
Unit
Eligibility Criteria
Commercial Glass Door Refrigerator
≤ 15 ft3
$75 
per 
Refrigerator
Equipment must be qualified by 
the current version 
of ENERGY STAR or CEE
> 15 to ≤ 30 ft3
$100 
> 30 to < 50 ft3
$150 
≥ 50 ft3
$150 
Commercial Solid Door Refrigerator
≤ 15 ft3
$100 
per 
Refrigerator
Equipment must be qualified by 
the current version 
of ENERGY STAR or CEE
> 15 to ≤ 30 ft3
$100 
> 30 to < 50 ft3
$200 
≥ 50 ft3
$225 
Commercial Glass Door Freezer
≤ 15 ft3
$200 
per 
Freezer
Equipment must be qualified by 
the current version 
of ENERGY STAR or CEE
> 15 to ≤ 30 ft3
$250 
> 30 to < 50 ft3
$300 
≥ 50 ft3
$300 
Commercial Solid Door Freezer
≤ 15 ft3
$100 
per 
Freezer
Equipment must be qualified by 
the current version 
of ENERGY STAR or CEE
> 15 to ≤ 30 ft3
$200 
> 30 to < 50 ft3
$300 
per 
Freezer
Equipment must be qualified by 
the current version 
of ENERGY STAR or CEE
≥ 50 ft3
$500 
Commercial Ice Machine Measures
Classification
Incetive
Unit
Eligibility Standard
Commercial Ice Machines - Tier 1
0–100 lbs/day 
$75 
per Ice 
Machine
Tier 1: ENERGY STAR Certified 
Commercial Ice Machines
101–200 lbs/day
$75 
201–300 lbs/day
$150 
301–400 lbs/day
$100 
401–500 lbs/day
$100 
501–1000 lbs/day
$150 
1001–1500 lbs/day
$200 
> 1500 lbs/day 
$200 


BizSave.PSEG.com | 1-844-300-PSEG (1-844-300-7734)
Page 23 - 2022-10-06_v2.4
Commercial Ice Machine Measures
Classification
Incetive
Unit
Eligibility Standard
Commercial Ice Machines - Tier 2
0–100 lbs/day 
$100 
per Ice 
Machine
Tier 2: CEE Commercial 
Kitchens Ice Machines
101–200 lbs/day
$100 
201–300 lbs/day
$200 
301–400 lbs/day
$150 
401–500 lbs/day
$150 
501–1000 lbs/day
$200 
1001–1500 lbs/day
$300 
Other Food Service
Classification
Incentive
Unit
Eligibility Criteria
Pre Rinse Spray Valve
Electric Water 
Heating
$35 
per Spray 
Valve
Maximum flow rate of 1.28 gpm
 Gas Water Heating
$25 
per Spray 
Valve
Hot Food Holding Cabinet
1/2 Size
$300 
per 
Cabinet
Equipment must be qualified by 
the current version 
of ENERGY STAR or CEE
3/4 Size
$350 
Full Size
$400 
PSE&G
Food Service


BizSave.PSEG.com | 1-844-300-PSEG (1-844-300-7734)
Page 24 - 2022-10-06_v2.4
PSE&G
Miscellaneous
AGRICULTURE
Agriculture
Classification 
Incentive
Unit
Eligibility Criteria
Engine Block Heater Timer
$25 
per Heater
Product must be UL Listed, 
or listed by equivalent OSHA 
Nationally Recognized Testing 
Laboratory (NRTL)
Auto Milker Takeoff
$90 
per unit
Dairy Scroll Compressor
$1,000 
per unit
Heat Reclaimers
$1,000 
per unit
Livestock Waterer
$60 
per unit
Dairy Vac Pump VSD Controls
$1,000 
per unit
Low Pressure Irrigation
Agriculture
$100 
per Acre
Golf Course
$100 
per Acre
Dairy Refrigeration Tune-Up
$200 
per unit
PLUG LOADS
Plug Loads
Classification 
Incentive
Unit
Eligibility Standard
Advanced Power Strip
Tier 1
$15 
per strip
Product must be UL Listed, 
or listed by equivalent OSHA 
Nationally Recognized Testing 
Laboratory (NRTL)
Tier 2
$25 
Monitors
C&I
$10 
per unit
ENERGY STAR
Computers 
C&I
$10 
per unit
Imaging 
C&I
$20 
per unit
Uninterruptible Power Supply (UPS)
C&I
$40 
per kVA
Small Network PC Controller
$15 
per PC 
controlled
Vending Machine & Control
Classification 
Incentive
Unit
Eligibility Standard
Vending Machine Control
Non-Refrigerated
$50 
per 
Controller
Product must be UL Listed, 
or listed by equivalent OSHA 
Nationally Recognized Testing 
Laboratory (NRTL)
Refrigerated
$125 
per 
Controller
Glass Front Refrigerated Cooler Control
$100 
per 
Controller
Beverage Vending Machine 
Class A
$75 
per unit
Equipment must be qualified by 
the current version 
 of ENERGY STAR or CEE


BizSave.PSEG.com | 1-844-300-PSEG (1-844-300-7734)
Page 25 - 2022-10-06_v2.4
PSE&G
Miscellaneous
RESIDENTIAL APPLIANCES
Residential Appliances in 
Commercial Settings
Classification 
Incentive
Unit
Eligibility Criteria
Clothes Washer - Tier 1
Electric
$100 
per unit
ENERGY STAR
Gas
$150 
per unit
Clothes Washer - Tier 2
Electric
$100 
per unit
ENERGY STAR Most Efficient
Gas
$200 
per unit
Clothes Dryer - Tier 1 
(with Moisture Sensor)
Electric
$50 
per unit
ENERGY STAR
Gas
$150 
per unit
Clothes Dryer - Tier 2
Electric
$50 
per unit
ENERGY STAR Most Efficient
Gas
$200 
per unit
Refrigerators
Tier 1 Electric
$100 
per unit
ENERGY STAR
Tier 2 Electric
$100 
per unit
Freezer 
Electric
$50 
per unit
Dehumidifier
Electric
$25 
per unit
Room Air Conditioner 
Electric
$25 
per unit
Water Cooler 
Electric
$50 
per unit
MISCELLANEUOS
Residential Appliances in 
Commercial Settings
Classification 
Incentive
Unit
Eligibility Criteria
Indoor Pool Cover 
Gas
$1 
per Sqft
Outdoor Pool Cover
Gas
$0.75 
per Sqft
Commercial Clothes Washer - Tier 1
Electric
$100 
per unit
ENERGY STAR
Gas
$100 
per unit
Commercial Clothes Washer - Tier 2
Electric
$200 
per unit
ENERGY STAR Most Efficient
Gas
$200 
per unit


BizSave.PSEG.com | 1-844-300-PSEG (1-844-300-7734)
Page 26 - 2022-10-06_v2.4
PSE&G
Custom
CUSTOM
Common Custom Measures 
Classification 
Incentive
Unit
Eligibility Criteria
HVAC/Chillers
HVAC/VRF
HVAC Controls & Chiller Plant 
Optimization
Compressed Air Systems
Refrigeration
Data Center Equipment/Servers
Motors/VFD - Large
Building Improvements
Process Improvements
Agricultural Lighting/Process
Custom Lighting
Other Non Prescriptive
Electric 
Savings
$0.16
per kWh
Measures/equipment must not be 
prescriptive measures and meet 
mandated/industry standards & codes 
where applicable. Analysis and 
documents supporting the energy savings 
must be submitted with the application, 
including measure Data Collection Forms 
(DCFs) as applicable.
Gas Savings
$3.50
per 
Therm
•	 Projects are required to provide the total energy savings of the measure(s). Energy savings analysis must 
be supported by existing and proposed facility data, such as operating schedules, EMS/BMS data, etc.; 
standard assumptions and baseline must be set in cases where EMS/BMS data is unavailable.
•	 In absence of energy analysis or model, Pre and post installation M&V may be required.  Adjusted 
savings calculations may be required depending on the results of the metering.
•	 The energy savings calculations must only include the energy savings related to the custom measure(s).	
•	 Certain measures may require pre and post install M&V for savings validation. In such cases, 
data points essential to analyzing the savings will be communicated and depending on the SOW, 
pre and post data measurement timeframe will be set; in case acceptable EMS/BMS data is 
unavailable, a separate M&V will be required for the set timeframe.
•	 Proposed measures will not be eligible for Custom Measure incentives if a Prescriptive incentive is 
available. Proposed measures must meet or exceed mandated/industry standards & codes where 
applicable. Applicability of codes & standards will be determined by PSE&G’s engineering staff during 
the application review process.
•	 State energy code is ASHRAE 90.1-2016. In cases where ASHRAE 90.1-2016 does not apply, other 
applicable industry standards will be used, such as the Consortium for Energy Efficiency (CEE), 
EPA ENERGY STAR, Design Lights Consortium, NEMA, Federal Title 10 or other established 
resources such as: current New Jersey baseline studies and other market research; experience of 
the New Jersey utilities; or utility/public program experience from other comparable jurisdictions.
•	 Final rebate/incentive payment is based upon installed equipment specifications, operating data, and 
final energy savings, and may be lower than preapproved amount.
•	 Program approval is required prior to purchase and installation for custom measures.
•	 Custom project incentives are capped at 50% of total project cost.
•	 Customer/Contractor must complete and submit Data Collection Forms (DCFs) for measures as 
communicated by PSE&G engineering team. Note that DCFs are available for most measures 
mentioned in the below table. Anywhere a DCF is not available or developed, customer/contractor must 
submit supporting information detailing the measure parameters required for energy savings analysis.


APPENDIX
7
SAMPLE GREEN 
DEVELOPMENT 
CHECKLIST


 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
Green Development Checklist  
 
Revised August 2015 
 
MODEL GREEN DEVELOPMENT CHECKLIST 
 
This Model Green Development Checklist has been prepared to assist communities in encouraging and reviewing planning 
submittals for sustainable green design aspects of development projects. Current planning criteria frequently do not address 
these issues; therefore, they may not be considered in the formal approval process. However, it is beneficial for reviewers 
of a proposed development to have a comprehensive understanding of the development’s potential to incorporate green 
design, increasing the site’s sustainability and its impact on the community. The checklist is organized by scale from regional 
context, to individual site, to the structures on the site: 
 
1. First, it addresses the site within its regional and local context, looking at its physical location, development status, 
connectivity to infrastructure (transportation, community, green space) and beneficial and detrimental impacts within the 
regional or local context. 
 
2. Second, it addresses the site itself, looking at the beneficial or detrimental impacts of the development on site.  
 


 
3. Third, it addresses the structures on the site, again looking at beneficial or detrimental impacts. 
 
As mentioned earlier, many green design aspects overlap. The handling of rainwater impacts the regional water supply and 
treatment; the onsite supply’s usage and treatment, and the water usage and treatment in the building. Each aspect must 
be considered at each scale. 
 
Sustainable Jersey provides many tools to assist in the implementation of green design which should be reviewed to 
further the understanding and use of this review.  
 
Also, some of the topics below are hyperlinked to other Sustainable Jersey actions, which can serve as resources for 
further information on those topics.       
 
Items that are in bold are required in order to receive points toward Sustainable Jersey certification.  
 
1.  Context 
Connectivity to existing neighborhoods may have many benefits to the health and safety of residents, the economy and 
diversity of the area, and the surrounding environment. To ensure a proposed development provides the optimum level of 
connectivity to existing neighborhoods, the following checklist questions are meant to: 
1. Encourage development within and near existing communities and public transit infrastructure 
2. Encourage improvement and redevelopment of existing cities, suburbs, and towns while limiting the expansion of 
the development footprint in the region to appropriate circumstances.  
3. Reduce vehicle trips and vehicle distance travelled.  
4. Reduce the incidence of obesity, heart disease, and hypertension by encouraging daily physical activity associated 
with walking and bicycling.  
 
CONTEXT 
YES 
NO 
DESCRIPTION 
Is the site a redevelopment, brownfield or infill location? 
 
 
 
Is the site served by public transit, pedestrian and bicycle 
networks?   
 
 
 
Is there train service within ½ mile or bus service within ¼ mile? 
 
 
 
Are the roads within the development designed as “Complete 
Streets?”  
 
 
 
Does the development include historic preservation or adaptive reuse 
of existing facilities? 
 
 
 


 
Does the development include historic preservation, or adaptive reuse 
onsite? Does the site’s location, scale or use support any historic 
building conditions off site within its context? 
 
 
 
Does the development provide or increase the following: 
 
 
 
A mix of land use types? Please list. 
 
 
 
Housing diversity by type and income? 
 
 
 
Civic and public spaces (or have proximity to them)?  
 
 
 
Recreation facilities and green space/parks (or have 
proximity to them) and is it part of an integrated ecological 
network? 
 
 
 
Land use densities greater than the current zoning or surrounding 
context? 
 
 
 
Alternative parking designs such as reduced parking ratios, a 
percentage of compact stalls, banked parking, shared 
parking, priority parking for low emission vehicles and 
provisions for bicycle storage? 
 
 
 
Local food production, access to off-site facilities or opportunities 
for Community Supported Agriculture (CSA) or farmers’ markets?  
 
 
 
A plan for promoting and educating people on green features? 
 
 
 
Open space? 
 
 
 
Natural features? 
 
 
 
Regional stormwater management? 
 
 
 
Is the site part of a district energy or water infrastructure? 
 
 
 
 
 
2.  Site development 
Green Design strategies for Site Development generally refer to how to “design with nature” or build on an individual site 
so that disturbance to the site is minimal to none. It is important that the design considers short term resiliency and long 
term sustainability solutions. This can be accomplished using some or below all of the strategies. 
 
In general, does the design provide for the following? 
 
SITE DEVELOPMENT 
YES 
NO 
DESCRIPTION 
Minimum site disturbance during construction? 
 
 
 
Increased Erosion and Sedimentation Control (beyond county or 
municipal requirements)? 
 
 
 
Low Impact Design features? 
 
 
 


 
Bio-swales 
 
 
 
Rain gardens  
 
 
 
Green Roofs 
 
 
 
Pervious pavements 
 
 
 
Green Walls 
 
 
 
Trees  
 
 
 
Indigenous species (non-invasive species, low maintenance 
landscaping)? 
 
 
 
Onsite management of vegetative waste? 
 
 
 
Regenerative Design? 
 
 
 
Habitat, wetlands or water body conservation or conservation 
management strategies 
 
 
 
Habitat, wetlands or water body restoration 
 
 
 
Does the site minimize heat island effects through reduced 
paving, landscaping or other methods? 
 
 
 
Does the site provide alternatives to single occupancy vehicles 
such as van spaces, bike storage and changing facilities, and 
alternative energy vehicle parking? 
 
 
 
Does the development include historic preservation or adaptive reuse 
of existing facilities? 
 
 
 
Does the site include public art and opportunities for civic events?  
 
 
 
Does the site include Light Pollution Reduction and energy efficient 
site lighting and controls?  
 
 
 
Does the site consider landscape and stormwater maintenance 
specifications that employ integrated pest management post-bond to 
assure implementation for five years after occupancy? 
 
 
 
 
 
3.  Green Building 
“Green buildings” utilize a sensitivity to the environment in their design by incorporating strategies like energy and water 
efficiency, high indoor air quality, and sustainably sourced (or recycled) materials. Green buildings are the foundation for a 
sustainable neighborhood and should be considered where new developments are planned.  
 
This checklist lists important green building design aspects in the areas of Water Reduction, Energy, Indoor Air Quality, 
Materials, and Social features. Communities and developers should use this checklist to identify features to incorporate 
into their site plan or subdivision planning. 
 


 
GREEN BUILDING 
YES 
NO 
DESCRIPTION 
Does the building(s) meet the criteria for a Certified Green 
Building?  
 
 
 
Is the building oriented to maximize benefits of daylighting, 
viewsheds and energy and to minimize detrimental impacts on 
surrounding sites? 
 
 
 
Does the building respect the scale of the context through its design?  
 
 
 
 
 
 
 
Water Reduction  
 
 
 
Does the building provide a 20% or greater reduction of water 
use beyond the minimum water efficiency standards set by the 
EPA or local government, whichever is greater? 
 
 
 
Does the building employ water conservation features – 
including low-flow fixtures, waterless urinals, and/or sensor-
controlled faucets? 
 
 
 
Does the building incorporate rainwater, gray water + stormwater 
capture and re-use?  
 
 
 
Is wastewater treated on site and recharged to the ground? 
 
 
 
 
 
 
 
Energy  
 
 
 
Does the building reduce energy usage through efficient heating 
and cooling, geothermal technology, enhanced daylighting, 
efficient lighting, occupant controls and an efficient building 
envelope? 
 
 
 
Does the project incorporate Energy Star-labeled building 
products?  
 
 
 
Does the building include onsite energy generation? 
 
 
 
What is the anticipated energy savings? 
 
 
 
What are the anticipated carbon emission reductions? 
 
 
 
 
 
 
 
Indoor Air Quality 
 
 
 
Is natural ventilation and efficient use of outdoor air during 
heating and cooling periods utilized?  
 
 
 
Are other measures being used to improve indoor air quality?  
Please describe 
 
 
 
 
 
 
 
Materials 
 
 
 
Is an existing building being reused?  100%, 75%, 50%? 
 
 
 
Are there construction waste management plans in place? 
 
 
 


 
Are there solid waste management plans in place? 
 
 
 
Are building materials reused? 
 
 
 
Do building materials contain recycled content? 
 
 
 
Are building materials sourced within the region (within a 500 
mile radius)? 
 
 
 
 
 
 
 
 
Social 
 
 
 
Does the site implement indigenously inspired art in the landscape? 
(i.e. sculpture; garden; mural/ relief; artistic site furnishing, etc.) - one 
application per building or per 300 residential units.    
 
 
 
 


APPENDIX
8
RESIDENTIAL NEW 
CONSTRUCTION 
INCENTIVES


 
 
 
 
 
Residential New Construction  
Program Guide, rev 1 
 
For Fiscal Year 2024 
(7/1/2023 through 6/30/2024) 
 
 
 
 
 
 
 


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Table of Contents 
 
1. 
Overall Program Description ................................................................................................................ 3 
2. 
Target Market & Eligibility .................................................................................................................... 3 
3. 
Background for IECC Codes and HERS Index ........................................................................................ 3 
4. 
Program Offerings ................................................................................................................................. 4 
5. 
Financial Incentives ............................................................................................................................... 6 
6. 
General Process Outline ....................................................................................................................... 7 
7. 
Program Registration and Enrollment Procedures and Requirements ................................................ 8 
8. 
Quality Assurance Inspections ............................................................................................................ 10 
9. 
Program Dispute Resolution ............................................................................................................... 10 
10. Call Center Support ............................................................................................................................. 10 
11. Links to Website Information ............................................................................................................. 10 
 
 
 
 
 


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1. Overall Program Description 
The Residential New Construction (RNC) Program is designed to increase the energy efficiency and 
environmental performance of residential new construction buildings (single, multi-single, and 
multifamily) in New Jersey.  The program strategy is to establish standards for energy efficient new 
construction in New Jersey based on national platforms, including EPA ENERGY STAR® Residential New 
Construction Program, and the DOE Zero Energy Ready Home (ZERH) Program.  The program offers 
technical support and incentives to builders of new single, multi-single, or multifamily residential 
structures or homes undergoing a complete rehabilitation (gut) that comply with these standards. 
 
To participate in the RNC program, builders agree to work with independent third-party inspectors 
(Raters) who inspect, measure, and test the home’s performance during and after construction. Incentives 
are designed to partially offset the construction costs associated with building higher efficiency homes. 
 
2. Target Market & Eligibility 
Newly constructed single family (i.e., one- and two-family buildings), multi-single (i.e., townhomes1), and 
multifamily buildings are eligible for program benefits if the home, townhome, or multifamily building will 
use natural gas and/or electricity as the primary heating fuel supplied by a New Jersey investor-owned 
utility (IOU).  Target markets for this program are homebuilders and Raters.  
The RNC Program will also enroll any existing home undergoing substantial gut renovation or remodeling 
that meets the criteria above.  The EPA identifies the following actions that may be necessary for a gut-
rehab project to meet ENERGY STAR Residential New Construction Program requirements: 
 
Remove exterior cladding and the outer surface of roof to install and/or verify the necessary 
components on the Water Management Builder System Checklist and Thermal Enclosure System 
Rater Checklist. 
 
Replace or expose most systems, equipment, or components (e.g., HVAC and ducts, windows, 
insulation.) 
 
Grade the site and/or provide drains/swales. 
 
Implement below-grade moisture management strategies. 
 
3. Background & Definitions 
IECC Energy Codes 
The New Jersey Department of Community Affairs adopted the 2021 International Energy Conservation 
Code (IECC) on September 6, 2022, which became effective March 6, 2023.  Homes built to the 2021 code 
will be ~9% more efficient than ones built to the former 2018 IECC code.  The 2021 IECC aims to increase 
efficiency, be more user-friendly, and encourage more flexibility in design and construction. All projects 
 
1 A single-family dwelling unit constructed in groups of three or more attached units in which each unit extends 
from foundation to roof and with open space on at least two sides. 


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participating in the program must exceed the energy code they were permitted under, unless otherwise 
specified. 
 
Energy Rating Index 
The Energy Rating Index (ERI) represents the relative energy efficiency of a building. The ERI is a scale with 
numbers that range from 0, to represent net zero energy, to 100, to represent the approximate efficiency 
of a home built to the 2006 IECC. Each number on the scale represents a 1% change in the relative energy 
efficiency of the building. Each point higher is 1% less efficient, and each point lower is 1% more efficient. 
In short, the lower the ERI, the more efficient the home. The EPA’s ENERGY STAR certification and DOE 
Zero Energy Ready Home programs also utilize the ERI.   
 
Zero Energy Ready Home 
The US Department of Energy created a national Zero Energy Ready Home (ZERH) program with strict 
requirements.  When a renewable energy component is connected to the home (e.g., Solar PV system), 
the energy produced by the renewable component can offset the modeled electric consumption of the 
home annually; therefore, the net energy consumed on an annual basis by the home is zero. 
 
4. Program Requirements 
Participation Options 
The Program offers builders options to participate in the program by building homes to varying standards 
or guidelines.  Incentives are offered based on achieving ENERGY STAR or ZERH certifications, as detailed 
below, with an additional incentive for each MMBtu energy savings above the New Jersey Reference 
Home, shown in Table 1, below.  
 
ENERGY STAR Residential New Construction Program 
The ENERGY STAR Decision Tree can be used to help determine which ENERGY STAR program is right for 
you.  
 
ENERGY STAR Single-Family New Homes (SFNH): 
Builders must construct a home and meet or exceed ENERGY STAR SFNH specifications and earn 
the ENERGY STAR certification for the home.  In this case, the Rater will score the home’s 
performance using the ERI.   
 
 
ENERGY STAR Multifamily New Construction (MFNC): 
Builders must meet or exceed ENERGY STAR MFNC program standards, using either the AHSRAE 
path or the ERI path to determine energy savings of a customized set of measures. 
o ASHRAE Path: For multifamily buildings pursuing this compliance pathway, the building 
must use the Appendix G modeling method from the ASHRAE 90.1 that was effective at 
the time of the issuance of the building permit and must demonstrate a minimum of 15% 
energy cost savings OR 15% source energy savings when compared to the energy code 
under which the building is permitted. Buildings using this compliance pathway must also 
use the applicable EPA Performance Path Calculator and Simulation Guidelines. These 


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documents can be found at: Residential New Construction Program Requirements | 
ENERGY STAR 
o ERI Path: For multifamily buildings pursuing this compliance pathway, each unit is 
equivalent in performance to the minimum requirements of the New Jersey reference 
home, as assessed through energy modeling, and the building must meet or exceed the 
requirements in the National Rater Design Review and Field Checklists, which include 
meeting the minimum requirements set for common spaces. Buildings must be certified 
through a Home Certification Organization (HCO). The HCO’s rating tool must be EPA 
approved and shall automatically determine the ENERGY STAR ERI Target2.  
 
U.S. Department of Energy ZERH Program 
 
Zero Energy Ready Home & Zero Ready Energy Home + RE 
Builders must construct the home in conformance with the DOE Zero Energy Ready Home 
specifications, in which the ENERGY STAR SFNH specifications are a pre-requisite. The program 
also has a Zero Energy Ready Home 100% Renewables offering, whereby 100% of the building’s 
modeled electric site energy usage must be met by renewable energy systems installed onsite at 
the time of completion of the home.   
 
Certification Versions  
ENERGY STAR SFNH Program  
Applicants must satisfy the requirements for ENERGY STAR certification utilizing the Performance Path 
by way of the ERI.  The applicant can choose to base its application on compliance with either ENERGY 
STAR SFNH Version 3.1 or ENERGY STAR SFNH Version 3.2.  Projects whose building permits are issued 
under IECC 2021 and whose submissions are based upon compliance with ENERGY STAR SFNH Version 
3.1 must also demonstrate at least 10% site energy savings as compared to the IECC 2021 code baseline.   
ENERGY STAR MFNC Program  
Applicants must satisfy the requirements for ENERGY STAR certification utilizing the Performance Path 
by way of the ERI or ASHRAE pathways.  The applicant can choose to base its application on compliance 
with either ENERGY STAR MFNC Version 1.1 or ENERGY STAR MFNC Version 1.2.  
Projects whose building permits are issued under IECC 2021, whose submissions are based upon 
compliance with ENERGY STAR MFNC Version 1.1 and are using the ERI path must also demonstrate at 
least 10% site energy savings as compared to the IECC 2021 code baseline. Alternatively, if the project is 
using the ASHRAE path, they must demonstrate at least 15% source or cost energy savings as compared 
to the ASHRAE 90.1-2019 baseline. ASHRAE path projects must use the ASHRAE 90.1 Performance Based 
Compliance Form for compliance.   
US DOE ZERH Program 
Applicants must satisfy the requirements for the ZERH certification following the applicable version of 
the program, which is determined in accordance with the DOE ZERH – Program Versions and 
 
2 Raters must use an Approved Software Rating Tool that has been updated to ANSI / RESNET / ICC 301-2019, or 
later, to use the ERI Path for buildings that exceed five stories. 
 


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Implementation Timelines available here: DOE Zero Energy Ready Home (ZERH) Program Requirements 
| Department of Energy.  For projects whose building permits are issued under IECC 2021 and whose 
submissions are based upon compliance with ZERH Version 1, the prerequisite for ENERGY STAR SFNH 
shall be applied, as described above.  
 
Transition  
At the time of the release of this document, the updated User Defined Reference Home (UDRH) for 
homes following the current energy code has not yet been fully developed. This impacts all projects 
whose performance is measured using the ERI, including ENERGY STAR SFNH, ENERGY STAR Multifamily 
New Construction ERI Path.  
Once the UDRH is approved for use, a notice will be released to the Rater Company network that this file 
is available. Once that announcement is released, Rater Companies will have a 90-day grace period 
during which they can continue to use the existing UDRH to project savings. At the completion of the 90-
day grace period, the above requirements will be in place. The grace period is based on Site Registration 
Received date. 
Note, this grace period does not apply to ENERGY STAR Multifamily New Construction ASHRAE Path. 
 
5. Financial Incentives  
The table below displays the financial incentives payable to the builder or contractor depending on the 
home’s final certification level and incremental MMBtu savings.  Note: The higher the energy savings, 
the larger the rebate.   
Table 1. Single-Family, Townhouse, and Multifamily incentive structure.  
Single Family 
(1 & 2 Family Homes)
Townhouse
(3+ Connected Units) 
Multifamily
(5 stories or less) 
Multifamily
(MFNC)
Energy Star
$1,000 per home 
+ 
$30 per MMBtu saved 
$500 per home 
+ 
$30 per MMBtu saved 
$500 per unit 
+ 
$30 per MMBtu saved 
$500 per unit 
+ 
$30 per MMBtu saved 
ZERH 
(Zero Energy Ready 
Home) 
$4,000 per home 
+ 
$30 per MMBtu saved 
Rater Incentive: $1,200 
per home 
$2,500 per home 
+ 
$30 per MMBtu saved 
Rater Incentive: $1,200 
per home 
$1,500 per unit 
+ 
$30 per MMBtu saved 
N/A 
ZERH + 
Renewables 
$6,000 per home 
+ 
$30 per MMBtu saved 
Rater Incentive: $1,200 
per home 
$4,000 per home 
+ 
$30 per MMBtu saved 
Rater Incentive: $1,200 
per home 
$2,250 per unit 
+ 
$30 per MMBtu saved 
N/A 
UEZ/Affordable 
Housing Bonus 
+$500 per home 
+$500 per home 
N/A 
N/A 
Table 1 Notes:  
 
The above $30/MMBTU is based on calculated savings before any savings from renewable energy 
(RE) is added.  RE represents renewable energy to offset the remaining annual energy load. 
MMBtu is the incremental annual energy saved as compared to the calculated annual usage of 


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the baseline reference home, defined by the applicable energy code as described in more detail 
in the New Jersey Clean Energy Program Protocols to Measure Resource Savings. 
 
The UEZ or Affordable Housing bonus incentive is available for each single family detached and 
townhouse (i.e., multi-single) dwelling that is verified as being in an Urban Enterprise Zone (UEZ) 
or designated as Affordable Housing as defined below.  Only one incentive type can be applied 
per unit. 
o “Affordable Housing” means any housing that an official document identifies as 
participating in a federal, state, or local affordable housing program. This may also 
include official documents showing identification from the New Jersey Housing and 
Mortgage Finance Agency, United States Low Income Housing Tax Credit (LIHTC), and 
United States Housing and Urban Development (HUD). 
o An Urban Enterprise Zone (UEZ) is an area within a municipality (or group of 
municipalities) in New Jersey suffering from economic distress and meeting other 
criteria. A list of current UEZs within the State of New Jersey is available at 
https://www.nj.gov/treasury/taxation/businesses/salestax/uez-over.shtml  
 
6. General Process Outline  
Specific program requirements and construction processes must be met for a builder to benefit from each 
incentive level. For all offerings, the program mandates that builders/developers work with a program 
participating Rating Company to ensure that the high efficiency requirements are met.   
In general, there is an overall process for a Builder and Rater to participate in the program which is 
outlined below. 
1. A builder or developer selects and enters into agreement with a Rating Company (that is a 
participating Rater of the program) to perform the energy ratings, inspections, testing, and 
certifications required by the RNC program. 
 
2. The builder/developer works with the Rating Company to ensure that the builder’s site 
personnel, crews, and contractors are familiar with program requirements.   
 
3. The Builder will attend the Rating Company’s design review meeting and a pre-construction 
meeting with all other appropriate contractors, sub-contractors, and stakeholders. 
 
4. The Rating Company then registers a project with the program through the online portal.   
 
5. The Program reviews the Site Registration and all supporting documents.   
 
a. If deemed complete, the project will be assigned to a Program Specialist, and the Status 
will be updated to Site Registration Approved.  
b. If deemed incomplete, the Rater will be notified of any deficiencies and the project will 
be placed in Site Registration Error status.  The Rater must resolve the document issues 
and revise the online application and resubmit within 30-days or the project will be 
cancelled and will require a new registration to be considered again.     
 


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6. Once the project has been assigned a Program Specialist, they will reserve the funds for the 
project based on the preliminary design and send an enrollment letter to the Rater. The project 
will then move to the Site Registration Complete status. The Builder proceeds with construction 
and coordinates the scheduling of all required inspections with the Rating Company, namely a 
Pre-Drywall Inspection and Final Inspection.   
a. The project must be registered (i.e., Site Registration Received or any later status, and 
have a Project Number) before notifying the RNC program about the Pre-Drywall 
inspection. NOTE: Pre-Drywall Inspections scheduled before the project has received the 
enrollment letter (i.e. Site Registration Complete status) are doing so at risk of not being 
successfully registered into the program.   
 
7. If any deficiencies are identified by the Rating Company during either of these inspections, the 
builder must rectify until the inspection has passed.  The Rating Company reports the results of 
each inspection to their Program Specialist via email using the Inspection Workbook. 
a. If an inspection is reported as a passed on the first visit, the Passed Inspection Report may 
be, but is not required, uploaded to the portal at that time. The Passed Inspection Report 
must be uploaded before submitting any Incentive Application documents.   
b. If an inspection report is reported as a failed, each Failed Inspection Report, at the time 
of failure, must be uploaded to the portal and the subsequent Passed Inspection Report 
before the project can progress in the portal. 
 
8. When all program requirements are met, an ENERGY STAR or ZERH label(s)/certificate(s) is issued 
by the Rater to the Builder/homeowner. 
 
9. The Rating Company will complete the online Incentive Application and upload completed 
checklists, rating software data files, ENERGY STAR or ZERH summary reports, etc. 
 
10. The Program reviews and approves the Incentive Application, and payment is sent directly to the 
Builder, Rater, or Third-Party Payee in the form of a check. 
a. If the Incentive Application is found to be missing documentation or does not meet the 
minimum program requirements for any other reason, the Program Specialist or the TRC 
QA department will move the project into File Review Error status and follow up with a 
list of additional requirements that must be met to receive incentives. The Rater has 30-
days from the receipt of the notice of the deficiency to respond, as directed in the notice, 
and resolve the concerns. 
 
7. Program Registration and Enrollment Procedures and Requirements 
ENROLLMENT 
1. Raters must utilize the Rater Portal3  to submit electronic applications and all required program 
documents.  Raters obtain a project number that starts with “NJRCCR” from the portal indicating 
that the project has been received by the Program.   
 
3 Rater Portal can be found at the following link: https:/njrnc.customerapplication.com/sign-in. 
 


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a. Once a project is registered (i.e., Site Registration Received or any later status, and has a 
Project Number), the Rater may proceed with scheduling the Pre-Drywall inspection for 
the following business day. NOTE: Pre-Drywall Inspections scheduled before the project 
has received the enrollment letter (i.e. Site Registration Complete status) are doing so at 
risk of not being successfully registered into the program  
 
2. Projects will receive an Enrollment Letter and funds will be reserved for each project when the 
Site Registration portal entries and documents are deemed complete.  These projects will expire 
according to building type as listed below, with the time measured from Site Registration Received 
status, as applicable: 
a. Single Family and townhomes expire one year after the Site Registration is received. The 
Rater may apply to the Program for an extension of its expiration date. Such extensions 
may be granted only for good cause and in unusual, extenuating circumstances beyond 
the applicant’s control. As soon as a Rater is aware that an expiration date will not be 
met, they should email an extension request to the program inbox at 
RNCNJCEP@NJCleanEnergy.com and copy their relevant Program Specialist. The Program 
Manager may grant up to two extensions per project, not to exceed one year, collectively. 
Any extensions beyond this can be submitted for consideration using the Program Dispute 
Resolution process in Section 9, below.   
b. Multifamily projects expire three years after the Site Registration is received and are not 
eligible for any extensions of their expiration date or commitments. 
 
3. All applicants must submit a valid municipal building permit with their Site Registration.  In 
instances where an applicant is pursuing code compliance through the RNC Program, an 
Acknowledgement Letter will be issued with the understanding that the applicant must upload 
the permit to the online portal once the permit is granted. Payments will not be issued until the 
permit has been received by the program.  
 
4. The project must be registered a minimum of one business day before notifying the RNC program 
about the Pre-Drywall inspection.  In other words, notification of an inspection must be provided 
by 5pm on the night before the inspection is scheduled. Projects being submitted and inspected 
on the same day are not eligible to participate in the program.  
 
5. Customers eligible for the Affordable Housing Bonus must provide documentation that the 
building identifies as participating in a federal, state, or local affordable housing program as 
defined above. Customers eligible for the UEZ bonus must provide documentation that the 
building resides within one or more municipalities designated by the State of New Jersey.  
 
6. If a project passes the expiration date and has not requested an extension, if eligible, among 
other consequences of expiration, the project’s commitment amount, if any, will be terminated, 
freeing the previously committed amount for other NJCEP purposes.  
 
7. Expired projects may reapply, in which case they will be governed by the technical requirements 
applicable at the time the project’s then-current building permit issued and will be eligible for the 
incentives, if any, available at the time of reapplication. 
 


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8. Quality Assurance Inspections 
The Program Administrator will conduct sample Quality Assurance (QA) site inspections of the Rater’s Pre-
drywall and/or Final Inspections and file reviews of all EPA ENERGY STAR and/or ZERH Checklists and rating 
software files to confirm program requirements are being met. Consistent errors and/or inappropriate 
rating procedures identified through QA inspections or file reviews will subject Rating Companies to 
actions as defined in the contractor remediation process. 
Inspection requirements may be adjusted based upon the track record of the program participants. Initial 
inspection rates for new builders and Raters may be higher and may decrease as they demonstrate 
proficiency in proper building techniques and the requirements of the Program.  
 
9. Program Dispute Resolution 
The Program is designed to allow for participation by any RESNET Certified Rater operating under a 
RESNET Accredited Rating Provider that meets the Program requirements upon completion of a program 
participation agreement.  BPU-approved contractor remediation procedures will be followed if a 
contractor is found to violate program procedures and rules or consistently violates program 
requirements, which may include being barred from participating in the Program. 
Disputes, concerns, or complaints that arise will be addressed initially by the Program Manager or 
Program Staff at the point of contact.  If resolution for whatever reason is not possible, there is a dispute 
resolution process backed by the NJ Board of Public Utilities.   
For contractual disputes between a customer and a contractor or builder, an online complaint can be filed 
with the NJ Division of Consumer Affairs (DCA).  
 
10. Call Center Support 
New Jersey’s Clean Energy Program operates a call center staffed weekdays between 8 AM and 7 PM, 
excluding State holidays.  The phone number is 866-NJSMART (866-657-6278).  The call center is trained 
in answering general questions about the program and application processes and can direct callers to the 
appropriate Program Staff as needed.  
11. Links to Website Information 
 
 
Overall homepage for the Residential New Construction program:  www.NJCleanEnergy.com/RNC 
 
 
List of rating companies approved to work within the program: Rating Companies | NJ OCE Web 
Site (njcleanenergy.com) 
 
 
Building & Rating Company Information webpage: 
www.NJCleanEnergy.com/residential/programs/nj-energy-star-homes/builder-
information/builder-information 


New Jersey’s Clean Energy ProgramTM 
Residential New Construction Program Guide  
 
11 | P a g e  
 
 
 
RNC portal that Rater Companies use to upload documents, inspection reports, and other 
submittals for program review.  There is also a training video that Rater Companies can watch to 
learn how to use the portal.  Individual Raters must register with the RNC program to use the 
portal.  
www.NJCleanEnergy.com/RNCPORTAL 
 
 
Technical information that is required for Builders and Raters to participate in the program, 
including step-by-step instructions on how to enroll a home in the program along with associated 
program checklists used by the Raters. 
www.NJCleanEnergy.com/residential/programs/nj-energy-star-homes/builder-
information/participation-documents/participation- 
 
 
Frequently Asked Questions (FAQ) page: 
http://www.njcleanenergy.com/residential/programs/nj-energy-star-homes/faqs/new-jersey-
energy-star-homes-frequently-asked-questio

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Evidence Detected

7 CLAUSES FOUND

"...to be distributed in regular mailers, posted on City website and social pages, announced during public hearings. Implement an outreach effort to help local businesses take advantage of energy efficiency incentive programs offered by New Jersey’s electric and natural gas utilities, including the Direct Install..."

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performance bond

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Adopted Community Energy Plan Document

Contacts

Tammy Zucca

Chief Financial Officer/Treasurer

David Spatz

City’s Consulting Planner

Shawn Thomas

Fleet Director

Rebecca Colditz

Deputy Department Head, Purchasing

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Location

Timeline

First Discovered

Apr 2, 2026

Last Info Update

Apr 2, 2026

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