ENERGY STAR
ENERGY STAR® and Other
Climate Protection Partnerships
2008 Annual Report
&EPA
United States
Environmental Protection
Agency
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ENERGY STAR® AND OTHER CLIMATE PROTECTION PARTNERSHIPS
2008 ANNUAL REPORT
CONTENTS
Letter from the Administrator 1
Executive Summary 2
Highlights of 2008 3
Looking Forward to 2009 and Beyond 7
Introduction to EPA's Climate Protection Programs 9
ENERGY STAR Overview 13
ENERGY STAR Qualified Products 18
ENERGY STAR in the Residential Sector 24
ENERGY STAR in the Commercial Sector 29
ENERGY STAR in the Industrial Sector 34
Climate Leaders 38
Clean Energy Supply Programs 41
Green Power Partnership 42
Combined Heat and Power Partnership 44
State and Local Programs and Initiatives 47
Clean Energy-Environment State Partnership 48
Clean Energy-Environment Local Network 49
Clean Energy and Utility Policy Programs 50
Methane Programs 53
Natural Gas STAR Program 54
AgSTAR Program 56
Coalbed Methane Outreach Program 57
Landfill Methane Outreach Program 58
Fluorinated Greenhouse Gas Programs 61
Demonstrating Progress 67
List of Figures 73
List of Tables 74
References 75
For additional information, please visit our Web sites at www.epa.gov/cppd, www.energystar.gov, www.epa.gov/cleanenergy/stateandlocal/index.htm,
www.epa.gov/methane, and www.epa.gov/highgwp.
NOTE: The data source for all figures and tables in this 2008 Annual Report is EPA's Climate Protection Partnership Programs unless otherwise noted. Historical totals have been updated based
on the most recent available data.
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LETTER FROM THE ADMINISTRATOR
December 2009
Climate change is the greatest environmental challenge of our time, and effective public-private partnerships are instrumental
in this fight. By bringing together strong incentives, serious commitments, and transparent processes, EPA's voluntary programs
have produced credible and lasting results, and promoted the economic and environmental leadership we need to protect our
planet.
For the past 16 years, EPA has partnered with thousands of organizations across the United States to reduce greenhouse gas
emissions through energy-efficient products and practices and expanded use of clean energy. Our partners, who range from
Fortune 500 companies to educational institutions, are laying the groundwork for innovative, economy-wide practices. Together,
we are pioneering change that can improve bottom lines and strengthen the fight against climate change.
The 2008 accomplishments of EPA's voluntary climate protection programs are significant and set the stage for progress in the
years ahead. Here are just a few highlights:
• Americans, with the help of ENERGY STAR, saved $18 billion in 2008 on their utility bills and prevented the
equivalent of greenhouse gas emissions from 29 million vehicles.
• Since the Green Power Partnership's inception in 2002, more than 1,000 partners have committed to buying more
than 16 billion kilowatt-hours of green power each year.
• Since the Combined Heat and Power Partnership program launched in 2002, more than 260 partners have installed
more than 4,700 megawatts of new combined heat and power.
• The partners of EPA's methane and fluorinated greenhouse gas partnership programs used EPA tools and
resources in 2008 to avoid the equivalent of emissions from more than 23 million vehicles.
• EPA's corporate commitment program. Climate Leaders, grew 60 percent in 2008 to 250 participants.
ENERGY STAR and EPA's other climate protection programs make clear that climate protection efforts are good for the
environment and good for the economy. EPA will build upon this experience and success of these programs as we continue to
address climate change in aggressive, comprehensive, and common-sense ways.
Sincerely,
Lisa P.Jackson
Administrator
U.S. Environmental Protection Agency
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EXECUTIVE SUMMARY
Global climate change is a pressing national and international environmental problem. Meeting this
challenge calls for immediate, proven, cost-effective solutions to establish limits on overall emissions of
greenhouse gases (GHGs) and remove the barriers that hinder investment in low-cost energy efficiency
and clean energy supply options. The U.S. Environmental Protection Agency's (EPA's) climate protection
partnership programs have implemented a comprehensive set of policies and programs for 16 years—
successfully removing many of those barriers—with outstanding financial and environmental results
and overall program cost-effectiveness (see Table 1 and Figure 1, p. 4).
EPA's climate protection partnerships employ a combination of voluntary standards, outreach and
education, technical assistance, facilitated peer exchange, and recognition for organizations taking
important steps to protect the global environment. As a result of these efforts, many households,
businesses, and other organizations are changing the way they use energy and joining in the fight
against global climate change.
In 2008, EPA's climate protection partnerships once again realized impressive results. The more than
18,000 organizations across the United States that have partnered with EPA in these programs have
achieved significant environmental and economic benefits:
• Preventing 86 million metric tons (in MMTCE1) of GHGs—equivalent to the emissions from 57 million
vehicles—and net savings to consumers and businesses of more than $18 billion in 2008 alone.
• Preventing more than 1,200 MMTCE cumulatively and net savings to consumers and businesses of
more than $220 billion over the lifetime of their investments.
• Investing $65 billion in energy-efficient, climate-friendly technologies.
' Million metric tons of carbon equivalent (MMTCE). Reductions in annual greenhouse gas emissions for EPA's climate programs are based on "carbon equivalents,'
which are determined by weighting the reductions in emissions of a gas by its global warming potential for a 100-year time period.
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EXECUTIVE SUMMARY
Highlights of 2008
ENERGY STAR®
Through the ENERGY STAR program, EPA continued
to promote energy efficiency across the residential,
commercial, and industrial sectors to help reduce GHG
emissions, the primary cause of global climate change. In
2008, EPA's ENERGY STAR efforts helped Americans:
• Save about 190 billion kilowatt-hours (kWh)—about
5 percent of U.S. electricity demand.
• Prevent the emissions of 45 MMTCEof GHGs.
• Save $18 billion on their energy bills (see Figure 2, p. 4).
These benefits are more than double those in 2000 (see Table
2, p. 6). Additional ENERGY STAR program highlights, with
notable achievements for 2008 and cumulatively, include:
More Savings to More Consumers through ENERGY STAR
Products
More than 40,000 ENERGY STAR qualified product models
across 60 product categories are produced by more than
2,400 manufacturers and offer consumer savings of as much
as 75 percent relative to standard models.
• Americans purchased about 550 million ENERGY STAR
qualified products in 2008, bringing the total to more than
2.5 billion since 2000.2
• EPA increased the stringency of the ENERGY STAR criteria
for seven product categories: set-top boxes, TVs, imaging
products, computers, external power adapters, telephony,
and furnaces.
Raising the Bar for New Home Construction
More than 100,000 new homes—nearly 17 percent of the
U.S. new housing starts—were constructed to meet ENERGY
STAR guidelines in 2008, despite the continued decline in the
housing market. This brought the total number of ENERGY
STAR qualified new homes to nearly 940,000 nationwide.
Improving the Efficiency of Existing Homes
More than 50,000 older homes have been retrofitted through
the whole home retrofit program—Home Performance with
ENERGY STAR—with more than 25 sponsors across the
country now offering this service program.
TABLE 1. Annual and Cumulative Benefits From Partner Actions Through 2008 (in Billions of 2008 Dollars and MMTCE)
BENEFITS FOR 2008
CUMULATIVE BENEFITS 1993 - 2018
PROGRAM
NET SAVINGS
(BILLIONS)
EMISSIONS
AVOIDED
(MMTCE)
PV OF BILL PV OF TECHNOLOGY PVOFNET EMISSIONS
SAVINGS EXPENDITURES SAVINGS AVOIDED
(BILLIONS) (BILLIONS) (BILLIONS) (MMTCE)
ENERGY STAR Total
Qualified Products
and Homes
Buildings
Industry
Clean Energy Supply
Programs
Methane Programs
Fluorinated
Greenhouse Gas
Programs
TOTAL
$18.0
$10.0
$5.3
$2.7
—
$0.6
—
$18.6
45.0
19.9
18.5
6.6
6.1
20.3
14.8
86.2
$276.3
$138.3
$107.5
$30.5
—
$12.1
—
$288.4
$60.1
$19.2
$33.9
$7.0
N/A
$4.9
N/A
$65.0
$216.2
$119.1
$73.6
$23.5
—
$7.2
—
$223.4
589
265
222
102
82
289
267
1,228
PV: Present Value
NOTES: Technology Expenditures include O&M expenses for Methane Programs. Bill Savings and Net Savings include revenue from sales of methane and electricity. Totals may not equal
sum of components due to independent rounding. For details on cumulative benefits, see page 67.
—: Not applicable
N/A: Not available
2 Does not include purchases of compact fluorescent bulbs.
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ENERGY STAR and Other Climate Protection Partnerships 2008 Annual Report
FIGURE 1. GHG Emissions Reductions Exceed 85 MMTCE—Equivalent to Emissions From 57 Million Vehicles
100
o
3.
Total Fluorinated
Gas Savings
Total CH4 Savings
Total C02 Savings
2000
2001
2002
2003
2004
2005
2006
2007
2008
Saving Energy in Commercial Buildings
Over 2,400 organizations—including more than 300 local
governments—have joined EPA's ENERGY STAR Challenge to
improve the efficiency of the nation's commercial buildings by
10 percent or more as measured by EPA's energy performance
rating system.
• More than 80,000 buildings, representing over 11.5 billion
square feet—or 16 percent—of U.S. building space, have
been assessed for efficiency as an important step in
targeting improvements.
• More than twice as many buildings earned the ENERGY
STAR in 2008 as in the previous year. Overall, more than
6,200 buildings—representing over one billion square
feet—have been recognized for top performance. These
buildings use nearly 35 percent less energy than typical
buildings.
Designing Commercial Buildings To Be Efficient
More than 75 projects achieved Designed to Earn the ENERGY
STAR, for a cumulative total of 130. Each of these future
buildings has been designed with the intent of earning the
ENERGY STAR.
Saving Energy in the Industrial Sector
• EPA engaged the U.S. steel industry to participate in an
Industrial Focus—the Industrial Focuses now include 16
major industries—and expanded the industrial program
to include a total of more than 550 partners working to
improve their corporate energy management systems.
• The number of ENERGY STAR labeled industrial plants
grew to 45, with the addition of another eight plants
earning the ENERGY STAR for the first time in 2008.
FIGURE 2. ENERGY STAR Benefits Continue To Grow
18
2000 2001 2002 2003 2004 2005 2006 2007 2008
Utility Bill Savings (in billions)
22
48-
16
27
29
24
10
I I I I
I I I I I I I
I I I I I I I I
2000 2001 2002 2003 2004 2005 2006 2007
Emissions Saved in Vehicle Equivalents (in millions)
2008
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EXECUTIVE SUMMARY
FIGURES. 2008 International Climate Protection Awards
The Climate Protection
Awards were
established in 1998 to
recognize outstanding
accomplishments in
protecting the Earth's
climate. So far, 169
individuals, companies,
and organizations from 19
countries have earned the EPA Climate Protection
Award. For 2008,17 individuals and organizations
were recognized for reducing GHG emissions
by improving energy efficiency, introducing new
technologies, purchasing green power, and
inspiring local and global action to protect the
climate. Each winner serves as an example and
inspiration for others to take action. This year's
winners are from Argentina, India, the Federated
States of Micronesia, Mauritius, Mexico, and the
United States.
CORPORATE AND GOVERNMENTAL AWARD WINNERS
• California Climate Action Team, United States
• City of Berkeley, United States
• Mauritius and the Federated States of Micronesia
• Regional Greenhouse Gas Initiative, United States
• Sun Microsystems, United States
TEAM AND ORGANIZATION AWARD WINNERS
• Building Owners and Managers Association International, United States
• Consortium for Energy Efficiency, United States
• Pacific Forest Trust, United States
• Agustm Sanchez and Laura Beron, Mexico and Argentina
INDIVIDUAL AWARD WINNERS
• Mr. George David Banks, United States
• Ms. Sandra Ely, United States
• Mr. Edward Thomas Morehouse, Jr., United States
• Dr. AjeetRohatgi, United States
• Dr. Joseph Senecal, United States
• Mr. Rajendra Shende, India
Climate Leaders
Climate Leaders, the largest corporate GHG goal-setting
program, grew to nearly 250 participants—an increase of 60
percent in one year. Further, about half of the partners have
publicly announced and are working to meet their aggressive
GHG reduction goals. Twenty-one partners have achieved
their initial emissions reduction goals and are pursuing new
ones. Together, the announced goals represent a potential
reduction in GHG emissions of more than 13 MMTCE over
business-as-usual outcomes.
Clean Energy Supply Programs
Increasing clean energy supply through efficient and
low-emitting supply options is another critical strategy
for reducing GHG emissions. EPA's Clean Energy Supply
programs, which provide technical assistance and recognize
significant purchasers of renewable energy, engaged more
than 1,300 partners in the purchase of over 16 billion kWh of
green power and the installation of over 130 megawatts (MW)
of new, environmentally beneficial combined heat and power
(CHP) capacity—about 50 percent of nationwide capacity that
came on line in 2008.
State and Local Government Clean Energy
Programs
EPA made important progress assisting state and local
governments in exploring and implementing a broad range of
energy efficiency, clean energy, and climate change policies
and programs.
• EPA established a comprehensive nationwide program
that helps states learn from the experiences of the 16
states in the partnership and others. EPA also expanded
its municipal network to include hundreds of local
governments.
• The EPA- and U.S. Department of Energy (DOE)-facilitated
National Action Plan for Energy Efficiency released
Vision for 2025: Framework for Change, which provides
a comprehensive framework for state-specific policies
and programs to overcome barriers and realize all cost-
effective energy efficiency potential. Many states received
assistance in advancing these policies.
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ENERGY STAR and Other Climate Protection Partnerships 2008 Annual Report
TABLE 2. ENERGY STAR Key Program Indicators, 2000 and 2008
ENERGY STAR
PROGRAM STRATEGY
Efficient Products
(for more information, see p.18)
KEY INDICATOR
Product Categories Eligible for ENERGY STAR
Individual Product Models Qualifying
Products Sold1-2
Public Awareness
Manufacturing Partners
Retail Partners
EE Program Administrator Partners
YEAR OF RESULTS
33
11,000
600 million
40%
1,600
550
100
>60
>40,000
>2.5 billion3
>75%
2,400
>1,000
>550
Home Improvement
(for more information, see p. 25)
Homes Improved through Home Performance with
ENERGY STAR1
EE Program Administrator Partners
Homes Benchmarked using Yardstick1
50,000
27
200,000
New Homes
(for more information, see p. 26)
Number of New Homes Built1
Percent of National New Home Starts
Markets with over 20% Market Share
Builder Partners
25,000
<1%
0
1,600
940,000
17%
15
6,500
Existing Commercial Buildings
(for more information, see p. 29)
Number of Buildings Rated1
Building Square Footage Rated1
Percent of Commercial Square Footage Rated
Building Types Eligible for the ENERGY STAR Label
Number of Buildings Labeled1
Building Square Footage Labeled1
New Commercial Buildings
(for more information, see p. 33)
Number of Buildings Designed to Earn the
ENERGY STAR1
4,200
800 million
1%
2
545
128 million
>80,000
>11.5 billion
16%
11
6,200
>1 billion
130
Industrial Improvements
(for more information, see p. 34)
Industrial Partners
Industrial Sectors (and subsectors)
Facility Types Eligible for the ENERGY STAR Label
Number of Facilities Labeled1
>550
16
5
45
Annual Results
(for more information, see p. 67)
Energy Saved (kWh)
Emissions Avoided (MMTCE)
Net Savings (USD)
62 billion
15.8
$5 billion
188 billion
45
$18 billion
' Results are cumulative.
2 The cumulative total of product sales across the entire ENERGY STAR program from 1992-2008, including those from the efforts of the U.S. Department of Energy. The results for energy saved and
the resulting environmental and economic benefits represent EPA efforts alone.
Compact fluorescent bulbs are not included in the number of ENERGY STAR qualified products purchased.
— .' Not applicable
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EXECUTIVE SUMMARY
Methane Partnership Programs
EPA's methane programs continued to reduce the emissions
of this potent GHG from landfills, agriculture, oil and natural
gas systems, and coal mines and to develop projects to use
the methane whenever feasible. In 2008, these programs
avoided more than 20.3 MMTCE of GHG emissions, exceeding
their emissions reductions goals and maintaining national
methane emissions 14 percent below 1990 levels.
Fluorinated GHG Partnership Programs
EPA's fluorinated GHG (FGHG) partnerships kept national
emissions of these gases from industrial sources more than 30
percent below 1990 levels.3 Together, these programs avoided
more than 14.8 MMTCE of GHG emissions in 2008.
Recognizing Partner Accomplishments
EPA recognized the accomplishments of many outstanding
partners in its climate protection partnership programs with
the following awards:
• International Climate Protection Awards (see Figure 3, p. 5)
• ENERGY STAR Award Winners (see Figure 6, p. 17)
• Green Power Leadership Awards (see Table 12, p. 43)
• ENERGY STAR CHP Awards (see Table 14, p. 46)
• Natural Gas STAR Awards (see Table 18, p. 55)
• Landfill Methane Outreach Awards (see Table 19, p. 60)
TABLE 3. Long-term Greenhouse Gas Reduction Goals for EPA Climate Partnership Programs (MMTCE)
ACCOMPLISHMENTS
PROGRAM
ENERGY STAR*
Clean Energy Supply Programs
Methane Programs
Fluorinated GHG Programs
TOTAL
45.0
6.1
20.3
14.8
86.2
52
8
18
19
97
GOALS
2015
64
12
20
22
118
*Does not include ENERGY STAR products managed by DOE.
Looking Forward to 2009 and Beyond
EPA's programs continue to advance GHG reduction goals
and deliver greater benefits each year. Expected to double
again within 10 years, these benefits can only grow as more
organizations, households, and others adopt the practices
promoted by the climate protection partnerships (see
Table 3). The following voluntary programs are an important
complement to state and federal regulatory actions on climate
change. EPA will pursue broad strategies to reach aggressive
interim goals and achieve growing environmental and
economic benefits.
ENERGY STAR
EPA will continue to build the ENERGY STAR program as
a credible source of information for investing in energy
efficiency for consumers, businesses, and other organizations
to leverage as part of their own efficiency and GHG reduction
efforts in the following ways:
• Expand to cover new product categories—adding about
two each year—and increase the stringency of ENERGY
STAR requirements for products where appropriate.
• Increase the number of builders offering ENERGY STAR
qualified new homes, expand market share, and work
to increase the stringency of the requirements for these
homes.
• Launch Home Performance with ENERGY STAR in new
regions of the country.
• Expand the use of the energy assessment tools available
through ENERGY STAR as a way to target improvements
in commercial building efficiency and use the ENERGY
STAR label to recognize new and existing high performing
commercial buildings.
• Work with Industrial Focuses, finalize energy performance
indicators, and expand the ENERGY STAR labeling program
for efficient plants.
Emissions do not include those used in mobile air conditioning or as replacements for ozone depleting substances.
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ENERGY STAR and Other Climate Protection Partnerships 2008 Annual Report
• Review and evaluate the methodologies and assumptions
used to calculate the benefits associated with ENERGY
STAR qualified products.
Climate Leaders
EPA will continue to engage organizations of all kinds,
while providing support to existing partners to reach their
GHG reduction goals. EPA expects growing interest from
organizations interested in better understanding and reducing
their carbon footprints. EPA will also assist these organizations
in encouraging their suppliers to develop their own GHG
management strategies.
Clean Energy Supply Programs
EPA will continue to help partners improve the supply of the
nation's clean energy resources, supporting the purchase of
green power by aggressively promoting sector leadership
among colleges and universities, state and local governments,
and the Fortune 500. EPA will also assist in the development
of new CHP projects in sectors such as municipal and
cooperative utilities, wastewater treatment facilities, tribal
casinos, and data centers.
State and Local Government Clean Energy
Programs
EPA will continue to assist state and local governments in
advancing clean energy policies and programs. EPA will:
• Establish an online State Network for officials in all 50
states to learn from and exchange information about
energy and climate change initiatives, as well as provide
new guidance materials for implementing key policies.
• Use the policy framework created through the National
Action Plan for Energy Efficiency to support the
development of a long-term energy efficiency program
and policy infrastructure, including supporting energy
efficiency advanced through the American Recovery and
Reinvestment Act (ARRA) of 2009.
Methane and Fluorinated GHG Programs
With national methane and F-gas emissions below 1990
baselines, EPA will strive for further achievements in these
programs by working aggressively with companies in the
aluminum, magnesium, semiconductor, utility, HCFC-22,
and mobile air conditioning sectors to reduce emissions
of F-gases. EPA will also work to enhance its partnerships
with companies and communities to develop new methane
emissions reduction projects at coal mines, oil and gas
systems, landfills, and farms across the country. Through
the Methane to Markets Partnership, EPA will continue to
spread the successful practices of these domestic methane
partnership programs overseas.
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INTRODUCTION TO ERA'S CLIMATE PROTECTION PROGRAMS
Across the United States a number of cost-effective opportunities exist to greatly reduce GHG
emissions and protect the environment. However, consumers and organizations have not seized many
of these opportunities due to pervasive market barriers. For the past 16 years, EPA has worked to
dismantle the barriers that have prevented the adoption of and investment in energy efficiency, clean
energy, and other climate-friendly technologies and practices through its comprehensive suite of
climate protection partnership programs (see Table 4, p. 10). Through these partnership programs, EPA
offers a broad collection of tools, resources, best practices, and policies to thousands of partners and
consumers. The core elements of these programs are:
• Objective information
• Technical assistance
• Public recognition for environmental leadership
As a result of their participation, EPA's partners—along with American consumers—have significantly
reduced energy use; avoided GHG emissions across the residential, commercial, and industrial sectors;
and captured real financial and environmental benefits. As these partnership programs continue to
grow each year, so do their environmental and financial benefits; in 2008, EPA's climate partnerships
achieved remarkable benefits, which are expected to double by 2018.
The programs summarized in this report4 focus on the five broad strategies described below to achieve
their goals.
4 This report provides results for the Climate Protection Partnership Programs operated by the Office of Atmospheric Programs at EPA. It does not include emissions
reductions attributable to WasteWise, transportation programs, the Significant New Alternatives Program, or the landfill rule, which are the remaining actions in EPA's
comprehensive climate program. EPA estimates that the reduction in greenhouse gas emissions across the entire set of climate programs to be about 120 million metric
tons of carbon equivalent (MMTCEj in 2008.
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ENERGY STAR and Other Climate Protection Partnerships 2008 Annual Report
TABLE 4. Market Barriers Addressed by EPA's Climate Partnership Programs
CLIMATE PROTECTION PARTNERSHIP PROGRAM
Energy
Consumers
Lack of information about energy efficiency
and renewable energy options
Competing claims in the marketplace
Lack of objective measurement tools
High transaction costs
Lack of reliable technical assistance
Split incentives
Perceptions of organizational risks
Lack of objective basis for recognition of
environmental stewardship
Utilities
Lack of objective measurement tools
Lack of information about energy efficency
program costs and benefits
Disincentives for energy efficiency in
existing regulations and energy planning
processes
Industries with
Byproduct GHG
Emissions*
Lack of reliable technical assistance
Lack of objective basis for recognition of
environmental stewardship
State and Local
Policy and
Decisionmakers
Lack of information about clean energy
policies
• •
Lack of reliable technical assistance
Lack of objective basis for recognition of
environmental stewardship
'Includes utilities.
10
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INTRODUCTION
FIGURE 4. U.S. C02 Emissions by Sector and Non-C02 Gases
by Percent of Total GHGs
Other
Methane
Emissions
8.7%
Agriculture
1.2% ~
Commercial
14.8%
Non-CO
Transportation
26.8%
Residential
17%
Industry
25%
FIGURE 5. U.S. Electricity Generation by Fuel Type
Petroleum
Hydroelectric
Conventional
5.8%
Other
Renewables
2.5%
1.6%
Other
0.6%
Nuclear
19.4%
Coal
48.5%
Natural Gas
21.6%
Source: EPA 2009s
"Includes wind, photovoltaic energy, solar thermal, geothermal, landfill gas, agricultura
byproducts, wood, and other renewable sources.
Source: EIA 2009c
Program Strategies
Promoting Energy Efficiency
Energy efficiency—obtaining identical services or output
(such as heating, cooling, and lighting) with less energy
input—is one of the lowest cost solutions for combating
global climate change (see Figure 4). Since 1992, EPA has
been expanding the ENERGY STAR program to help individuals
and organizations across the nation adopt proven, cost-
effective, energy-efficient technologies and practices by:
• Clearly identifying energy-efficient products with superior
performance in the marketplace.
• Improving voluntary energy efficiency specifications for
new home construction and existing home renovations.
• Promoting strategic energy management practices across
the commercial and industrial sectors so that businesses
and organizations can proactively reduce their energy use.
Facilitating Corporate Commitments To Reduce
GHG Emissions
Partners in EPA's Climate Leaders program are Fortune
500 and other leading corporations that have committed
to aggressively reducing their GHG emissions. Companies
agree to complete a comprehensive inventory of their GHG
emissions, set an ambitious long-term reduction goal, and
annually report their progress to EPA when they join. Climate
Leaders are reducing their carbon footprint and earning
recognition for environmental stewardship through the
program by investing in energy efficiency, clean energy, and
other measures to reduce emissions of GHGs.
Expanding Clean Energy Supply
In 2001, EPA launched the Green Power Partnership and the
Combined Heat and Power (CHP) Partnership to accelerate
the adoption of clean energy supply technologies across the
United States (see Figure 5). These partnerships are spurring
resource growth by promoting greater purchase of electricity
derived from renewable sources and greater investment
in environmentally friendly CHP. EPA has partnered with
hundreds of organizations through these programs to provide
technical assistance, minimize transaction costs, and promote
technologies that significantly reduce GHG emissions from
energy generation.
11
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ENERGY STAR and Other Climate Protection Partnerships 2008 Annual Report
The 2008 Annual Report
This annual report presents detailed information on EPA's
2008 efforts within each of the five strategies mentioned in
this section. Each individual program section includes:
• Program overview and accomplishments.
• Environmental and economic benefits achieved
in 2008.
• Goals for the future.
• Summaries of the major tools and resources offered by
the program.
EPA is committed to documenting quantifiable program
results and using well-established methods to estimate
the benefits of its climate partnership programs. Specific
approaches vary by program strategy, sector, availability
of data, and market characteristics (these methods are
reviewed in the final section of the report, page 67). For
each program, EPA addresses common issues that arise
when estimating program benefits, such as data quality,
double counting, free-ridership, external promotion by third
parties, and market effects, among others. The information
presented in this annual report is similarto much of the
information used in the U.S. Office of Management and
Budget (OMB) Program Assessment Rating Tool (PART),
which found these EPA programs to be achieving their
goals.
Advancing State and Local Energy Policy
Significant informational and institutional barriers can prevent
state and local entities from implementing policies and making
investments that spur development in energy efficiency and
clean energy. Through the Clean Energy-Environment State
Partnership and the Clean Energy-Environment Municipal
Network, EPA provides state and local energy policymakers
with tools and resources that allow them to explore,
evaluate, and implement a variety of clean energy policies.
EPA is also facilitating the National Action Plan for Energy
Efficiency (Action Plan) along with DOE. In addition to other
EPA utility policy efforts, the Action Plan builds awareness
of and provides guidance on how to overcome state policies
that limit greater investment in energy efficiency by utilities
and other third-party administrators of energy efficiency
programs.
Reducing Non-C02 GHG Emissions
While carbon dioxide (C02) is the most recognizable GHG, a
number of GHGs can trap significantly more heat in the earth's
atmosphere, on a per molecule basis, than C02. Many of these
gases are released as byproducts of industrial operations.
EPA's climate partnerships are significantly reducing
emissions of these gases, as described below:
• Methane is both a potent GHG and a highly desirable clean
fuel. EPA partners with the oil and natural gas, coal mining,
agriculture, and landfill gas development industries to help
them capture methane in a cost-effective manner and use
it or sell it as a clean energy source.
• Many of thefluorinated gases (F-gases)—including
hydrofluorocarbons (HFCs), perfluorocarbons (PFCs), and
sulfur hexafluoride (SF6)—are extremely powerful and
persistent GHGs. To avoid significant accumulation of
these gases in the atmosphere, EPA collaborates with the
aluminum, magnesium, and semiconductor industries; the
HCFC-22 industries; the electric utilities; and companies
engaged in the mobile air-conditioning industry.
12
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ENERGYSTAR
ENERGY STAR OVERVIEW
Energy efficiency is a proven, practical solution to the critical issues facing the United States and
the global community. It is the lowest cost, fastest, and largest untapped answer for reducing GHG
emissions in the nearfuture. Atthe same time, greater efficiency of the nation's housing, buildings, and
industries will help Americans meet today's energy and environmental challenges, while creating new
jobs and stimulating the U.S. economy.
Since its inception by EPA in 1992, the ENERGY STAR program has helped drive investment in energy-
efficient products, technologies, and practices that go well beyond existing appliance standards and
building codes. EPA has used a variety of strategies to catalyze market transformation, including
information dissemination; technical assistance; definition of specifications and verification of top
performing products, buildings, and new homes; and recognition of organizations that have made
substantial progress in reducing GHG emissions. In 1996, EPA partnered with DOE, which assumed
responsibility for specific product categories.
Many homeowners, businesses, and other consumers rely on the ENERGY STAR program as a trusted
source of unbiased information to help them lower their energy bills while fighting global climate
change. The program benefits have grown steadily since 1992 and will continue to grow as consumers
and businesses leverage the ENERGY STAR program and take steps to:
• Select efficient products in more than 60 product categories.
• Undertake home improvement retrofits.
• Buy efficient new homes.
• Improve the efficiency of public and private commercial buildings.
• Design efficient buildings.
• Improve the efficiency of industrial facilities.
13
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ENERGY STAR and Other Climate Protection Partnerships 2008 Annual Report
Achievements in 2008
National Benefits
The combined achievements across the ENERGY STAR
program include the following:
• Financial Savings. Americans saved about$18 billion on
their utility bills across the residential, commercial, and
industrial sectors (see Table 1, p. 3).
Energy Savings. Americans avoided the need for about
190 billion kilowatt-hours (kWh) of electricity or almost
5 percent of the total 2008 U.S. electricity demand.
GHG Emissions Prevented. Americans avoided
45 million metric tons of GHG emissions (see Table 5),
equivalent to the GHG emissions from 29 million vehicles.
TABLE 5. ENERGY STAR Program Achievements Exceed Goals in 2008
All Qualified Products1
New Homes2
Commercial Building
Improvements3
Industrial
Improvements4
PROGRAM TOTAL for
ENERGY STAR
2008 2008
ENERGY SAVED EMISSIONS AVOIDED
(BILLION KWH) (MMTCE)
GOAL ACHIEVED GOAL ACHIEVED
— 97.7 18.5 19.4
— 1.8 1.0 0.5
— 72.9 13.5 18.5
— 16.5 4.2 6.6
165 188.9 37.2 45.0
2009 2009
ENERGY SAVED EMISSIONS
(BILLION KWH) AVOIDED (MMTCE)
GOAL GOAL
— 20.5
— 1.3
— 14.5
— 4.5
— 40.8
ACHIEVEMENTS BY PRODUCT TYPE
Residential Products Total
Consumer Electronics5
Residential Appliances6
Residential Office Equipment
Lighting
Heating and Cooling
Commercial Products Total
Commercial Appliances
Office Equipment
Commercial Lighting
Other
CUMULATIVE TOTAL
2008
ENERGY SAVED
(BILLION KWH)
45.3
19.2
1.4
7.7
9.1
7.9
52.4
2.5
39.8
1.3
8.8
97.7
2008
EMISSIONS AVOIDED
(MMTCE)
9.6
3.6
0.3
1.5
1.7
2.5
9.8
0.5
7.6
0.2
1.5
19.4
'Results for qualified products from Woman et al, 2009. 'Results for qualified homes from CPPD, 2009. 'Results from building improvements based on methodology presented in Horowitz, 2009.
'Electricity results from industrial improvements based on methodology presented in Horowitz, 2009. SA small portion of consumer electronics may be used in commercial buildings such as
hotels. For reporting purposes, all consumer electronics results are included under Residential Products. 'EPA results only, does not include products under the responsibility of DOE. Totals may
not equal sum of components due to independent rounding.
—: Not applicable
14
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ENERGY STAR: OVERVIEW
Key Achievements by Program Focus
About 40 percent of the program benefits achieved in 2008
came from the purchase and use of ENERGY STAR qualifying
products and new homes. Promoting improved energy
management strategies for organizations in the commercial
and industrial sectors accounted for the remaining 60
percent. Other key achievements in 2008 include:
• ENERGY STAR Awareness. Public awareness of the
ENERGY STAR label rose to more than 75 percent.
• Products. U.S. consumers purchased more than 550
million ENERGY STAR qualified products for a total of more
than 2.5 billion since 2000.5
• Residential Buildings. About 17 percent of all new homes
built in 2008 were constructed to meet ENERGY STAR
guidelines.6 There was a grand total of nearly 940,000
homes and multifamily units constructed by the end of
2008. The number of whole home retrofits continued to
grow; and new programs were rolled out to improve the
installation of heating and cooling equipment.
• Commercial Buildings. To date, more than 2,400
organizations have joined EPA in the challenge to reduce
energy use in their buildings by 10 percent or more; 16
percent of the nation's building space has been assessed
for energy performance; more than 6,200 buildings
have earned the ENERGY STAR for superior energy
performance; and 130 new building design projects are
Designed to Earn the ENERGY STAR.
• Industrial Facilities. EPA's ENERGY STAR Industrial
Focuses expanded to include 16 sectors with the launch
of a new Steelmaking Focus; participation in the peer
exchange network increased by 30 percent; and 28 plants
earned the ENERGY STAR, including eight for the first time,
across three sectors—automobile manufacturing, cement
manufacturing, and petroleum refining—bringing the total
to 45.
Partnership-Driven Change
EPA now engages more than 15,000 businesses and
organizations across the country to spur the adoption of
energy-efficient products, practices, homes, buildings, and
services that lower energy bills and benefit the environment.
These partners include:
• Manufacturers. Over 2,400 manufacturers using the
ENERGY STAR label to differentiate more than 40,000
individual product models across more than 60 product
categories. These products can save consumers up to
one-third on their annual total household energy bills (see
Table 6, p. 16).
• Retailers. More than 1,000 retail partners bringing ENERGY
STAR qualified products and educational information to
their customers.
• Builders. More than 6,500 builder partners constructing
new homes that qualify for the ENERGY STAR in every
state and the District of Columbia—saving homeowners
money while maintaining high levels of comfort.
• Building and Facility Owners. Nearly 2,500 private
businesses, public sector organizations, and industrial
facilities investing in energy efficiency and reducing
energy use in their buildings and facilities.
• Energy Efficiency Program Sponsors. More than 40 states,
550 utilities, and many other energy efficiency program
sponsors leveraging ENERGY STAR resources to improve
the efficiency of commercial buildings, industrial facilities,
and homes.
• Other Partners. Hundreds of energy service providers,
energy raters, financial institutions, architects, and
building engineers making energy efficiency more widely
available through ENERGY STAR—providing additional
value to their customers.
• Environmental Leaders. EPA and DOE recognizing the
outstanding commitments of 89 partners at the 2008
Partner of the Year Awards (see Figure 6, p. 17).
Compact fluorescent bulbs are not included in the number of ENERGY STAR qualified products purchased.
Single family site-built new homes.
15
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ENERGY STAR and Other Climate Protection Partnerships 2008 Annual Report
TABLE 6. Average Consumer Energy Savings of ENERGY STAR Qualified Products
ENERGY STAR PRODUCT CATEGORY
AVERAGE ENERGY
SAVINGS** ABOVE
STANDARD PRODUCT
ENERGY STAR PRODUCT CATEGORY
AVERAGE ENERGY
SAVINGS** ABOVE
STANDARD PRODUCT
OFFICE
Monitors
Computers
Fax machines
Copiers
Multifunction devices
Scanners
Printers
CONSUMER ELECTRONICS
TVs
VCRs
TVs/DVDs/VCRs
DVD products
Audio equipment
Telephony
Digital-to-analog converter (DTA)
External power adapters
Battery charging systems
Set-top boxes
HVAC
Furnaces
Central air conditioners
Air source heat pumps
Geothermal heat pumps
Boilers
Programmable thermostats
Light commercial HVAC
35-65%
20-50%
40%
20%
20-55%
10%
10-35%
20%
55%
35%
35%
Qno/
JU 70
55%
50%
5%
30%
30%
10%
10%
10%
on ox
30%
5%
N/A
5%
LIGHTING
Compact fluorescent light bulbs (CFLs)*
Decorative light strings
Residential light fixtures
RESIDENTIAL APPLIANCES
Room air conditioners*
Dehumidifiers
Room air cleaners
Exhaust fans
Ceiling fans
Dishwashers*
Refrigerators and freezers*
Clothes washers*
COMMERCIAL APPLIANCES
Water coolers
Commercial solid door refrigerators
and freezers
Commercial hot food holding cabinets
Commercial fryers
Commercial steamers
Vending machines
HOME ENVELOPE
Insulation/Sealing
Roof
Windows, doors, and skylights*
75%
70%
75%
10%
15%
40%
70%
50%
15%
15%
30%
45%
W^ty
oD /o
65%
20%
50%
40%
N/A
N/A
N/A
* DOE managed products.
**Actual savings will vary by climate region and home characteristics.
N/A: Not available
16
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ENERGY STAR: OVERVIEW
FIGURE 6. ENERGY STAR Award Winners
To learn more about these award winners and their great accomplishments, see Profiles in Leadership: 2009 ENERGY STAR
Award Winners.*
SUSTAINED EXCELLENCE
3M
St. Paul, MN
Advantage IQ, Inc.
Spokane, WA
Anderson/Vanguard
Homes, Inc.
Car/, A/C
Austin Energy
Austin, TX
Building Owners & Managers
Association (BOMA)
International
Washington, DC
CalPortland Company
Glendora, CA
CenterPoint Energy
Houston, TX
Food Lion, LLC
Salisbury, NC
Ford Motor Company
Dearborn, Ml
GE Consumer & Industrial
Louisville, KY
Giant Eagle Incorporated
Pittsburgh, PA
Gorell Enterprises, Inc.
Indiana, PA
Gresham-Barlow School
District
Gresham, OR
Mines
Houston, TX
J. C. Penney Company, Inc.
Piano, TX
Marriott International, Inc.
Washington, DC
Merck & Co., Inc.
Whitehouse Station, NJ
National Grid
Waltham, MA
Oncor
Dallas, TX
OSRAM SYLVANIA
Danvers, MA
Pacific Gas and Electric
Company
San Francisco, CA
Pella Corporation
Pella, IA
PepsiCo, Inc.
Purchase, NY
ProVia Door
Sugarcreek, OH
Providence Health & Services
Renton, WA
Raytheon Company
Waltham, MA
Sea Gull Lighting
Products LLC
Riverside, NJ
Southern California Edison
Company
Rosemead, CA
Toyota Motor Engineering
& Manufacturing North
America, Inc.
Erlanger, KY
TRANSWESTERN
Houston, TX
USAA Real Estate Company
San Antonio, TX
Whirlpool Corporation
Benton Harbor, Ml
Winton/Flair Custom Homes
El Paso, TX
Wisconsin Focus on Energy
Madison, Wl
PARTNER OF THE YEAR
Akridge
Washington, DC
Arizona Public Service
Phoenix, AZ
ArcelorMittal USA
Chicago, IL
Bosch Home Appliances
Huntington Beach, CA
CB Richard Ellis, Inc.
Los Angeles, CA
CEMEXUSA
Houston, TX
Colorado Governor's
Energy Office
Denver, CO
Council Rock School
District
Newtown, PA
Energy Education
Dallas, TX
Energy Inspectors
Corporation
Las Vegas, A/1/
EnergyLogic
Berthoud, CO
Energy Trust of Oregon,
Inc.
Portland, OR
Fox Energy Specialists
Fort Worth, TX
ITW Food Equipment
Group - North America
Troy, OH
The Joint Management
Committee representing
Massachusetts
New Homes with
ENERGY STAR
Massachusetts
Kennedy Associates Real
Estate Investment
Advisors
Seattle, WA
Nash-Rocky Mount Public
Schools
Nashville, NC
NJBPU, New Jersey's
Clean Energy Program
Newark, NJ
Northwest Energy
Efficiency Alliance
Portland, OR
Puget Sound Energy
Bellevue, WA
Rocky Mountain Power, a
Division of PacifiCorp
Salt Lake City, UT
Saint-Gobain
Valley Forge, PA
Satco Products, Inc.
featuring Nuvo Lighting
Brentwood, NY
Schering-Plough
Corporation
Kenilworth, NJ
SENERCON
El Paso, TX
Servidyne
Atlanta, GA
Southern Energy
Management
Morrisville, NC
Sunoco, Inc.
Philadelphia, PA
Technical Consumer
Products, Inc.
Aurora, OH
TIAA-CREF
New York, NY
Whitefish Bay School District
Whitefish Bay, Wl
Xcel Energy
Minneapolis, MN
AWARDS FOR
EXCELLENCE
Actus Lend Lease
Nashville, TN
Best Buy Co , Inc
Richfield, MN
Blue Hills Community
Services
Kansas City, MO
City of Topeka, Housing
& Neighborhood
Development
Topeka, KS
CoStar Group, Inc.
Bethesda, MD
Energy Kinetics, Inc.
Lebanon, NJ
Georgia Power
Atlanta, GA
Ithaca Housing Authority
Ithaca, NY
Ivey Residential, LLC
Augusta, GA
KB Home
Los Angeles, CA
Maryland Energy
Administration
Annapolis, MD
Menards
Eau Claire, Wl
Nashville Area Habitat
for Humanity
Nashville, TN
Nationwide Marketing
Group
Winston-Salem, NC
Samsung Electronics
Co., Ltd.
Suwon, Korea
Seattle Lighting and
DestinationLighting.com
Seattle, WA
Vietnamese American
Nevada ENERGY STAR
Partners
Las Vegas, A/1/
New York State Energy
Research and Development
Authority (NYSERDA)
Albany, NY
Northeast ENERGY STAR
Products Initiative
Lexington, MA
Kimberly-Clark Corporation
Irving, TX
Lowe's Companies, Inc.
Mooresville, NC
MaxLite
Fairfield, NJ
Initiative for
Development, Inc.
Dorchester, MA
*For more information, see http://www.energystar.gov/ia/partners/pt_awards/2009_profiles_in_leadership.pdf.
17
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ENERGY STAR QUALIFIED PRODUCTS
Recognized by an ever-growing number of consumers, ENERGY STAR continues to be the trusted
symbol of energy efficiency, as demonstrated by increasing sales of ENERGY STAR qualified products.
Americans purchased about 550 million ENERGY STAR qualified products in 2008—across more than
60 product categories—for a cumulative total of more than 2.5 billion products since 2000 (see Figure
7, p. 20). These products offer consumers energy savings of as much as 75 percent compared with
standard models. Key activities in 2008 included:
• Updating specifications for 10 product categories (see Table 7).
• Educating consumers on the benefits and availability of ENERGY STAR qualified products.
• Supporting and developing key partnerships with energy efficiency program sponsors, lighting
showrooms, and retailers.
• Monitoring and protecting the use of the ENERGY STAR label.
18
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ENERGY STAR: QUALIFIED PRODUCTS
Table 7. ENERGY STAR Product Specifications Added, Revised, and in Progress
YEAR
INTRODUCED RESPONSIBLE
PRODUCT CATEGORY (AND REVISED) AGENCY STATUS OF ACTIVITY IN 2008
2005 (2008)
2008 REVISIONS COMPLETED
External Power
Adapters
1998(2002,2004,
2005, 2008)
2002 (2004, 2006,
2008)
2007 (2009)
2001 (2005,2009)
1992(1995,1999,
2000, 2007, 2009)
1995(2006,2008)
Televisions
Telephony
Imaging Products
Set-top Boxes
Computers
2001 (2003)
Furnaces
2008 REVISIONS IN PROGRESS
Commercial Solid
Door Frig/Freezer
1992(1995,1998,
1999,2005,2006)
Programmable
Thermostats
Monitors/Displays
1995
2001(2003)
2007
Ventilation Fans
Game Consoles
NEW SPECIFICATIONS IN DEVELOPMENT
Commercial Griddles
Commercial Glass
Door Frig/Freezer
Commercial Ovens
Lab Grade
Frig/Freezer
Enterprise Servers
SPECIFICATIONS SUNSETTED
Exit Signs 1996
VCRs 1998
EPA
EPA
EPA
EPA
EPA
EPA
EPA
EPA
EPA
EPA
EPA
EPA
EPA
EPA
EPA
EPA
EPA
EPA
EPA
Revision completed. Revised specification took effect November 1,2008.
New specification took effect November 1, 2008.
Revision completed. Revised specification took effect November 1, 2008.
Revision completed. Revised specification to take effect July 1, 2009.
Revision completed. Revised specification to take effect January 1,2009.
Revision completed. Revised specification to take effect July 1, 2009.
Revision completed. Revised specification took effect October 1, 2008.
Revision initiated in 2007.
In progress, expected to be complete in 2009.
In progress, current specification scheduled to be sunsetted December 31,
2009.
Revision initiated in 2007, expected to be complete in 2009.
In progress, expected to be complete in 2010.
New specification to be completed in 2009.
New specification to be completed in 2009.
New specification to be completed in 2009.
New specification to be completed in 2009.
New specification to be completed in 2009.
Due to successful transformation of market, specification was sunsetted in
2008.
Due to changes in the market, specification was sunsetted November 1, 2008.
Achievements in 2008
Raising the Bar for ENERGY STAR
EPA increased the stringency for seven ENERGY STAR
specifications: set-top boxes, TVs, imaging products,
computers, external power adapters, telephony, and furnaces.
• Set-top Boxes. EPA revised specifications for set-top
boxes. Cable, satellite, and telecom set-top boxes that can
now earn the ENERGY STAR are at least 30 percent more
efficient than conventional models. In conjunction with
the new specification for set-top boxes, EPA launched a
partnership with cable, satellite, and telecommunications
companies that deliver content to consumers. As ENERGY
STAR partners, these companies agreed to improve the
energy efficiency of a significant number of set-top boxes
by offering qualified boxes to subscribers or by upgrading
boxes already in homes. If all set-top boxes sold in the
19
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ENERGY STAR and Other Climate Protection Partnerships 2008 Annual Report
United States met the new ENERGY STAR requirements,
the savings in energy costs would grow to about $2 billion
each year and GHG emissions would be reduced by the
equivalent of those from about 2.5 million vehicles.
• TVs. EPA finalized an important enhancementto the
ENERGY STAR specification for TVs, ensuring that qualified
models save energy not only while they are off, but also
when they are on. The potential savings from this program
update are substantial: if all TVs sold in the United States
met these ENERGY STAR requirements, the savings in
energy costs would grow to about $1 billion annually
and the reductions in GHG emissions would grow to
the equivalent of the emissions from about one million
vehicles.
• Imaging Products. Revisions to the ENERGY STAR
specification for imaging products—including printers,
copiers, scanners, fax machines, and all-in-one devices—
delivered an average 14-percent improvement in energy
efficiency compared to previously qualified models. If
all imaging products sold in the United States met the
new specification, consumers would save nearly $500
million a year in energy costs and prevent GHG emissions
equivalent to those from more than 500,000 vehicles.
• Computers. EPA capitalized on the rapidly evolving
computer market, further increasing the stringency of the
ENERGY STAR specification for desktop and notebook (or
laptop) computers, integrated computer systems, desktop-
derived servers, and workstations, ensuring that the label
continues to designate top performers. If all computers
sold in the United States met the new requirements, the
savings in energy costs would grow to more than $2 billion
each year and prevent GHG emissions equivalent to the
emissions from more than 3 million vehicles.
• External Power Adapters. EPA finalized revisions to
specifications for external power adapters. Consumers
can now purchase a growing number of products that
are packaged with qualified power adapters, which are
on average 30 percent more efficient than conventional
models. If all external power adapters sold in the United
States met the revised specifications, consumers would
save more than $2 billion each year and prevent GHG
emissions equivalent to those from more than 1.5 million
vehicles.
FIGURE 7. More Than 2.5 Billion ENERGY STAR Qualified
Products Purchased Since 2000
= 2.0
2000 2001 2002 2003 2004 2005 2006 2007 2008
HVAC and Other
[Appliances
Lighting*
Home Electronics
I Home Office Equipment
I Office Equipment
*Compactfluorescent bulbs are not included in the number of ENERGY STAR
qualified products purchased.
• In addition, EPA made significant progress in updating
specifications for displays, commercial solid door
refrigerators/freezers, and ventilation fans.
Empowering Consumers
The success of the ENERGY STAR program depends on the
public's awareness of both the financial and environmental
benefits of ENERGY STAR qualified products, homes, and
buildings. Each year, EPA engages in public outreach
campaigns to help raise awareness of ENERGY STAR and
these benefits. In 2008:
• EPA-managed ENERGY STAR national campaigns (see
sidebar, p. 21) and public service announcements (PSAs)
reached millions of people through TV, magazine, radio,
and online media outlets, and articles mentioning ENERGY
STAR had a reach of more than one billion readers.
• More than 75 percent of American households recognized
the ENERGY STAR label (see Figure 8).7
• More than 35 percent of American households knowingly
purchased an ENERGY STAR qualified product and more
than 75 percent of these households reported being
favorably influenced by the ENERGY STAR label and/
or likely to recommend ENERGY STAR products to their
friends.7
• The ENERGY STAR Web site experienced impressive
growth; visitor sessions reached 11 million, up from 10
million in 2007.
1 for more information, see U.S. EPA, 2009b.
20
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ENERGY STAR: QUALIFIED PRODUCTS
Fostering Partnerships
Partnerships with many types of organizations are critical to
the success of the ENERGY STAR program. These partners
not only offer ENERGY STAR qualified products in the
marketplace, but also educate consumers on a broad range
of energy-saving steps and provide incentives for purchasing
energy-efficient products. Highlights of these partnerships
include:
• Energy Efficiency Program Sponsors. Many utilities
and other energy efficiency program sponsors (EEPS)
are leveraging ENERGY STAR products and campaigns
to help their customers control energy costs, all while
meeting regional energy system needs. These include
reducing peak demand, delaying or avoiding the need
to build new power plants, and emitting fewer GHGs. To
date more than 550 utilities and other program sponsors
servicing 75 percent of U.S. households have partnered
Change the World, Start with ENERGY STAR Campaign
Building on the success of the ENERGY STAR Change a
Light, Change the World campaign, EPA launched Change
the World, Start with ENERGY STAR in 2008. This national
campaign challenged Americans to pledge to make energy-
efficient choices at home that help fight global climate
change. People who took
the ENERGY STAR pledge
committed to:
CHANGE THE WORLD,
START WITH ENERGY STAR
• Choosing ENERGY STAR
qualified appliances and
electronics.
• Maintaining home heating
and cooling systems to
improve efficiency.
• Ensuring homes are well
sealed and insulated.
• Enabling power management
features on home computers
and monitors.
Featuring a six-city tour of an energy-efficient home
exhibit, the campaign message reached 28 million people
and generated nearly 500,000 new pledges, equivalent to
individual actions that could save up to 800 million pounds
of GHG emissions.
with ENERGY STAR to deliver an increasingly broad
portfolio of offerings to their customers. Education about
ENERGY STAR is now incorporated in energy efficiency
programs in all 50 states, the District of Columbia, and
U.S. territories. Significant progress was made with
partnerships in the areas of commercial food service
equipment, residential light fixtures, and the Change the
World, Start with ENERGY STAR campaign.
Lighting Showrooms. EPA worked closely with
lighting showroom partners to increase information
available to consumers in the important product area
of ENERGY STAR qualified light fixtures and fans, with
an emphasis on residential construction projects in the
Pacific Northwest. These efforts included providing
key information to partner showroom sales staff and
representatives serving local builders, training the
Seattle-area builders, assisting local showrooms and
FIGURE 8. Awareness of ENERGY STAR Growing in the
United States
0% 10% 20% 30% 40% 50% 60% 70% 80%
2005
2006
2007
2008
Unaided Awareness
Aided Awareness
* Unaided annual result is statistically different from the result of the prior year.
** Aided and unaided annual results are statistically different from the results of the prior
year.
21
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ENERGY STAR and Other Climate Protection Partnerships 2008 Annual Report
their builder customers in developing lighting plans
for model homes, and helping create a media event to
highlight the installations.
• Retailers. The nation's retailers continue to be one of the
largest sources of information on ENERGY STAR products
for consumers. Sixty-five percent of households have been
exposed to the ENERGY STAR on store displays8—making
retail partnerships critical not just for consumer access to
ENERGY STAR products, but also for consumer education.
EPA works with key retailers to help them gain ever
greater traction for ENERGY STAR with shoppers. In 2008,
retailers made significant progress in increasing ENERGY
STAR electronic retailing—e-tailing—and grew their
online sales, particularly with enthusiastic support from
partners Lowe's, Best Buy, Menards, and Amazon.com.
Protecting the Value of ENERGY STAR
The ENERGY STAR identity is a valuable asset, and the mark
must be properly used and protected to ensure the integrity
and value of ENERGY STAR. EPA takes a number of measures
to maintain the integrity of the brand so that consumers will
continue to trust ENERGY STAR as a source of unbiased
information about energy efficiency.9
What To Expect in 2009 and Beyond
New Qualified Products
EPA will continue to expand the list of ENERGY STAR
qualified products by introducing new product categories,
initiating new product specification development activities,
and looking for new product categories that meet the core
ENERGY STAR principles. New specifications will cover
enterprise servers, commercial griddles, commercial glass
door refrigerators/freezers, lab grade refrigerators/freezers,
and commercial ovens. EPA will also begin discussions
with key stakeholders on the specifications for data center
storage devices and home network equipment.
Specification Revisions
EPA will again raise the bar on many common products by
revising ENERGY STAR specifications to make them even
more efficient. EPA will finalize revisions for nine product
categories—computers; displays; TVs; audio/video products;
Key accomplishments included:
• Perfoming numerous onsite retail store-level assessments
of product shelf inventory; reviewed more than 3,200
unique product models for labeling violations; and
identified eight violations during the retail store level
assessments.
• Negotiating agreements with the Home Ventilating Institute
(HVI), Air Movement & Control Association (AMCA), and
Association of Home Appliance Manufacturers (AHAM)
to leverage existing testing of ENERGY STAR products
through their third-party certification and verification
programs.
• Developing a new verification testing requirement for
computer manufacturers, which will mandate impartial
testing of ENERGY STAR qualified products in accredited
laboratories on an annual basis.
• Conducting verification testing for digital TV adapters
(DTAs) and computers.
• Completing two rounds of quality assurance testing for
light fixtures.
game consoles; light commercial heating, ventilating, and air
conditioning equipment; geothermal heat pumps; ventilation
fans; and commercial food-grade refrigerators. The Agency
will also make important advances in the specification
process for enterprise servers, programmable thermostats,
residential furnaces, and water coolers.
Partnerships
EPA will continue to work with its vast partnership network to
help consumers and businesses of all sizes choose ENERGY
STAR qualified products—particularly lighting products,
household appliances, commercial food service equipment,
office equipment, and heating and cooling products. The
Agency expects more than 300 million ENERGY STAR
qualified products to be sold each year for the foreseeable
future.10
For more information, see http://www.cee1.org/eval/2008_ES_survey_rep.pdf.
9 For more information, see Maintaining the Value of ENERGY STAR.
10 Number of products above does not include individual compact fluorescent bulbs.
22
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ENERGY STAR: QUALIFIED PRODUCTS
Integrity
EPA will continue to ensure the integrity of ENERGY STAR by
implementing a range of monitoring measures:
• Completing two sets of retail store-level assessments
to evaluate the use of the ENERGY STAR label and the
consumer experience at the point of purchase.
• Coordinating testing with a third-party certification
program for exhaust fans and dehumidifiers.
• Finalizing verification testing requirements for
computer manufacturers.
• Verification testing of select electronics products.
• Increasing quality assurance testing for light fixtures.
In addition, EPA will initiate a peer review to evaluate the
methodologies and assumptions used to calculate the
benefits associated with ENERGY STAR products, thus further
strengthening the value and integrity of the program.
About ENERGY STAR Product Specification Revisions
When the ENERGY STAR program was established in 1992,
EPA offered the label for two products—computers and
monitors. Since then, the program has grown to include
more than 60 product categories. Through the ENERGY
STAR program, EPA provides value to consumers by
enabling them to easily identify energy-efficient products.
To achieve this, EPA sets specifications that may only be
met by the most efficient products. For a product to qualify
for the ENERGY STAR label, it must meet a unique set of
specifications to guarantee that the product:
• Is energy-efficient
• Is cost-effective
• Maintains product performance or features
Revising ENERGY STAR Specifications
While EPA continues to expand its suite of labeled products,
it also revises numerous specifications to ensure that the
ENERGY STAR label remains meaningful to consumers. Over
the years, specifications for the majority of the product
categories have been revised to achieve additional energy
savings (see Table 8). Each year, EPA reviews current
product specifications and carefully considers the following
questions to assess whether a specification revision is
appropriate:
• Can significant additional energy savings be realized
nationally?
• Can energy consumption and performance be measured
and verified with testing?
• Can product or service performance be maintained or
enhanced with increased energy efficiency?
• Will purchasers be able to recover an additional
investment in increased energy efficiency within a brief
period of time?
• Can additional energy efficiency be achieved without
unjustly favoring one technology?
• Will ENERGY STAR labeling effectively differentiate
products and services and be visible to purchasers?
EPA carefully weighs these questions to decide which
products warrant specification revisions.
TABLE 8. EPA Maintains Efficiency Standards With 125 Product Specifications and Revisions
PRODUCT TYPE
NUMBER OF
PRODUCT
CATEGORIES
TOTAL NUMBER OF
SPECIFICATIONS
SPECIFICATIONS <
3 YEARS OLD AS OF
DECEMBER 2008
SPECIFICATIONS IN
PROCESS OF REVISION
IN 2008
Consumer Electronics
Office Equipment
HVAC
Commercial Food Service
Equipment
Lighting
Building Envelope
Appliances
Other
11
9
9
g
5
2
2
3
30
33
21
6
18
5
5
7
9
9
5
2
5
1
3
3
1
1
1
1
—
-
i
—: Not applicable
23
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ENERGY STAR IN THE RESIDENTIAL SECTOR
The energy used in homes currently accounts for nearly 17 percent of U.S. GHG emissions. To help
meet the nation's goal of improving energy efficiency and reducing emissions, it is critical for the
building and contracting industry, homeowners, and renters to make every effort to reduce the energy
used in homes. Through ENERGY STAR, EPA offers many tools and resources to help households and
the housing industry learn how to increase energy efficiency. Key 2008 program highlights included:
• More than 100,000 ENERGY STAR qualified homes were built in 2008—over 17 percent of all new
homes built in 2008—bringing the total number of qualified homes nationwide to nearly 940,000.
• More than 12,000 homes were retrofitted through Home Performance with ENERGY STAR in 2008, for
a total of over 50,000 homes across more than 25 states or regions of the country.
• More than 6,500 builders were active ENERGY STAR partners in 2008.
• Several national production builders committed to building 100 percent of their homes to meet
ENERGY STAR guidelines.
24
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ENERGY STAR: RESIDENTIAL SECTOR
FIGURE 9. Home Performance with ENERGY STAR Spreads Across the Country
NORTH DAKOTA
SOUTH DAKOTA
DELAWARE
MARYLAND
NORTH CAROLINA
SOUTH CAROUNA
I States with Home Performance
with ENERGY STAR Programs
Metro Areas with Home Performance
with ENERGY STAR Programs
Achievements in 2008
ENERGY STAR Home Improvement
Low-cost efficiency improvements in an existing home that
go beyond simply choosing energy-efficient products can
save households between 20 and 30 percent on their energy
bills—or $450 to $650 per year—while improving the comfort,
indoor air quality, value, and safety of their homes. Since
2001, EPA has designed programs that help households
capture the benefits of reducing home energy consumption.
EPA offers a range of tools and resources for consumers
to learn about their home improvement options. EPA also
works with utilities and other program sponsors who provide
incentives and training so that more and more households
can take advantage of improving home energy efficiency.
Expanding Home Performance with ENERGY STAR. Home
Performance with ENERGY STAR (HPwES) is a defined
service for comprehensive, whole-house energy efficiency
improvements through a network of contractors trained
in whole-house assessments. Regional HPwES sponsors
are responsible for the third-party quality review of the
contractors' work. Over the past 8 years, EPA has worked
with sponsoring partners such as state energy offices,
utilities, and not-for-profits to implement HPwES in more than
25 markets (see Figure 9). By the end of 2008, over 50,000
homes had been retrofitted through HPwES programs.
In 2008, EPA recognized more than 20 HPwES contractors
with the ENERGY STAR Century Club awards for each
completing 100 or more home performance jobs. In addition,
EPA and DOE hosted the National HPwES Symposium, which
brought the program's diverse sponsors together for the fifth
consecutive year to share valuable lessons and discuss ways
to expand the delivery of HPwES. Representatives from more
than 32 states and Canada participated, demonstrating the
growing interest in HPwES as a solution for improving the
efficiency of existing homes.
25
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ENERGY STAR and Other Climate Protection Partnerships 2008 Annual Report
Launching ENERGY STAR HVAC Quality Installation Guidelines.
EPA estimates that more than one-half of all air conditioners
in U.S. homes underperform by as much as 30 percent due to
improper installation. Launched by EPA in 2008, ENERGY STAR
HVAC Quality Installation uses guidelines approved by the
American National Standards Institute (ANSI)—developed
through the Air Conditioning Contractors of America (ACCA)—
to help ensure that consumers receive a properly sized
heating, ventilating, and air conditioning (HVAC) system with
sealed ducts, proper refrigerant charge, and optimized air
flow. EPA partnered with utilities to implement this program in
four markets.
Offering Home Energy Online Assessment Tools. EPA updated
its key home improvement assessment tools by making it
easier than ever for homeowners to use the ENERGY STAR
Home Energy Yardstick to assess the current efficiency of
their home (on a scale of 1 to 10). The Home Energy Yardstick
now links users directly to the ENERGY STAR Home Advisor,
which offers customized recommendations on boosting a
home's energy efficiency based on its location. Through 2008,
the Home Energy Yardstick had about 200,000 visitor sessions
and the Home Advisor was completed by nearly 70,000 users.
EPA also launched a new online quiz to educate homeowners
about best practices for maintaining their home's HVAC
system. Users are first asked how they currently maintain
their system. Based on the answers, the interactive quiz
encourages them to implement additional best practices to
help keep the HVAC system operating efficiently. By acting on
these recommendations, homeowners can save as much as
20 percent on their annual energy bills.
These online tools complement EPA's ENERGY STAR @
home interactive tool and two popular print resources: the
Guide to Energy Efficient Heating and Cooling and the Do-lt-
Yourself Guide to Sealing and Insulating (downloadable from
energystar.gov/publications)—giving consumers a variety of
helpful, easy-to-use resources whenever they need them.
ENERGY STAR for New Homes
Building efficiency into homes when they are being
constructed is one of the lowest cost options for improving
residential building efficiency across the country. ENERGY
STAR qualified homes offer buyers comfortable homes that
are 20 to 30 percent more efficient than those built to code.
The annual savings from lower energy bills can more than
z
FIGURE 10. More than 940,000 Homes Nationwide Bear the
ENERGY STAR Label
1,000,000
900,000
^/
800,000
| 700,000
o
^ 600,000
| 500,000
z 400,000
300,000
200,000
100,000
0
2000 2001 2002 2003 2004 2005 2006 2007* 2008*
» Cumulative Homes Built • Annual Homes Built
^Reflects transition to more stringent specification and slow down in U.S. housing starts.
offset the slightly higher mortgage some buyers may have in
order to pay for the built-in efficiency improvements.
Success continued for ENERGY STAR for New Homes in 2008,
despite the downturn in the new housing market, as described
below and shown in Figures 10 and 11.
Growing Outreach Partnerships. Through the Outreach
Partnership, ENERGY STAR partners pool their advertising
resources to increase consumer demand for ENERGY STAR
qualified homes in their market and enable participating
builders to distinguish themselves as environmental and
energy efficiency leaders. EPA, in turn, offers a host of
materials and support to help these partners implement a
robust advertising campaign. In 2008, Outreach Partnership
activities were organized in nearly 40 markets, with more than
1,000 participating partners—a record number. Across all
markets, partners contributed more than $2 million to support
outreach efforts.
Partnering with Affordable Housing Stakeholders. As part of
its ongoing efforts to improve access to energy-efficient
new homes for lower income families, EPA has formed
partnerships with affordable housing stakeholders at the
federal, state, and local levels:
26
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ENERGY STAR: RESIDENTIAL SECTOR
FIGURE 11. ENERGY STAR Qualified New Homes Gaining Market Share
Increasing Market Percentage
NEW HAMPSHIRE
MASSACHUSETTS
RHODE ISLAND
CONNECTICUT
12-20%
>20%
• Housing Finance Agencies. In 2008, EPA's ENERGY STAR
program provided 28 state housing finance agencies
(HFAs) with recommendations and cost/benefit analyses
to help them include energy efficiency measures in their
criteria for competitively allocating low-income housing
tax credits (LIHTC) to affordable housing developers. By
the end of 2008, at least seven state HFAs—Connecticut,
Delaware, Nevada, New Jersey, Pennsylvania, Utah, and
Washington—required that all new homes funded via
LIHTC programs meet or exceed ENERGY STAR qualified
home guidelines. This represents the annual construction
of more than 7,500 new affordable housing units.
• Federal Agencies. EPA partnered with DOE and the U.S.
Department of Housing and Urban Development (HUD)
to implement an Energy Action Plan that will reduce
energy consumption in HUD-funded and HUD-insured
housing. HUD promotes the construction of ENERGY STAR
qualified homes in its various grant programs, including its
Community Development Block Grant (CDBG) and HOME
programs. In 2008, more than 6,000 ENERGY STAR qualified
homes were built using CDBG or HOME funds. Of all the
homes constructed using HOME funds, 35 percent earned
the ENERGY STAR.
• Habitat for Humanity International. Habitat for Humanity
(HFH) International has made the ENERGY STAR
guidelines for new homes part of its recommended
construction specifications for all HFH affiliates. Together,
more than 300 HFH affiliates constructed over 1,100
ENERGY STAR qualified homes in 2008.
Piloting an ENERGY STAR Mortgage Program. In 2008, EPA
launched the ENERGY STAR Mortgage Program in Maine and
Colorado, a pilot study to offer financing for the purchase of
a new home or for making energy efficiency improvements
in existing homes. EPA's ENERGY STAR Mortgage Program—
developed in collaboration with DOE, the Energy Programs
Consortium, state energy and housing agencies, and the
Ford and Surdna Foundations—allows qualified borrowers
to incorporate the cost of energy efficiency improvements
as part of their mortgage, while providing them with reduced
borrowing costs such as a lower interest rate or reduced
27
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ENERGY STAR and Other Climate Protection Partnerships 2008 Annual Report
closing costs. To qualify, borrowers must be in the process
of purchasing an ENERGY STAR qualified home or making
energy efficiency improvements to their home via an HPwES
program or a Weatherization Assistance Program. Lenders
are required to undergo a third-party review, approval, and
oversight process to participate.
What To Expect in 2009 and Beyond
Home Improvement
• ARRA provides over$18 billion in energy efficiency funding.
HPwES can help recipients of ARRA funding create jobs,
save energy, and build energy efficiency infrastructure for
the long term through the expansion of job opportunities
for contractors. This capital, coupled with new federal
tax credits for homeowner energy efficiency investments,
creates an environment that can help HPwES expand its
reach in 2009 and beyond.
• EPA forecasts that more than 20,000 additional homes will
be improved through HPwES in 2009, bringing the total
number of retrofitted homes nationwide to nearly 70,000.
• EPA expects to launch seven new HPwES programs
in California, Delaware, Iowa, New Hampshire, North
Carolina, Texas, and Virginia.
• EPA will pilot a new approach to implementing HPwES by
partnering directly with home performance contractors.
The proposed pilot market will be the northern Virginia
suburbs of Washington, DC. If successful, the pilot program
will allow HPwES to tap the private sector and expand to
meet market demand instead of relying heavily on public
funding.
New Homes
• EPA forecasts that market share for ENERGY STAR qualified
homes will approach 20 percent in 2009 and that the one
millionth ENERGY STAR home will be constructed in 2009.
• To ensure that ENERGY STAR continues to represent a
meaningful improvement in efficiency over homes that
are built to code and standard practices, EPA will finalize
new, more rigorous guidelines for ENERGY STAR qualified
new homes in 2009. These third-generation guidelines will
become fully effective in January 2011.
• EPA will continue to explore more stringent versions of
an ENERGY STAR qualified home as a roadmap to future
specifications.
28
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ENERGY STAR IN
COMMERCIAL SECTOR
Commercial buildings now have a lead role in the nation's urgent effort to reduce energy consumption,
create new jobs, and fight global climate change because commercial buildings use nearly 20 percent
of the total energy consumed in the United States and add almost the same proportion of GHG
emissions to the atmosphere. Through the ENERGY STAR program, EPA is establishing a new paradigm
for building owners to reduce building energy use, save money, and protect the environment. EPA also
offers recognition opportunities to showcase their energy efficiency achievements.
In 2008, with the help of ENERGY STAR, partners in the commercial building sector made great strides in
improving energy efficiency. These gains contributed directly to reducing the nation's GHG emissions.
Key program highlights included:
• More than 500 new commercial and public organizations joined ENERGY STAR, for a total of almost
2,500 partners.
• Nearly 3,300 buildings met EPA's high-efficiency criteria and earned the ENERGY STAR, for a total of
more than 6,200.
• More than 25 partners earned ENERGY STAR recognition for achieving important energy-saving
milestones of 10, 20, or 30 percent across their entire portfolio of buildings, bringing the total to 65.
• More than 75 new building projects achieved Designed to Earn the ENERGY STAR, for a total of 130.
29
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ENERGY STAR and Other Climate Protection Partnerships 2008 Annual Report
Achievements in 2008
Growing National Commitment to Energy
Efficiency
More commercial and industrial organizations than ever
before chose to partner with EPA in 2008 as an important
step toward improving energy efficiency and lowering energy
costs.
• Over 500 commercial and public organizations joined
ENERGY STAR—about triple the new partners in any
previous year—committing more than 2 billion square feet
of floor space to be assessed and improved.
• More than 25 utilities or other energy efficiency program
sponsors (EEPS) joined ENERGY STAR, bringing the total to
about 120. These EEPS, along with more than 1,900 Service
and Product Providers (SPPs), offered their customers
valuable energy efficiency services that incorporate
ENERGY STAR tools and resources. SPPs assisted more
than 1,200 client buildings in earning the ENERGY STAR and
supported almost 1,100 client buildings in making at least a
10-point energy performance improvement during the year.
• Nearly 1,800 new participants joined either the ENERGY
STAR Congregations or Small Business Networks, bringing
total participation to more than 5,000 members in both
networks.
Energy Performance Ratings: Driving
Improvement
Benchmarking energy use is an important first step in
assessing a building's energy performance for a given year
and measuring the results of ongoing efforts to improve
energy efficiency. EPA's online energy management tool.
Portfolio Manager, enables building owners and managers
to measure and benchmark the energy use of individual
commercial buildings, rate all eligible buildings' energy
efficiency on a scale of 1 to 100 against a database of
similar buildings nationwide, track energy performance over
time as improvements are made, and target investments in
FIGURE 12. Amount of Rated Floor Space by State
NORTH DAKOTA
SOUTH DAKOTA
rmml
ANSAS
NEW HAMPSHIRE
MASSACHUSETTS
RHODE ISLAND
CONNECTICUT
Increasing Amount of Floor Space Rated
<25
25-75 76-150
(In Millions of Square Feet)
>150
30
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ENERGY STAR: COMMERCIAL SECTOR
FIGURE 13. 16 Percent of Commercial Square Footage
Rated in 2008
12,000
10,000
2005
• Offices
K-12 Schools
• Retail
Hospitals
2006
2007
2008
Hotels
Supermarkets/
Grocery Stores
Other*
'Includes Bank/Financial Institutions, Warehouses/Storage, Courthouses, Medical Offices,
and Residence Halls.
energy efficiency. Increasingly, state and local government
agencies, professional associations, and vendors are using
Portfolio Manager and ENERGY STAR resources to help their
constituents, members, and clients reduce energy use in
buildings. Cumulative efforts of all partners have resulted in:
• More Floor Space Rated. More than 80,000 buildings have
been rated, which represents more than 11.5 billion square
feet and 16 percent of total U.S. floor space (see Figures
12 and 14, p. 32). This cumulative total includes nearly 65
percent of acute care hospitals, more than 40 percent of
offices (including banks), almost 25 percent of schools, 25
percent of supermarkets, over 15 percent of retailers, and
almost 20 percent of hotels/motels and residence halls.11
• Two Sectors Leading the Way. Offices and schools led the
way in 2008 by nearly doubling the square footage rated
the previous year (see Figure 13).
• Water Utilities Getting on Board. Managers of almost
200 wastewater facilities have benchmarked their energy
use. Many building owners have taken the extra step of
" Calculated using CBECS2003, see EIA 2006.
tracking building water use along with energy use. As
a result, data from more than 19,000 water meters were
being tracked in Portfolio Manager by the end of 2008.
Spreading the Word
Since 2005, more than 2,400 organizations and individuals
have joined EPA's ENERGY STAR Challenge to improve the
efficiency of the nation's buildings by 10 percenter more
as measured by EPA's energy performance rating system.
In 2008, over 1,600 organizations and individuals took EPA's
ENERGY STAR Challenge. Many organizations worked with
their members and constituents to help benchmark building
energy use, set savings goals, and track energy performance
reductions overtime. State and local governments, which
represent the largest group of Challenge participants, staged
a variety of campaigns and started programs to incentivize
the use of ENERGY STAR tools in 2008. Examples include:
• The City of Louisville's Kilowatt Crackdown
• The City of Chicago's Green Office Challenge
• The Wisconsin Lieutenant Governor's ENERGY STAR
School Challenge
• The District of Columbia's Clean and Affordable Energy Act
of 2008, which mandates ENERGY STAR benchmarking and
public disclosure of the results
Recognizing Top Performing Buildings
Almost 3,300 top performing buildings earned the ENERGY
STAR in 2008—for a cumulative total of more than 6,200
qualified buildings nationwide (see Figure 15, p. 32). For
the first time, more than one billion square feet of building
space carried the ENERGY STAR. These buildings earned the
ENERGY STAR by achieving a score of 75 or higher on EPA's
energy performance rating system and meeting relevant
requirements for indoor air quality. Typically, they use 35
percent less energy than average buildings. In 2008:
• Top U.S. Cities for Qualified Buildings. EPA unveiled its
first list of U.S. metropolitan areas with the highest number
of buildings that have earned the ENERGY STAR. The list
was topped by Los Angeles, San Francisco, Houston,
Washington, DC, Dallas-Fort Worth, Chicago, Denver,
Minneapolis-St. Paul, Atlanta, and Seattle.
31
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ENERGY STAR and Other Climate Protection Partnerships 2008 Annual Report
• Top Performing Sectors. Offices and schools accounted
for more than 70 percent of the buildings that earned the
ENERGY STAR in 2008. Schools more than tripled, while
offices more than doubled. Retail companies also made
gains in qualifying for the ENERGY STAR with Kohl's,
JC Penney, and Verizon Wireless stores leading the way.
• Showcasing ENERGY STAR Qualified Buildings. Orbitz
began highlighting ENERGY STAR qualified hotels in its
listing services, with Travelocity and AAA planning to do
the same in 2009. CoStar continued to identify ENERGY
STAR labeled buildings on its listing service.
Honoring Partners' Milestones in Improving
Energy Efficiency
EPA recognizes partner organizations when they reach
significant energy efficiency milestones by distinguishing
them as ENERGY STAR Leaders or honoring them with an
annual ENERGY STAR award.
• ENERGY STAR Leaders. More than 25 partners were
recognized as ENERGY STAR Leaders in 2008—with about
60 percent of them meeting their milestones for the first
FIGURE 15. More Than 6,200 Buildings Have Earned the ENERGY STAR
time. ENERGY STAR Leaders have reduced the energy
use across their building portfolios by 10,20, or 30 percent
FIGURE 14. Steady Growth in Building Space Benchmarked
and Labeled (Sq. R. in Billions)
12
2001 2002 2003 2004
^1 Sq. Ft. Benchmarked
2005 2006 2007
• Sq. Ft. Labeled
2008
VERMONT MAINE
NEW HAMPSHIRE
MASSACHUSETTS
RHODE ISLAND
CONNECTICUT
Increasing Number of Qualified Buildings
<20
20-50 51-100
(Number of Buildings)
>100
32
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ENERGY STAR: COMMERCIAL SECTOR
or have top performing portfolios, as verified through
EPA's energy performance rating system. School districts
account for two-thirds of the total 65 Leaders that manage
nearly 325 million square feet across almost 4,900 facilities.
• ENERGY STAR Awards. EPA recognized 11 commercial
organizations for Sustained Excellence, nine for ENERGY
STAR Partner of the Year, and one for Excellence in
Promotion.
Delivering Cost-Effective Services
EPA advanced its work with utilities in 2008, helping them
deliver energy efficiency programs and incentives more cost-
effectively to their customers. For example:
• Transferring Utility Bill Data Easily. For the first time,
utilities were able to exchange and download their
customers' utility bill data directly into EPA's Portfolio
Manager. Led by PG&E, which added the Automated
Benchmarking Services (ABS) page to its Web site,
California utilities benchmarked about 2,100 buildings
through ABS.
• Creating New Applications. ComEd developed a new.
Web-based application—Whole Building Energy Data
System—to overcome the persistent barrier of accessing
tenant energy data to enable whole-building energy
performance ratings.
• Launching New Promotions. Xcel Energy in Minnesota
offered an ENERGY STAR Building Assessment to
customers and launched the "Your ENERGY STAR, Our
Expertise" outreach campaign.
Acknowledging Architects for Designing
To Save Energy
EPA continues to work in partnership with the American
Institute of Architects (AIA) to help its members reach the
2030 goal by designing buildings to use at least 50 percent
less fossil fuel than average buildings. In 2008, more than 75
projects achieved Designed to Earn the ENERGY STAR, for
a cumulative total of 130. Each of these future buildings was
designed with the intent of earning the ENERGY STAR after
occupation when sufficient energy-use verification data are
available.
What To Expect in 2009 and Beyond
Energy Performance Rating
• Expand the energy performance rating system to add
a new Religious Worship model and continue efforts to
develop a Data Center model. EPA will update the existing
models for K-12, Hotel/Motel, and Warehouse, as well as
add a tracking capability for Multi-Family Housing.
• Enhance Portfolio Manager capabilities to incorporate
onsite and offsite renewable energy into the emissions
inventory and rating. EPA will also add a reporting feature
that will enable users to access and customize reports on
the information they are tracking in the tool.
• Foster and support automated utility data transfer pilots in
several areas outside California.
ENERGY STAR Challenge
• Help replicate energy efficiency competitions, like the
Kilowatt Crackdown, in several other cities.
• Promote Wisconsin's ENERGY STAR Challenge model
to encourage more K-12 school districts to partner with
ENERGY STAR and benchmark their schools' energy
use. EPA will continue to leverage the activities of key
service providers in the K-12 sector to recruit more school
districts and support their efficiency efforts.
State and Local Legislative Support
• Provide supportto state and local governments drafting
legislation mandating building benchmarking and
disclosure of results.
• Promote ENERGY STAR as a platform for governments
receiving ARRA stimulus support. EPA will provide
resources—including Webinars and a Benchmarking
Starter Kit—to inform recipients about the benefits of
ENERGY STAR and help them start using EPA tools.
Partnerships
• Introduce and expand ENERGY STAR into the
entertainment sector by working with Major League
Baseball, convention center groups, and museums to
identify best practice energy management strategies and
benchmarks.
• Work with the National Restaurant Association to
support its launch of a tailored ENERGY STAR Challenge
campaign.
33
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ENERGY STAR IN Ml INDUS! RIAL SECTOR
In recent years, a confluence of three events has led to the strong increase in corporate participation in
EPA's ENERGY STAR program for industry. The growing national emphasis on GHG emissions reporting,
highly volatile energy markets, and a difficult economy have all motivated manufacturers to improve
industrial energy efficiency.
Companies are partnering with EPA to learn how to build EPA- and industry-recommended strategies
into their corporate energy management programs and ramp up their plant-level implementation of
best practices. The industrial sector is responsible for about one-third of U.S. GHG emissions, and
manufacturers are more aware than ever that energy efficiency is the first and most cost-effective step
for minimizing energy risks and reducing the emissions that contribute to global climate change.
Through ENERGY STAR, EPA helps industrial companies develop robust energy programs that create
the necessary infrastructure for cost-effective GHG management. Key accomplishments in 2008
included:
• Expanded ENERGY STAR Industrial Focuses to include a Steelmaking Focus, for a total of 16 Focuses.
• Increased participation in the ENERGY STAR peer exchange network by 30 percent.
• Awarded the ENERGY STAR to 28 plants—including eight for the first time—bringing the total to 45.
34
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ENERGY STAR: INDUSTRIAL SECTOR
Achievements in 2008
Positioning Industries To Succeed
EPA's Industrial Focuses directly address barriers to energy
efficiency by providing industry-specific energy management
tools and resources. In 2008, EPA worked closely with
specific sectors to (1) identify energy-saving practices
and technologies, (2) develop the first-ever national plant
energy performance benchmarks for many sectors, and
(3) encourage energy management leaders within each
industry to participate in the network of companies that share
successful energy management strategies.
As of 2008,16 major industries were actively participating in
EPA's Industrial Focuses (see Table 9). Highlights include:
• Steel Industry. EPA engaged 95 percent of integrated steel
production companies in the U.S. steel industry. This first
Industrial Focus for steel concentrated on the feasibility of
Table 9. Summary of EPA ENERGY STAR Industrial Focuses
developing a plant energy performance indicator (EPI) for
integrated mills.
Pharmaceutical Industry. EPA, in cooperation with the
pharmaceutical industry, produced a final pharmaceutical
manufacturing plant EPI. As a result, the energy efficiency
of individual pharmaceutical manufacturing plants can
be measured, tracked, and rated on a national level.
Companies can use the EPI to set meaningful improvement
goals and measure progress overtime.
Petrochemical Industry. Working with U.S. petrochemical
producers, EPA finalized a new guide on energy efficiency
opportunities in petrochemical plants. It presents
energy efficiency practices and technologies that can
be immediately implemented in petrochemical plants,
without requiring long-term research. This guide will help
ENERGY
YEARS PEER EXCHANGE INDUSTRY PERFORMANCE
FOCUS ACTIVE SCOPE OPPORTUNITY ENERGY GUIDE INDICATOR
Cement Manufacturing
Corn Refining
Food Processing
• Cookies & Crackers
•Juice
• Potato Products
•Tomato Products
Glass Manufacturing
• Fiberglass
•Flat Glass Products
• Container Glass Products
Motor Vehicle Manufacturing
Petrochemical Manufacturing
Petroleum Industry
Pharmaceuticals
Pulp & Paper
Steel
Water/Wastewater
5
6
3
3
7
2
4
4
2
New
3
75% of U.S.-based clinker1*
production capacity
95% of U.S.-based refining
capacity
80% of U.S. processed fruit,
vegetable, and grain sales
50% of U.S. flat, container,
and fiberglass sales
95% of the industry with
U.S.-based production
83% of U.S. ethylene
production capacity
64% of U.S.-based
refining capacity
Over 50% of the global and
U.S. manufacturing capacity
70% of U.S.-based companies'
global sales
95% of integrated production
40% of the tola I U.S.
population represented
•
•
•
•
•
•
•
•
•
•
•
Published
Published
Published
Published
Published
Published
Published
Published
In process
Released
Released
Draft
Draft
2nd version released
Draft
Private system
recognized by EPA
Released
Draft
In process Exploring options
In process
Portfolio Manager
' Clinker is the output from a cement kiln.
*Source:U.S. Census Bureau, December 2005 and November 2006.
35
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ENERGY STAR and Other Climate Protection Partnerships 2008 Annual Report
overcome what has been an adoption barrier—lack of
information.
• Other Industrial EPIs. EPA moved forward with seven
industries—flat glass, container glass, juice, frozen potato
products, tomato products, fiberglass, and integrated
paper mills—to revise draft versions of plant EPIs based
on industry reviews. EPA collaborates closely with all
focus industries on EPI development and testing prior to
finalization.
• Food Industry. Responding to requests from the food
industry, EPA released an initial EPI for baked cookies and
crackers plants for industry testing and review.
• Laboratory Rating. At the request of the pharmaceutical
industry, EPA launched a new initiative under the
Laboratories for the 21st Century program to develop an EPI
for laboratories.
Incorporating Advanced Strategies into Energy
Management
U.S. industry looks to EPA's ENERGY STAR program for
guidance on implementing corporate energy management
programs. As manufacturers expand and improve their own
capabilities to govern energy use internally, EPA works
with them to develop the long-term strategies needed to
comprehensively change the efficiency of their entire energy
value chain (the external factors). These strategies will
influence the continuous improvement of energy performance
upstream of, within, and downstream of their business.
Advances in 2008 included:
• Supply Chain Working Group. EPA initiated a workgroup of
partners interested in influencing the energy efficiency of
their suppliers. The Supply Chain Working Group (SCWG)
identifies new energy management strategies, promotes
best practices, and enables partners to share supply-side
experiences. The potential reach of SCWG is considerable;
for some partners, suppliers can number into the tens of
thousands.
• Cement Industry Suppliers. EPA expanded the existing
Cement Focus to address upstream energy use in the
industry because cement manufacturing equipment
uses vast amounts of energy. Through its ENERGY STAR
Focus, the cement industry formulated a set of equipment
efficiency metrics, which companies may request their
suppliers to aim for in the future.
• Suppliers and Customers. EPA informed ENERGY STAR
industrial partners about ways of engaging their suppliers
to start influencing and reducing the embedded energy of
products coming into their businesses, and encouraged
the partners to inform their customers of methods and
techniques for managing energy in their businesses. As a
result, major manufacturers have added new dimensions
to their corporate energy programs to address the impacts
of their energy value chain.
• The Climate Disclosure Project. EPA collaborated with the
Climate Disclosure Project to hold two workshops for
companies and investors, focusing on best practices in
carbon disclosure and analysis.
Expanding and Leveraging a Powerful Network
of Manufacturing Partners
All ENERGY STAR partners make a commitment to
continuously improve energy efficiency, use ENERGY STAR
tools and resources, and communicate the value of energy
efficiency. A key set of industrial partners has demonstrated
advanced strategies in their corporate energy management
systems and form the base of support for the industrial
TABLE 10. EPA Expands ENERGY STAR for Superior Energy Management of Industrial Plants
SECTOR FACILITY
Cement Plants
Auto Assembly Plants
Petroleum Refineries
Wet Corn Mills
Total Plants Labeled
Total Estimated Energy Savings
(Compared with Average Plants)
LABELS EARNED
IN 2008
15
9
4
0
28
39,800,000 mmBtu
TOTAL PLANTS
EARNING LABELS
19
15
8
3
45
117,400,000 mmBtu*
"Represents cumulative savings for labels earned since 2006.
36
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ENERGY STAR: INDUSTRIAL SECTOR
program. EPA leverages these leading partners to reach out
to more manufacturers and to support newer participants
with the aid of mature ones. Key accomplishments in 2008
included:
• Partnerships. The number of ENERGY STAR industrial
partners grew to more than 550.
• Peer Exchange Network. EPA's peer exchange network
increased by 30 percent; the 800 participants represented
nearly 300 organizations. Topics discussed within
the network included engaging employees in energy
management, project financing strategies, and saving
energy through water efficiency.
• Annual Meeting. An annual meeting of ENERGY STAR
industrial partners and focus industries was held in
October 2008. Eight focus industries held in-person
meetings, and more than 80 companies were represented.
• Mentoring. EPA coordinated 18 mentoring relationships
between industrial partners through which more
experienced partners shared best energy management
techniques to improve efficiency across sectors and
strengthen the partnership.
Recognizing Leaders in Industrial Energy
Management
Continuous improvement of energy efficiency is achieved
through high-level organizational commitment and the
dedication of energy managers, resulting in the enhanced
quality of corporate energy management. Recognition of
successful programs and plants is a major motivating force
for positive change. A number of organizations received
What To Expect in 2009 and Beyond
Partnerships
• Continue to reach small- and medium-sized manufacturers
by working with NAM to engage its membership in energy
efficiency and ENERGY STAR.
• Continue to support peer exchange forums for the
Industrial Focus sectors and convene meetings as new
Focuses are created.
• Recognize excellence in industrial energy management
through the annual Partner of the Year Awards.
Tools and Resources
• Continue the Industrial Focuses with the 16 participating
ENERGY STAR recognition for their 2008 accomplishments:
• ENERGY STAR Awards. EPA honored seven industrial
partners for Sustained Excellence in Energy Management
and six as ENERGY STAR Partner of the Year (see Figure 6,
p. 17).
• Plant-level Recognition for Excellence. Twenty-eight
industrial plants earned the ENERGY STAR in 2008,
including eight plants forthe first time. A total of 45 plants
have earned the label since 2006 (see Table 10).
Increasing Outreach Through Strategic Alliances
EPA's relationships with key not-for-profit organizations
allowed EPA access to more channels for disseminating
information about ENERGY STAR tools and resources to a
wider group of manufacturers in 2008.
• National Association of Manufacturers. EPA signed a
memorandum of understanding (MOD) with the National
Association of Manufacturers (NAM) to promote energy
management among NAM members. NAM membership
includes nearly 14,000 industrial companies and
associations.
• Association of Energy Engineers. EPA partnered with
the Association of Energy Engineers (AEE) to organize
sessions specifically tailored to the needs of industry at
the AEE annual World Energy Engineering Congress.
• Consortium for Energy Efficiency. EPA and the Consortium
for Energy Efficiency (CEE) Industrial Energy Management
Committee worked together with member utilities to
promote energy management best practices among
manufacturers.
sectors and subsectors and finalize four EPIs in 2009—two
in food processing and two in glass production.
• Finalize an energy guide for the pulp and paper industry.
• Continue collaboration with EPA's Laboratories forthe 21st
Century program to develop a laboratory benchmark.
• Expand the program for labeling energy-efficient U.S.
plants with the ENERGY STAR. EPA expects that certain
plants in the food processing and glass industries will be
eligible to earn the ENERGY STAR by the end of 2009.
• Customize online and print energy efficiency guidance for
small- and medium-sized manufacturers.
37
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CLIMATE LEADERS
CLIMATED
LEADERS JL*
U.S EnvirOnmnnliol PrOtUCIion Agwnc;v
EPA's Climate Leaders program is an industry-government partnership
that reduces GHG emissions by developing standardized GHG emissions
management practices among industry and providing incentives and technical
assistance to companies so they take corporate-level action on climate change. For example, EPA
recognizes partners when they set and achieve their climate protection goals. Climate Leaders partners
represent a broad range of industrial and commercial sectors—including manufacturing, cement, forest
products, Pharmaceuticals, utilities, information technology, and retail (see Figure 16). They operate in
all 50 states, and many are global companies. In partnering with Climate Leaders, companies commit to
reducing their impact on the global environment by:
• Completing a corporate-wide inventory of their GHG emissions
• Setting aggressive emissions reduction goals
• Annually reporting their progress to EPA
Climate Leaders partners use EPA's wide range of tools, expertise, and resources to make informed
decisions about cost-effective strategies, investments, and clean energy options to reduce GHG
emissions. In addition to tracking partners' progress toward their GHG emissions goals, EPA ensures
the credibility of reported data by performing detailed reviews and making site visits. By participating
in the program, companies create a lasting record of their accomplishments and identify themselves as
corporate environmental leaders.
Since its launch in 2002, Climate Leaders has reached a number of significant milestones while working
to reduce GHG emissions and is poised to expand on this success in years to come (see Table 11, p. 40).
In aggregate, Climate Leaders partners are projected to reduce emissions by 13.6 MMTCE per year.
38
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Achievements in 2008
CLIMATE LEADERS
The addition of 96 new corporate partners brought the
number of Climate Leaders partners to 251, an increase
of over 60 percent in just one year. The GHG emissions of
the partners represent more than 8 percent of total U.S.
emissions.
Six additional partners successfully achieved their
initial Climate Leaders GHG reduction goals: 3M, Exelon
Corporation, FPL Group, Mack Trucks, Public Service
Enterprise Group (PSEG), and Raytheon. Of the 21
companies that have met their initial goals in the program,
16 thus far have committed to a second round of reduction
goals.
Twenty-seven partners announced corporate GHG
reduction goals in 2008, bringing the total number of
partners that have announced corporate GHG goals
through 2008 to 113. Almost half of the companies in the
partnership have publicly announced GHG goals.
EPA estimates Climate Leaders partners will prevent
approximately 13.6 MMTCE per year relative to business-
as-usual scenarios. These reductions are equivalent to
preventing the annual GHG emissions from more than
9 million vehicles.
EPA received initial GHG inventories from 42 partners in
2008, bringing the cumulative total to 153. These inventories
are a necessary step for all partners before establishing an
emissions reduction goal. EPA technical experts performed
24 site visits in 2008 to review partner GHG inventories
and Inventory Management Plans and to recommend
improvements.
EPA finalized offsets protocols, updated cross sector
guidance, and released a calculator and guide for small
businesses to reduce their carbon footprint. These tools
join the suite of existing Climate Leaders resources that
help companies manage and reduce their GHG emissions.
All of these resources can be downloaded from the Climate
Leaders Web site at www.epa.gov/climateleaders.
FIGURE 16. The 251 Climate Leaders by Sector
Other
Utilities ,
11
Healthcare \
14
Financial
21
Materials
Manufacturing
34
Consumer
Goods
69
Information
Services
45
Industrial
Manufacturing
54
39
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ENERGY STAR and Other Climate Protection Partnerships 2008 Annual Report
TABLE 11. Climate Leaders Key Program Indicators for 2004-2008 (Cumulative)
CLIMATE LEADERS INDICATOR
Partners
Initial Inventories Submitted
Site Visits
Goals Announced
Goals Achieved
2004
64
45
9
25
0
2005
78
60
30
38
5
2006
107
75
42
59
8
2007
155
111
81
86
15
2008
251
153
105
113
21
What To Expect in 2009 and Beyond
• Continue to support corporate partners that are working
toward achieving their GHG reduction goals and recruit
additional companies from diverse sectors that are
performing leading work on climate change.
• Expect 25 current partners to announce new corporate
GHG emissions reduction goals.
• Begin approving Climate Leaders GHG emissions offsets
using EPA-specific protocols for partners.
• Release emissions guidance for production of aluminum,
cement, and pulp and paper as well as updated versions
of EPA sector-specific guidance on iron and steel
production, hydrofluorocarbon (HFC) and perfluorocarbon
(PFC) emissions from manufacturing refrigeration and
air conditioning equipment, and municipal solid waste
landfills. Guidance for optional sources, such as emissions
associated with corporate meetings and conferences, will
also be released.
Participate in the development of an international protocol
for measuring supply chain and product-related GHG
emissions.
Incorporate the tenets of Climate Leaders program
protocols and lessons from partners' experiences into the
development of future climate policy.
40
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CLEAN ENERGY SUPPLY PROGRAMS
In 2001, EPA launched the Clean Energy Supply Programs, which include the Green Power Partnership
and the Combined Heat and Power (CHP) Partnership, to increase the adoption of clean energy
supply technologies across the United States. In the past 7 years, both of these partnership programs
facilitated the enormous growth of green electricity generation and environmentally beneficial CHP
nationwide. These programs work to transform the clean energy marketplace by breaking down
remaining market barriers, while providing partners with cost-effective solutions through:
• Technical resources
• Credible benchmarks
• Access to expertise
• Recognition for environmental leadership
By encouraging partners to invest in clean energy, the Green Power and CHP Partnerships help
reduce GHG emissions and criteria pollutants as well as help build demand for clean energy supply
technologies. The accomplishments of both programs are impressive. In 2008 alone, EPA's Clean Energy
Supply programs reduced GHG emissions by 6.1 MMTCE (see Figure 17, p. 42).
41
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ENERGY STAR and Other Climate Protection Partnerships 2008 Annual Report
FIGURE 17. GHG Emissions Avoided by EPA's Clean Energy Supply Programs
7
O3
I 3
tn
CD
2002
2003
2004
2005
2006
2007
2008
GREEN POWER PARTNERSHIP
EPA's Green Power
Partnership is a voluntary
program that encourages t^^ POWER
organizations to buy green ™r PARTNERSHIP
power as an easy, sensible
management choice to:
• Reduce the environmental impacts associated with
purchased electricity use.
• Hedge against volatile energy prices.
• Demonstrate environmental leadership.
Partners include a wide variety of leading organizations,
such as Fortune 500 companies; small- and medium-sized
businesses; local, state, and federal government agencies;
and colleges and universities. The commitments of new
and existing program partners made 2008 an exceptionally
successful year for EPA's Green Power Partnership.
Achievements in 2008
• Added 294 new partners, bringing the total to more than
1,000. These organizations have committed to buying
more than 16 billion kWh annually of green power, which
is enough energy to run more than 1.6 million average
American homes for one year (see Figure 18).
• Launched EPA's Fortune 500 Green Power 2008-2009
Challenge, a 2-year initiative focused on doubling the
collective green power purchases of eligible Fortune
500 corporations to exceed 10 billion kWh annually
(see sidebar, p. 44). By the end of 2008,59 Fortune 500
companies had taken the Challenge and stepped up their
commitment to environmental stewardship by collectively
purchasing nearly 7.5 billion kWh.
Acknowledged 40 participating partners in EPA's College
& University 2007-2008 Green Power Challenge, which
concluded in April 2008. EPA ranked the green power
purchases of individual schools against others within their
athletic conference and calculated cumulative purchase
amounts among competing athletic conferences.
42
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CLEAN ENERGY SUPPLY PROGRAMS
Presented 16 Green Power Leadership Awards to top
purchasers of green power and onsite renewable power
systems (see Table 12).
Expanded the Green Power Communities initiative, which
recognizes the collective action of local government.
business, and citizens in buying green power through
community-organized campaigns. In 2008,11 additional
communities across the nation met EPA Green Power
Community purchase requirements, bringing the total number
of outstanding communities to 21.
Table 12. EPA Recognizes 16 Leading Green Power Partners in 2008
ONSITE GENERATION
• Kohl's Department Stores
• Lundberg Family Farms
GREEN POWER PURCHASING
• City of Houston, TX
• The Estee Lauder Companies, Inc. /
Operations
• ING
• Merritt 7 Venture, LLC
• Oregon State University
• PepsiCo, Inc.
• The Philadelphia Phillies
• Powdr Resorts
• U.S. Air Force
Menomonee Falls, I/I//
Richvale, CA
Houston, TX
New York, NY
West Chester, PA
Norwalk, CT
Corvallis, OR
Purchase, NY
Philadelphia, PA
Park City, UT
Washington, DC
PARTNER OF THE YEAR
• Bellingham, Washington
Community
• Cisco Systems, Inc.
• Intel Corporation
• University of Pennsylvania
• WhiteWave Foods Company
Bellingham, WA
San Jose, CA
Santa Clara, CA
Philadelphia, PA
Boulder, CO
FIGURE 18. Green Power Purchases and Avoided GHG Emissions
18 -
s 16 -
^£
§ 14 -
12 -
CD
C
t
,<" 10 -
6 -
4 -
2 -
MMTCE Avoided
kWh Purchased
2001
2002
2003
2004
2005
2006
2007
2008
43
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ENERGY STAR and Other Climate Protection Partnerships 2008 Annual Report
What To Expect in 2009 and Beyond
• Continue to dismantle the market barriers that can stifle
investment in clean electricity generation.
• Continue to support and recognize partners' green power
purchases and work with green power suppliers to
increase the supply of attractive green power products in
the market.
Aggressively promote the Fortune 500 Green Power
Challenge to current and prospective Fortune 500 partners
and recognize the winners of the third College & University
Green Power Challenge.
Fortune 500 Companies Meet the Green Power Challenge
In January 2008, EPA challenged Fortune 500 companies to
increase their green power purchases to more than
10 billion kWh annually through the Fortune 500 Challenge,
launched by EPA's Green Power Partnership. By the end
of 2008,59 Fortune 500 companies had stepped up their
commitment to environmental stewardship by collectively
purchasing nearly 7.5 billion kWh. These purchases made
2008 a banneryear and helped avoid the GHG emissions
equivalent to those from nearly one million vehicles.
Leading the charge was Intel, which assumed the Number 1
spot with a purchase of more than 1.3 billion kWh of clean,
carbon-free green power. The company's purchase is the
largest to date among all Green Power partners, and it
alone represents enough electricity to power nearly 130,000
average American homes each year. PepsiCo was second
on EPA's list of Fortune 500 companies, followed by Dell Inc.,
Whole Foods Market, The Pepsi Bottling Group, Johnson
& Johnson, Cisco Systems, Inc., Kohl's Department Stores,
Kimberly-Clark Corporation, and Starbucks.
COMBINED HEAT AND POWER PARTNERSHIP
§ CHP
EPA's Combined Heat and
Power (CHP) Partnership
strives to reduce the &EPA COMBINED HEAT AND
bmvtjb LU rtjuuuti me * POWER PARTNERSHIP
environmental impact of power
generation by promoting the use of CHP as an efficient,
clean, and reliable approach to generating power and
thermal energy from a single fuel source. CHP projects are
up to 25 percent more efficient than traditional separate heat
and power generation.12 To gain the energy, environmental,
and economic benefits of CHP, EPA fosters cooperative
relationships with the CHP industry, state and local
governments, and other stakeholders to develop new CHP
projects.
Since 2002, the CHP Partnership has made an important
impact on U.S. CHP capacity (see Table 13), assisting
between 39 and 78 percent of the new CHP capacity
additions in each of the past 5 years.
TABLE 13. CHP Capacity Market Share
TOTAL NEW
YEAR CHP CAPACITY
(MW)
NEW CHP CAPACITY
CREDITABLE TO THE
CHP PARTNERSHIP
(MW)
MARKET
SHARE
2002
2003
2004
2005
2006
2007
2008
5,214
3,576
3,340
1,600
353
478
259
620
512
2,008
821
138
373
132
12%
14%
60%
51%
39%
78%
51%
12
For more information, see www.epa.gov/chp/basic/efficiency.html.
44
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CLEAN ENERGY SUPPLY PROGRAMS
Achievements in 2008
• Welcomed 44 new partners, bringing the total to 268.
• Assisted in the deployment of more than 130 MW of new
CHP nationwide (total nationwide capacity of 258 MW),
bringing the cumulative impact of the program to over 4,700
MW of new CHP (see Figure 19).
• Provided technical assistance to 20 candidate sites
across the country, including those in the municipal, utility,
biofuels, industrial, and commercial sectors.
• Recognized 10 highly efficient CHP projects and provided
public recognition to those projects through the ENERGY
STAR CHP Awards. These systems range from a 0.14 MW
system at a YMCA facility to a 500 MW facility that supports
a large plastics manufacturing plant (see Table 14, p. 46).
• Continued to raise awareness of the benefits of biomass
CHP by expanding work to the ethanol industry and
reviewing potential benefits from CHP systems at four
facilities' project development stage.
• Embarked on a formal collaboration with EPA's Office of
Water to raise awareness of the benefits of biogas CHP
applications particularly at wastewater treatment plants
using anaerobic digestion.
• Updated a market study analysis on CHP applications at
hotels and casinos, which was originally prepared in 2005,
FIGURE 19. Combined Heat and Power Capacity by State as of 2008
to reflect additional CHP installations. The Partnership
provided technical support and a third-party review for a
proposed biomass CHP system at a casino in Las Vegas.
Created and provided educational and outreach tools
for the first time to utilities, a sector that has historically
faced significant barriers. The tools examine in detail the
market and policy challenges for CHP in this sector. EPA
conducted a CHP training workshop for a wholesale utility
partner and ethanol industry partners to demonstrate
the potential of their collaborative success. In addition,
technical analyses were provided to other utilities to meet
their objectives in considering CHP systems.
Offered training and ongoing support to the air regulatory
community on the benefits of CHP, and highlighted
opportunities to encourage CHP through permitting and
other regulatory frameworks.
Began the rule development process to fulfill the Agency's
requirements under the Energy Independence and Security
Act of 2007 (EISA). Title IV, Subtitle D, Section 451, Part E on
Industrial Energy Efficiency delineates all the requirements.
One requirement is for EPA to publish a rule within 270 days
of EISA enactment that establishes the criteria by which
sources or sites will be listed in a Registry of Recoverable
Waste Energy Sources (Registry).
WASHINGTON
Increasing Installed CHP Capacity
5-50 51-500
(in MW)
>500
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ENERGY STAR and Other Climate Protection Partnerships 2008 Annual Report
What To Expect in 2009 and Beyond
• Identify and implement outreach activities to address
changes in the CHP market as reflected in the federal
Energy Improvement and Extension Act of 2008 (EIEA),
ARRA, and other federal and state legislation.
• Support activities related to the CHP initiatives identified
in the 2008 EISA Act and the 2009 ARRA, such as the
review of CHP-related grants and regional outreach to
educate the public about CHP and promote its benefits.
Expand work in strategic sectors, which include municipal
and cooperative utilities and wastewater treatment
facilities. The engagement plan will build and support
regional collaborations that provide CHP outreach and
technical support in these market sectors. In addition,
key conferences within these market sectors will be
identified as another means to reach CHP end-users and
demonstrate the benefits of CHP to them.
• Initiate outreach activities to other sectors such as tribal
casinos and data centers to identify CHP opportunities,
building upon initial assessments for CHP in these sectors.
• Foster partnerships among government entities working
on biomass and CHP.
• Publish the proposed and final rule for public comment,
as required under Title IV, Subtitle D, Part E of EISA, in the
Federal Register to establish the criteria by which sources
or sites will be listed in the Registry.
Table 14. 2008 ENERGY STAR Combined Heat and Power Awards
CHP PROJECT PARTNER
• Missouri Joint Municipal Electric Utility Commission
(MJMEUC) Cogeneration System
• One Market Plaza Cogeneration System
• East Kansas Agri-Energy CHP System
• POET Biorefining Ashton CHP System
• Clinton Hill Apartments CHP System
• Red Hook Fairway Market CHP System
• Columbia Energy Center
• Verizon Garden City Fuel Cell Project
• Formosa Plastics Corporation-Louisiana CHP
System
• Westfield YMCA CHP System
POET Biorefining - Laddonia
One Market Plaza
ICM, Inc.
POET Biorefining
Clinton Hill Apartment Owners
Corporation
Red Hook Green Power, LLC
Calpine Corporation
Verizon Communications
Formosa Plastics Corporation
American DG NY, LLC
LOCATION
Laddonia, MO
San Francisco, CA
Garnett, KS
Ashton, IA
Brooklyn, NY
Brooklyn, NY
Gaston, SC
Garden City, NY
Baton Rouge, LA
Westfield, NJ
46
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STATE AND LOCAL PROGRAMS AND INITIATIVES
Clean energy offers states and localities a cost-effective way to address the ongoing challenges of rising
energy demand, rising energy prices, air quality concerns, and global climate change. EPA supports state
and local governments in their development and deployment of emerging technologies, and helps them
achieve energy cost savings through greater end-use efficiency in residential and commercial buildings and
municipal facilities.
The potential impact of state and local policies is enormous. EPA estimates that if all 50 states implemented
cost-effective clean energy and environment policies, the projected growth in demand for electricity would
be cut in half by 2025. The additional remaining increase in demand could be met with cleaner energy
supplies. This translates into a projected annual savings of $70 billion in energy costs by 2025—avoiding the
need for more than 300 power plants and preventing the GHG emissions equivalent to those from 80 million
vehicles.
EPA's Clean Energy-Environment state and local programs assist state and local governments in their
clean energy efforts by providing best practice strategies, technical assistance, analytical tools, and peer
exchange opportunities. Specific assistance includes:
• Identifying and documenting cost-effective policies and initiatives that promote renewable energy,
energy efficiency, and related clean energy technologies.
• Providing tools and guidance that help state and local governments measure and evaluate the
environmental, economic, and public health benefits of clean energy initiatives (see Figure 20, p. 48).
• Offering a suite of national voluntary programs that provide partners with resources, technical
assistance, and recognition fortheir clean energy actions.
• Fostering peer-exchange opportunities for state and local officials to share information on best practices
and innovative policies.
EPA also provides technical assistance to public utility commissions that are exploring options to reduce
the regulatory barriers to adopting comprehensive energy efficiency, renewable energy, and combined heat
and power in their states.
47
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ENERGY STAR and Other Climate Protection Partnerships 2008 Annual Report
FIGURE 20. New and Updated Tools and Resources for States and Local Governments
In 2008, EPA started a Local Climate and Energy Webcast
Series and held three Webcasts with expert and local
government presenters. Topics were: Navigating the Grant
Process for Local Governments, Energy-Efficient Product
Procurement, and Green Power Procurement. The series
will continue in 2009.
The Local Climate and
Energy Program completed
five new Local Government
Climate and Energy Strategy
Guides, which provide
a comprehensive, user-
friendly overview of local
government GHG emissions
reduction strategies, along with project benefits, policy
mechanisms, up-front investments, key stakeholders, and
other implementation considerations. The Guides are:
• Energy-Efficient Product Procurement
• Green Power Procurement
• Onsite Renewable Energy
• Combined Heat and Power
• Landfill Gas to Energy
Additional Guides are under development.
eGRID
eGRID, a comprehensive source
of data on the environmental
characteristics of U.S. power generation, was updated
in 2008 to include 2005 data. Methane and nitrous oxide
emissions and emission rates were also added to the data
set.
EPA's Greenhouse Gas Equivalency Calculator, which
allows users to quickly and easily translate GHG reductions
from units typically calculated into terms that are easier to
conceptualize (e.g., passenger vehicles not driven for one
year), was updated.
EPA held nine Webcasts as part of its State Technical Forum
series, which explores analytical questions and key issues
surrounding state climate and energy efforts by facilitating
monthly peer exchanges and expert presentations among
state energy, environmental, and utility officials.
EPA released the technical assistance document,
Reducing Urban Heat Islands: Compendium of Strategies.
The compendium describes the causes and impacts of
summertime urban heat islands and promotes key mitigation
strategies for lowering temperatures within a community's
microclimate. For each mitigation strategy—green roofs,
reflective roofs, cool pavements, and trees and vegetation—
the compendium covers basic background, benefits and
investments, factors to consider, and additional examples.
CLEAN ENERGY-ENVIRONMENT STATE PARTNERSHIP
Achievements in 2008
• Welcomed Virginia to the
State Partnership program—
bringing the total to 16
partners—and continued
to expand as a nationwide
Slate Climate and Energy Program
program to help all states learn from the experiences of
partner states.
Held a conference for partners to exchange best practices
and identify issues of emerging importance.
Supported states as they analyzed clean energy options,
prioritized policies to meet air quality and climate goals,
developed and implemented outreach and education
programs, and identified additional guidance and technical
assistance from EPA that would be helpful in the coming
years (see Table 15).
Conducted nine peer exchange sessions through the EPA
Clean Energy-Environment Technical Forum—involving
a total of more than 700 state environmental, energy, and
utility regulatory officials from 45 states—to examine best
practices on topics such as renewable energy credits,
state energy planning, advanced metering technologies,
and clean distributed generation.
Assisted in the development of the EPA video Climate
and Air Quality: Applications for Air Quality Professionals
-------�
- October 22, 2008, a 3-hour training program for state,
local, and tribal air quality personnel about the interactions
between climate change and air quality programs.
Enhanced the Greenhouse Gas Equivalency Calculator—
a communications tool that translates GHG emissions
STATE AND LOCAL PROGRAMS AND INITIATIVES
reductions into more commonplace equivalencies, such
as number of passenger vehicles, acres of forest, and
household electricity use by homes.
TABLE 15. Clean Energy-Environment State Partnership Grows to 16 Partners in 2008
STATE CLEAN ENERGY-ENVIRONMENT ACTIONS
Energy Efficiency Savings Goals in Public Facilities
Energy-Efficient Appliance and Equipment Purchase
Requirements for Public Facilities
Renewable Energy Goals for Public Facilities
State & Regional Energy Planning
Energy Efficiency Portfolio Standards
Public Benefit Funds for Energy Efficiency
Commercial Energy Efficiency Building Codes
Residential Energy Efficiency Building Codes
State Appliance Energy Efficiency Standards
Renewable Portfolio Standards
Public Benefit Funds for Renewable Energy
Output-based Environmental Regulation To Support
Clean Energy
Clean Distributed Generation
Net Metering
PARTNERS WITH NEW
PROGRAMS IN 2008
3
1
1
5
5
0
2
2
0
3
0
o
0
0
TOTAL PARTNERS
WITH PROGRAMS
15
12
10
16
13
10
13
13
5
13
9
7
13
16
CLEAN ENERGY-ENVIRONMENT LOCAL NETWORK
Local Climate and Energy Program
Achievements in 2008
• Facilitated access to the
world of federal programs and
resources that target local
governments through a "one-
stop shop" Web site that offers
links to and explanations of available resources.
• Expanded an online, searchable database of resources to
help local governments assess clean energy policies and
programs.
• Provided support for urban heat island efforts through
Webcast training sessions on topics such as program
implementation, climate and air quality impacts, and
scientific modeling tools.
• Released a comprehensive heat island mitigation strategies
guidance document and a user-friendly heat island Web
site.
• Held three Webcasts for local government officials—
viewed 400 times each—on federal funding opportunities,
clean energy best practices (such as energy-efficient
product procurement), and green power.
• Issued five chapters of a best practices guide for local
governments on clean energy topics including energy-
efficient product procurement, green power procurement,
onsite renewable energy generation, combined heat and
power, and landfill methane utilization.
49
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ENERGY STAR and Other Climate Protection Partnerships 2008 Annual Report
What To Expect in 2009 and Beyond
Transition from the Clean Energy-Environment State
Partnership of 16 states to an online Climate and Energy
State Partner Network. This will expand access so
that all states can learn from each other about energy
and climate change initiatives and directly exchange
questions, information, and ideas about those initiatives.
Launch a $10 million Climate Showcase Communities
grant program for local and tribal government climate
change initiatives.
Introduce a comprehensive, new Web site for states and
communities that will enable efficient access to updated
climate and energy information, tools, reporting, and peer
exchange.
CLEAN ENERGY AND UTILITY POLICY PROGRAMS
Despite the proven economic and environmental benefits of
energy efficiency, a range of barriers have hindered utilities
and others from making greater investments in these cost-
effective measures. EPA continues to provide state public
utility commissions, state policy makers, and others with
tools and resources for exploring and implementing policies
that will reduce the barriers to adopting comprehensive
energy efficiency, renewable energy, and combined heat and
power programs at the state and local level.
Achievements in 2008
• Co-facilitated the National
Action Plan for Energy Efficiency
(Action Plan) with DOE.
This effort brings together a
Leadership Group of more than
60 top utilities, utility regulators,
state agencies, large energy
users, consumer advocates, energy service providers,
and environmental and energy efficiency organizations.
The Leadership Group has released a set of policy
recommendations that serve as a foundation for the Action
Plan's Vision to achieve all cost-effective energy efficiency
by 2025. The Action Plan offers resources and tools to help
states lower the growth in energy demand by more than 50
percent, help reduce annual GHG emissions equivalent to
those from 90 million vehicles, and help provide customers
more than $500 billion in net savings over the next 20 years.
More than 120 organizations have endorsed the Action
Plan recommendations and made public commitments to
advance energy efficiency.
• Released Vision for 2025: Framework for Change, which
outlines a complete framework for state-specific policies
and programs to overcome barriers and enable the
acquisition of all cost-effective energy efficiency potential.
In its 2008 release, the Vision reports the significant
progress states have made toward creating the long-term
policy framework for energy efficiency. The Vision also
identifies areas for additional progress. Table 16 shows the
status of states that made progress between 2007 and 2008.
• Released new resources to help committed organizations
implement the Vision for 2025 recommendations. Three of
the new resources are papers that share best practices for
removing key barriers to energy efficiency: Understanding
Cost-Effectiveness of Energy Efficiency Programs, Utility
Best Practices Guidance for Providing Business Customers
with Energy Use and Cost Information, and Sector
Collaborative on Energy Efficiency.
• Continued to provide technical assistance to state utility
commissions on energy efficiency, including New Mexico,
Florida, and Maryland.
• Expanded policy assistance to Maryland and California to
help them accelerate the deployment of customer-sited
clean distributed generation.
50
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STATE AND LOCAL PROGRAMS AND INITIATIVES
Table 16. State Progress Toward Meeting the Action Plan Vision for 2025*
GOAL AND POLICY IMPLEMENTATION STEP ELECTRICITY NATURAL GAS
ESTABLISHING COST-EFFECTIVE ENERGY EFFICIENCY AS A HIGH-PRIC
Process in place, such as a state and/or regional collaborative, to
pursue energy efficiency as a high-priority resource.
Policy established to recognize energy efficiency as high-priority
resource.
Potential identified for cost-effective, achievable energy
efficiency over the long term.
Energy efficiency savings goals or expected energy savings
targets established consistent with cost-effective potential.
Energy efficiency savings goals and targets integrated into state
energy resource plan, with provisions for regular updates.
DEVELOPING PROCESSES TO ALIGN UTILITY AND OTHER PROGRAM fl
SUCH THAT EFFICIENCY AND SUPPLY RESOURCES ARE ON A LEVEL PI
Utility and other program administrator disincentives are removed.
Utility and other program administrator incentives for energy
efficiency savings reviewed and established as necessary.
ESTABLISHING COST-EFFECTIVENESS TESTS
Cost-effectiveness tests adopted that reflect the long-term
resource value of energy efficiency.
ESTABLISHING EVALUATION, MEASUREMENT, AND VERIFICATION ME
Robust, transparent EM&V procedures established.
ESTABLISHING EFFECTIVE ENERGY EFFICIENCY DELIVERY MECHANIS
Administrator(s) for energy efficiency programs
clearly established.
Stable (multi-year) and sufficient funding in place consistent with
energy efficiency goals.
Programs established to deliver energy efficiency to key customer
classes and meet energy efficiency goals and targets.
Strong public education programs on energy efficiency in place.
Energy efficiency program administrator engaged in developing
and sharing program best practices at the regional and/or national
level.
DEVELOPING STATE POLICIES TO ENSURE ROBUST ENERGY EFFICIENI
State appliance standards in place.
ALIGNING CUSTOMER PRICING AND INCENTIVES TO ENCOURAGE IN\
Rates examined and modified considering impact on customer
incentives to pursue energy efficiency.
Mechanisms in place to reduce consumer disincentives for
energy efficiency (e.g., including financing mechanisms).
IMPLEMENTING ADVANCED TECHNOLOGIES
Policies in place to remove barriers to combined heat and power.
IRITY RESOURCE
17 additional states completed
9 additional states completed
9 additional states completed
9 additional states completed
No state progress
No state progress
8 additional states completed
4 additional states completed
4 additional states completed
8 additional states
partially completed
DMINISTRATOR INCENTIVES
AYING FIELD
6 additional states completed
13 additional states completed
6 additional states completed
8 additional states completed
9 additional states completed 12 additional states completed
CHANISMS
4 additional states completed
2 additional states completed
MS
9 additional states completed
3 additional states completed
8 additional states completed
13 additional states completed
2 additional states completed
6 additional states completed
4 additional states completed
1 1 additional states completed
1 1 additional states completed
5 additional states completed
^Y PRACTICES
28 additional states completed
27 additional states completed
VESTMENT IN EFFICIENCY
2 additional states completed
2 additional states completed
3 additional states completed
No state progress
6 additional states completed
—
-: Not applicable
* For more information on the Vision Measuring Progress methodology, see http://www.epa.gov/eeactionplan.
51
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ENERGY STAR and Other Climate Protection Partnerships 2008 Annual Report
What To Expect in 2009 and Beyond
EPA will continue to assist interested state public utility
commissions in their efforts to advance clean energy by
sharing information on how other states have removed
barriers and pursued best practice policies and programs. EPA
will also continue to facilitate the Action Plan in conjunction
with DOE. In its fourth year, the Action Plan will continue to
support the creation of a long-term energy efficiency program
and policy infrastructure, including energy efficiency efforts
funded through economic stimulus efforts. Key to supporting
stimulus efforts will be the creation of a Rapid Deployment
Energy Efficiency (RDEE) Toolkit. The RDEE Toolkit will provide
detailed program design and implementation guides to help
states and local governments make effective use of ARRA
stimulus funding. EPA will provide comprehensive technical
assistance to parties advancing RDEE programs.
In addition, the Action Plan will continue its efforts to measure
progress toward the Vision for 2025, develop key informational
materials, and spread the word on the need for aggressive
action to improve energy efficiency. New resources will
address:
• The role of energy efficiency as a low-cost strategy for
reducing carbon emissions.
• An assessment framework for understanding the options
for becoming the most energy-efficient economy in the
world.
• Ways to provide customers with incentives to save energy
through rate design.
• Coordination of demand response and energy efficiency
policies and programs.
• Future approaches to evaluation, measurement, and
verification.
52
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METHANE PROGRAMS
Methane (CH4) is a potent GHG that is 25 times more effective than C02 at trapping heat in the earth's
atmosphere, thus contributing to climate change. Methane also has a relatively short lifetime in
the atmosphere, ranging from 9 to 15 years, that when coupled with its potency makes methane an
excellent candidate to mitigate climate change in the near term. Methane offers a unique opportunity
for cost-effective GHG emissions reductions because when recovered and used properly, it is a
valuable energy resource.
Methane is emitted from a variety of natural and human-influenced sources. The latter include landfills,
natural gas and petroleum systems, coal mining, livestock farms, wastewater treatment, and certain
industrial processes. Methane emissions from these sources currently represent about 8 percent of
total U.S. GHG emissions. For the most significant emissions sources, EPA has established partnership
programs with industry—working together to reduce methane losses and capture methane, whenever
feasible, for use as an energy source. EPA's suite of programs, described in more detail in the following
pages, strives to remove market barriers and increase investment in methane recovery and use.
• In 2008, the combined efforts of EPA's methane programs resulted in GHG emissions reductions of
20.3 MMTCE, which is 115 percent more than the total for 2000 (see Table 17, p. 54).
• Combined with a regulatory program to limit air emissions from the nation's largest landfills, the
methane partnerships have reduced national methane emissions from targeted sources to 14 percent
below 1990 levels. They are projected to remain below 1990 levels through at least 2012 (see Figure
21, p. 54).
• Promoted recovery and use of methane worldwide with a growing number of governments and
organizations through the Methane to Markets Partnership.
53
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ENERGY STAR and Other Climate Protection Partnerships 2008 Annual Report
TABLE 17. EPA's Methane Programs Meet and Surpass Goals
PROGRAM 2008 GOAL 2008 ACHIEVEMENT 2009 GOAL
NATURAL GAS STAR
Industry Participation (% in program)
Annual Gas Savings (MMTCE)
60%
7.0
62%
12.6
62%
7.2
COALBED METHANE OUTREACH PROGRAM
Annual Methane Reductions (MMTCE)
2.2
2.2
2.5
LANDFILL METHANE OUTREACH PROGRAM
Number of Projects
Annual Methane Reductions (MMTCE)
TOTAL REDUCTIONS (MMTCE)
349
5.5
14.7
360
5.5
20.3
369
5.8
15.5
EPA's domestic methane programs—Natural Gas STAR,
AgSTAR, the Coalbed Methane Outreach Program, and the
Landfill Methane Outreach Program—have all succeeded
by following a sound strategy. They provide reliable and
comprehensive technical, economic, and policy information
to facilitate the adoption of cost-effective emissions reduction
technologies and practices.
Each program supports methane reductions, recovery,
and use by offering tools and technical assistance to
public and private sector partners so they can expand the
implementation of methane projects. Experience has shown
that in addition to reducing or capturing emissions for sale,
active partners often gain a competitive advantage because
the methane projects are a catalyst for improving their overall
operating efficiency.
For the past 4 years, EPA has leveraged its experience,
expertise, and success in the United States to achieve
economic and environmental results on a global scale. The
Methane to Markets Partnership works to accelerate the
recovery and use of methane as a clean energy source with
31 partner governments and more than 900 public and private
sector organizations around the world (see Figure 25, p. 60).
FIGURE 21. Partner Actions Are Projected To Maintain Methane
Emissions Below 1990 Levels Through 2012
185
199G
1995
2000
2005
2010
2012
NATURAL GAS STAR PROGRAM
Natural Gas STAR is a collaborative
partnership between EPA and the U.S.
natural gas industry that is designed tc
further the adoption of cost-effective
technologies and practices that reduce methane emissions.
By working with companies from the oil production sector
and all sectors of the natural gas supply chain. Natural Gas
STAR helps reduce gas losses, improve system efficiency, and
ensure that more gas gets to market. A variety of useful tools
and resources—including technology transfer workshops,
one-on-one technical assistance, and peer networking—
assists partners in implementing a wide range of cost-
effective methane reduction best management practices and
technologies.
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METHANE PROGRAMS
Achievements in 2008
Reduced methane emissions by 12.6 MMTCE, achieving
cumulative reductions of more than 90 MMTCE since 1990
(see Figure 22).
Maintained 60 percent industry participation across all
major sectors—production, processing, transmission, and
distribution.
Expanded the program by 10 new partner companies,
bringing the total to more than 130.
Welcomed one new Natural Gas STAR International
partner and worked with all existing partners to further
identify and implement methane mitigation opportunities.
Continued to expand onsite technical assistance by
conducting five onsite and two online technology transfer
workshops, covering all four major gas sectors.
Recognized 15 partner companies at the 15th Annual
Implementation Workshop in San Antonio, TX, for their
significant corporate achievements in reducing methane
emissions from oil and gas systems (see Table 18).
FIGURE 22. Natural Gas STAR Cumulative GHG Emissions
Reductions and Gas Savings
90
2000 2001 2002 2003 2004 2005 2006 2007 2008
TABLE 18. 2008 Natural Gas STAR Awards
PRODUCTION PARTNER OF THE YEAR
• Occidental Oil and Gas Corporation - Los Angeles, CA
GATHERING AND PROCESSING
PARTNER OF THE YEAR
• ONEOK Partners - Tulsa, OK
TRANSMISSION PARTNER OF THE YEAR
• El Paso Pipeline Group - Houston, TX
DISTRIBUTION PARTNER OF THE YEAR
• Consolidated Edison Company of New York - New York, NY
CONTINUING EXCELLENCE-5 YEARS
• Devon Energy Corporation - Oklahoma City, OK
• Newfield Exploration Company - Houston, TX
• Puget Sound Energy - Bellevue, WA
• Shell Exploration and Production - Houston, TX
CONTINUING EXCELLENCE-7 YEARS
• Atmos Energy Corporation - Franklin, TN
CONTINUING EXCELLENCE-12 YEARS
• Anadarko Petroleum Corporation - Houston, TX
• Iroquois Gas Transmission - Shelton, CT
• PECO Energy Company - Philadelphia, PA
CONTINUING EXCELLENCE-15 YEARS
• Consolidated Edison Company of New York - New York, NY
• Williams Gas Pipeline - Houston, TX
IMPLEMENTATION MANAGER OF THE YEAR
• Aaron Hutchison (Marathon Oil Company) - Houston, TX
ROOKIE OF THE YEAR
• Laclede Gas Company - St. Louis, MO
55
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ENERGY STAR and Other Climate Protection Partnerships 2008 Annual Report
What To Expect in 2009 and Beyond
• Update existing materials and develop new tools and
resources that highlight the environmental and economic
benefits of methane reductions to facilitate and accelerate
company implementation of emissions reduction projects.
• Provide partners with one-on-one assistance in identifying
and prioritizing new, cost-effective opportunities to further
reduce methane emissions.
• Conduct two targeted study tours, two onsite technology
transfer workshops, and two Web-based technology
transfer workshops.
AGSTAR PROGRAM
Expand the Annual Implementation Workshop to include a
broader international focus.
Perform measurement studies and technology transfer
workshops at oil and gas operations globally to assess
key emissions sources and identify potential mitigation
measures, in addition to providing vital technical training in
leak detection and quantification methods.
Through the AgSTAR Program,
EPA—along with its partners the U.S.
Department of Agriculture (USDA) and
DOE—collaborates with the nation's
agriculture industry to reduce methane
emissions by promoting the use of
anaerobic (without oxygen) digesters and biogas recovery
systems to manage animal wastes. EPA offers an array of
tools and information designed to assist livestock producers
in evaluating and implementing methane recovery systems.
The technologies and practices encouraged through AgSTAR
help avoid GHG emissions, as well as reduce local water and
air pollution. These methane recovery systems also become
a source of renewable energy and generate other value-
added products that improve farm revenues. Currently, there
are more than 220 manure digester systems operating, under
construction, or planned in the United States.
Achievements in 2008
Provided technical support to USDA in selecting 10
anaerobic digester projects for grant and loan funding
through the Farm Bill, bringing the total disbursement of
funds to digester projects through the Farm Bill to more
than $35 million since 2003.
Supported digester-to-energy projects that produced more
than 275 million kWh of renewable energy from farms
capturing methane.
Assisted in the formation and development of Dairy Power,
a nationwide initiative aimed at reducing the GHG footprint
of the milk industry.
Launched the AgSTAR state partner program to more
effectively leverage expertise and resources within state
energy and environmental organizations to accelerate the
adoption of digester systems.
Updated and expanded the AgSTAR national digester
database to include 135 operating digesters and 140
digester projects that are planned, under construction, or
shutdown.
What To Expect in 2009 and Beyond
Provide technical expertise to enable the distribution
of state and federal grant and loan funds to anaerobic
digester projects through the USDA Rural Energy for
America Program and other sources.
Revise and expand the AgSTAR program Web site to
provide enhanced tools and resources targeted to
livestock producers, project developers, and policy
makers.
56
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• Inform nationwide initiatives aimed at overcoming the •
remaining technical, economic, and policy hurdles that
prevent broad adoption of anaerobic digestion systems.
• Plan the fifth annual AgSTAR national conference, as well
as regional events, to provide environmental, program,
market, state-of-the-art technical, and funding information
on anaerobic digestion systems.
COALBED METHANE OUTREACH PROGRAM
METHANE PROGRAMS
Continue to expand the AgSTAR national digester
database to house the latest information on the
deployment of anaerobic digestion systems in the United
States.
u.s, EPA
Coalbed Methane
The Coalbed Methane Outreach Program
(CMOP) strives to reduce methane
emissions from coal mining activities.
CMOP works in cooperative partnerships
with coal companies and related
industries to reduce methane emissions
through the development of environmentally beneficial, cost-
effective coal mine methane (CMM) recovery and utilization
projects. With partners, CMOP helps address the barriers
associated with recovering and using CMM.
The program primarily focuses on mitigating emissions from
degasification systems at underground coal mines and
underground mine ventilation systems, although EPA is also
Achievements in 2008
• Increased the percentage of drained CMM that is
recovered and used to more than 80 percent—up from
25 percent in the early 1990s.
• Reduced emissions of methane by an estimated
2.2 MMTCE. These results include reductions from 14
active underground coal mines and reductions from about
20 projects that captured and used methane from some 30
closed U.S. coal mines.
• Supported the successful operation and conclusion of a
technology demonstration project (the first of its kind in the
country) to mitigate methane emissions from diluted mine
ventilation air—in cooperation with CONSOL Energy and
DOE.
• Created a database of candidate mines and prepared case
studies of successful projects to promote CMM recovery
and utilization at closed underground mines and active
surface mines.
exploring other areas for methane recovery and utilization.
CMOP provides high-quality, project-specific information and
technical assistance to the coal mining industry and project
developers, including:
• Analyses of technologies and potential projects.
• Technology demonstrations.
• Mine-specific project feasibility assessments.
• State-specific analyses of project potential.
• Market evaluations.
• Guides to state, local, and federal assistance programs.
• Organized the 2008 U.S. Coal Mine Methane Annual
Conference to address the opportunities and challenges
of CMM project development in the United States,
including site visits to the EPA-funded ventilation air
methane technology demonstration project and a coalbed
methane gas upgrade site.
• Hosted a roundtable event to engage officials from leading
coal mining and end-use application companies to discuss
barriers to project development, particularly financing.
• Launched tools to assist potential CMM project
developers, including an online model for project finance
and economics.
57
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ENERGY STAR and Other Climate Protection Partnerships 2008 Annual Report
What To Expect in 2009 and Beyond
Disseminate results from the conclusion of the
demonstration project on mine ventilation air methane
mitigation in the United States.
Update technical reports to provide the latest information
on how to recover coal mine methane and use it
effectively.
• Directly engage project developers, investors, technology
vendors, and the mining community through tailored
outreach events, including a conference in the western
United States.
• Evaluate opportunities for new coal mine methane
recovery and utilization projects, particularly in the
western United States.
LANDFILL METHANE OUTREACH PROGRAM
Landfills accounted for about one-
quarter of the total U.S. methane
emissions in 2008. As one of the largest
anthropogenic (human-influenced)
sources of methane, many landfills are
required by EPA regulations to collect
LANDFILL METHANE
OUTREACH PROGRAM
and combust their landfill gas. EPA established the Landfill
Methane Outreach Program (LMOP) to provide technical
assistance to the smaller landfills not covered by EPA
regulations, as well as the larger, regulated operations that
are combusting their gas but notyet using it as a clean energy
source.
Through LMOP, EPA provides landfill owners
and operators a suite of tools and technical
resources to help them overcome the
obstacles to landfill gas energy (LFGE) project
development. This support includes feasibility
analyses, decision-making software for
evaluating project economics, a database of
more than 520 candidate landfills, an online
project development handbook, and energy
end-user analyses. The benefit of LFGE projects
is that they not only prevent direct methane
emissions from landfills, but also reduce indirect
C02 emissions by displacing the electricity
generated from the burning of fossil fuels (see
Figure 23).
Over the past 14 years, LMOP has assisted
approximately 410 projects (see Figure 24) that
collectively reduced methane emissions from
landfills and avoided C02 emissions totaling
about 42 MMTCE. These efforts are partially
responsible for the approximately 11-percent
decrease in methane emissions from landfills
since 1990.
FIGURE 23. Direct Use and Electric Capacity of LMOP-assisted
Projects
250 T T 1.20"
- 1,000
.- 600
• - 400
.- 200
2000 2001 2002 2003 2004 2005 2006 2007 2008
58
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METHANE PROGRAMS
FIGURE 24. Landfill Gas Energy Projects Across the Country
Increasing Operational LFGE Projects
5-15
16-20
Achievements in 2008
Reduced methane emissions by 5.5 MMTCE, as a result of
helping to develop 48 new LFGE projects and expand
13 projects.
Welcomed 97 new partners, increasing participation by
14 percent and bringing the total to almost 800 LMOP
partners.
Provided stakeholders technical assistance that included
performing more than 100 cost analyses, conducting
80 locator searches to match end-users with landfills, and
running models for 50 LFGE projects.
Drew record attendance—over 500 attendees—at the
12th Annual LMOP Conference and Project Expo, where eight
landfills were showcased to attract investors and project
developers.
What To Expect in 2009 and Beyond
• Assist in the development of more than 40 new LFGE
projects.
• Expand efforts to promote the benefits of LFGE to state
and local economic development offices, emphasizing job
creation and tax revenue opportunities.
• Garnered public attention for LMOP partners and LFGE
projects, which were featured by numerous media outlets,
including West Virginia Public Radio, The Wall Street
Journal, and The New York Times. In addition, LFGE end-
user SC Johnson and LMOP partner Waste Management
produced their own television commercials highlighting
their LFGE projects.
• Launched a new Web version of the Project Development
Handbook to provide the latest financing and project
information to partners, and contributed a chapter on
landfills to EPA's Clean Energy Guide.
• Recognized the outstanding accomplishments of four
landfill methane partners and three exemplary projects
at the 12th Annual LMOP Conference and Project Expo,
including the first LMOP award to a vehicle fuel project
(see Table 19, p. 60).
Host the 13th Annual LMOP Conference, Project Expo, and
Awards Ceremony to showcase the top LMOP Partners
and projects and discuss the latest industry trends.
Continue to provide current information on incentives for
LFGE through fact sheets and listserve announcements.
59
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ENERGY STAR and Other Climate Protection Partnerships 2008 Annual Report
TABLE 19. 2008 Landfill Methane Outreach Program Awards
PROJECTS OF THE YEAR
• Granger, Conestoga Landfill Gas Utilization Project
- Morgantown, PA
• Green Energy Center, High Btu Landfill Gas Energy
Project - Grove City, OH
• Greenville Gas Producers, LLC and County of Greenville
- Greenville, SC
INDUSTRY PARTNER OF THE YEAR
• Casella Waste Systems, Inc. - Montpelier, VT
COMMUNITY PARTNER OF THE YEAR
• Seward County Landfill - Seward County, KS
ENERGY PARTNERS OF THE YEAR
• Lansing Board of Water and Light- Lansing, Ml
• Mars Snackfood US - Waco, TX
Launched in 2004,
Methane to Markets
(M2M) is an international
Methane to Markets initiative that has made
tremendous progress
in accelerating the development of methane emissions
reduction projects around the world. The M2M Partnership
has also demonstrated that countries and the private
sector can work together cooperatively to reduce GHG
emissions, stimulate economic growth, develop new
sources of energy, and improve local environmental
quality. Building off its domestic methane programs, EPA
is working with M2M partners—30 national governments,
including the European Union, and more than 900 private
and public sector organizations (the Project Network)—
to advance methane energy projects from four major
sources: agricultural and food processing waste, landfills,
underground coal mines, and natural gas and oil systems.
U.S. efforts under the M2M Partnership are led by EPA
and involve the collective efforts of six agencies and
departments across the federal government. Ongoing U.S.-
supported projects are expected to result in estimated
annual reductions of approximately 16.4 MMTCE (see
Figure 25). U.S. contributions have also leveraged
more than $278 million in investment from other partner
countries, development banks, the private sector, and
members of the Project Network.
As the Partnership looks toward the future, the science
of climate change is revealing the critical importance of
reducing methane emissions in order to mitigate climate
impacts, especially in the near term. EPA and its partners
are preparing to tackle this challenge in the years to come,
and in 2009 will focus on:
• Developing New Projects and Achieving Greater
Reductions. Subcommittees will be working to develop
FIGURE 25. GHG Reduction Potential of U.S.-supported Projects
2005
2006
2007
2008
country-specific methane reduction action plans,
engage new Project Network members, and identify
projects for the 2010 India Partnership Expo.
Renewing the Partnership's Charter. M2M partners will
be negotiating a new Terms of Reference, potentially
expanding the scope to include other methane sources
beyond the four major ones mentioned above.
Organizing the 2010 India Partnership Expo. M2M
partners and Project Network members will be building
on the success of the first Partnership Expo as they
develop plans for the next one in New Delhi, India. The
first Expo proved to be an effective means of matching
project development opportunities with relevant skills and
resources, identifying more than 90 project opportunities
with an annual emissions reduction potential of
3.1 MMTCE.
60
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FLUORINATED GREENHOUSE GAS PROGRAMS
EPA's fluorinated greenhouse gas (FGHG) partnerships work closely with key industries to manage
the fluorinated gas (F-gas) emissions that occur as byproducts of U.S industrial operations. Many
F-gases—such as perfluorocarbons (PFCs), hydrofluorocarbons (MFCs), nitrogen trifluoride (NF3), and
sulfur hexafluoride (SF6)—are potent GHGs, possessing very high global warming potentials (GWPs).
These F-gases trap substantially more heat in the atmosphere than does C02 on a per mass basis, and
some can have much longer atmospheric lifetimes than C02 (see Table 20, p. 62).
EPA's suite of partnership programs has helped partners maintain their emissions substantially below
1990 levels through cost-effective operational improvements and other emissions reduction strategies
(see Figure 26, p. 62). Despite the potential for sizable growth in F-gas emissions, emissions are
expected to stay atthese levels through the year 2012. The combined efforts of the FGHG partnerships
resulted in GHG emissions reductions of 14.8 MMTCE in 2008 (see Table 21, p. 62).
61
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ENERGY STAR and Other Climate Protection Partnerships 2008 Annual Report
TABLE 20. Global Warming Potentials (GWPs) and
Atmospheric Lifetimes of GHGs
GLOBAL WARMING
GREENHOUSE GAS POTENTIAL FOR 100
YEARS
Carbon Dioxide
Methane
Nitrous Oxide
Hydrofluorocarbons
HFC-134a
Perfluorocarbons
Sulfur Hexafluoride
1
21
310
140-11,700
1,300
6,500-9,200
23,900
ATMOSPHERIC
LIFETIME (YEARS)
50-200
12±3
120
1.5-264
14
3,200-50,000
3,200
FIGURE 26. Partner Actions Are Projected To Maintain
Emissions of Fluorinated Gases Below 1990 Levels Through 2012
30-
1990
1995
2000
2005
2010
2012
Source: IPCC 1996
TABLE 21. Goals and Achievements of EPA's FGHG Programs
PROGRAM 2008 GOAL 2008 ACHIEVEMENT 2009 GOAL
VOLUNTARY ALUMINUM INDUSTRIAL PARTNERSHIP (VAIP)
Industry Participation (% in program)
Reductions (MMTCE)
HFC-23
Industry Participation (% in program)*
Reductions (MMTCE)
OTHER STEWARDSHIP PROGRAMS
Industry Participation (% in program)
Reductions (MMTCE)
TOTAL REDUCTIONS (MMTCE)
99%
2.7
100%
4.7
50-100%
5.8
13.2
99%
2.5
100%
7.3
50-100%
5.0
14.8
99%
2.8
100%
4.5
50-100%
7.3
14.6
'Participation varies from 45% of net generating capacity for electric power systems to 100% for primary magnesium producers.
THE VOLUNTARY ALUMINUM INDUSTRIAL PARTNERSHIP (VAIP)
The Voluntary Aluminum
Industry Partnership (VAIP)
program was launched in
1995 as a joint effort between
EPA and the U.S. primary
aluminum industry to reduce perfluorocarbon (PFC) emissions
from aluminum production. In 2003, the aluminum industry
committed to reducing direct carbon intensity by 53 percent
J IMIl MKIAL PAKTNtH-SHIP
from 1990 levels by 2010. VAIP aims to reduce emissions of
perfluoromethane (CF4) and perfluoroethane (C2F6)—which
are inadvertent byproducts of the smelting process—and
emissions of C02 caused by the consumption of the carbon
anode. This ambitious goal signifies an additional direct
carbon intensity reduction of 25 percent beyond 2000 levels.
62
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FLUORINATED GREENHOUSE GAS PROGRAMS
Achievements in 2008
Reduced 2.5 MMTCE in direct GHG emissions, which
represents reduced RFC emissions of more than 50 percent
and reduced direct carbon emissions of more than
53 percent on a per-ton basis compared with the industry's
1990 baseline.
Measured and analyzed RFC emissions during a pot-line
start-up operation.
Participated in IMS and Aluminum Association programs
on RFC reductions.
Shared information on U.S. progress toward reducing RFC
emissions through training workshops at two companies
in China. The workshops, presented under the Asia Pacific
Partnership, included industry experts from the United
States and Australia.
Completed training for technical experts on using the EPA/
IAIPFC Measurement Protocol and supported completion
of PFC measurements at six smelters in China.
HFC-23 EMISSION REDUCTION PROGRAM
HFC-23 is a byproduct in the production of HCFC-22, a
common commercial and residential air conditioning
refrigerant. Through its partnership with 100 percent of the
U.S. HCFC-22 industry, EPA encourages the development
and implementation of feasible, cost-effective processing
practices and technologies that reduce
Achievements in 2008
HFC-23 emissions. Since the partnership began in 1993, U.S.
HCFC-22 manufacturers have made significant progress in
lowering emissions of HFC-23 through process optimization
and thermal destruction. As a result, HFC-23 emissions
intensity has dropped dramatically."
• Reduced emissions by 7.3 MMTCE below what they would
have been had production continued at 1990 emissions
intensity levels.
THE PFC REDUCTION/CLIMATE PARTNERSHIP FOR THE SEMICONDUCTOR INDUSTRY
associations of Europe, Japan, Korea, Taiwan, and the United
States—announced a challenging goal: to reduce FGHG
emissions by at least 10 percent below the 1995 baseline level
by the end of 2010.
The aggressive goal set by WSC is the world's first
industry-wide, global GHG emissions reduction target and
demonstrates the semiconductor industry's comprehensive
commitment to climate protection. The present challenge for
WSC and EPA is to maintain flexibility and dynamic leadership
to include emerging production centers in China, Malaysia,
and Singapore, as well as expanding cooperation with related
high-tech electronics manufactoring sectors.
Since its inception in 1996, EPA's
FGHG Reduction/Climate Partnership
for the Semiconductor Industry has
been working with semiconductor •%
manufacturers to identify and
implement FGHG-reducing process
changes and manufacturing tool improvements for the
production of integrated circuits. Due to their persistant
efforts, EPA's partners are on track to meet the 2010
global GHG emissions reduction target set by the World
Semiconductor Council (WSC). In April 1999, WSC—whose
members include the national semiconductor industry
13
HFC-23 emissions intensity is the amount of HFC-23 emitted per kilogram of HCFC-22 manufactured
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ENERGY STAR and Other Climate Protection Partnerships 2008 Annual Report
Achievements in 2008
• Reduced absolute FGHG emissions by 2.9 MMTCE, or more
than 16 percent below business-as-usual (BAD) levels,
while U.S. manufacturing continued to expand.
• Completed the first draft of a standard method for
characterizing destruction or removal efficiency (ORE) of
FGHG-abatement technologies and initiated a peer review
by holding a number of stakeholder meetings with the
Japan Electronics and Information Technology Industries
Association, U.S. experts, and the Taiwan Industrial
Technology Research Institute.
• Worked with partner company IBM to evaluate installed
F-gas abatement devices in full-scale production settings.
EPA is working with electronics manufacturing partners to
evaluate and validate its proposed standard measurement
protocol and to help partners learn how their installed
emissions control technologies operate between periodic
maintenance. For the first time, EPA's collaborative study
also evaluated using a non-dispersive infrared (NDIR)
spectrometer as a potential low-cost continuous emissions
monitoring technology for specific types of F-gases.
• Introduced a new cooperative global electronics industry
framework for comprehensively addressing climate
change. This expanded model of cooperation will facilitate
information sharing among all major related electronics
manufacturing sectors—such as semiconductors, liquid
crystal displays (LCDs), microelectrical mechanical
systems (MEMs), and photovoltaics—that are pursuing
comparable climate protection goals.
SULFUR HEXAFLUORIDE (SF6) EMISSIONS REDUCTION PARTNERSHIP
FOR ELECTRIC POWER SYSTEMS
SF6 is the most potent and persistent
GHG. Used primarily by electric
utilities, SF6 is a gaseous dielectric
for high-voltage circuit breakers and
gas-insulated substations. The global
warming potential of SF6 is 23,900 over a 100-year time period,
which means it is 23,900 times more effective at trapping
infrared radiation than an equivalent amount of C02.
Since 1999, EPA has partnered with several electric utilities
through the SF6 Emissions Reduction Partnership for Electric
Power Systems, a voluntary program to reduce SF6 emissions.
In addition to providing a means to actively address climate
change, this program has helped partner companies reap
financial savings through reduced SF6 gas purchases.
Members of the partnership represent 42 percent of the total
U.S. transmission system.
Achievements in 2008
Reduced emissions by 1.8 MMTCE, bringing average SF6
emissions rates down to 4.7 percent of the total equipment
nameplate capacity.
Welcomed two new partner companies: New York State
Electric and Gas in Ithaca, New York, and VT Transco in
Rutland, Vermont.
Conducted a workshop on reducing SF6 emissions with
over 130 participants and 18 vendors. In addition, experts
from fluorocarbon producers, equipment manufacturers,
and the electric power, leak detection camera, and
recycling industries participated. The 2-day event included
a site visit to a substation where SF6 reduction techniques
were demonstrated.
Continued to work with partners to update SF6 reduction
goals through the year 2012.
Recognized two partners—Consolidated Edison Company
of New York and Arizona Public Service—for their
significant emissions reductions and their exemplary
participation in the partnership.
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FLUORINATED GREENHOUSE GAS PROGRAMS
SF, EMISSION REDUCTION PARTNERSHIP FOR THE MAGNESIUM INDUSTRY
The U.S. magnesium industry and the
International Magnesium Association
(IMA) are working with EPA through
the SF6 Emission Reduction Partnership
for the Magnesium Industry to identify
and adopt best management practices for reducing and
Sh Emission Ifediiclion
Partnerslip tot the Magnesium Industry
eliminating emissions of SF6. Launched in 1999, this
partnership works to reduce SF6 emissions from magnesium
production and casting operations, and currently includes
more than 80 percent of the U.S. magnesium industry. In 2003,
partner companies and the IMA committed to completely
eliminating their firms' SF6 emissions by the end of 2010.
Achievements in 2008
• Reduced SF6 emissions equivalentto .39 MMTCE. 2008 was
the ninth year in which EPA collected annual SF6 emissions
reports from magnesium industry partners.
• Organized and led the 4th Annual Global Magnesium
Industry Climate Protection Workshop in conjunction with
the 2008 Annual World Magnesium Conference in Warsaw,
Poland. International industry and government officials
participated in exchanging technical information on
phasing out SF6-based melt protection.14
• Completed the fifth study of alternative melt protection
technologies and associated air emissions. Partner
company AMACOR hosted the study. EPA's evaluation of
cover gas alternatives included quantification of cover gas
destruction values to better determine actual emissions
rates.
Maintained U.S. industry participation in the partnership,
representing 100 percent of primary magnesium
production and 80 percent of domestic casting and
recycling capacity.
Partner company Meridian Magnesium Die Casting
announced it has fully transitioned to alternative cover
gases in its North American manufacturing facilities.
MOBILE AIR CONDITIONING CLIMATE PROTECTION PARTNERSHIP
Motor vehicle air conditioners contribute significantly to
global GHG emissions through vehicle gasoline consumption
and direct refrigerant emissions. In the United States alone,
vehicle air conditioners use 7 billion gallons of gasoline every
year, equal to about 17 MMTCE.15 Additionally, refrigerant
leakage adds 30,000 to 40,000 kilograms of HFC-134 each year,
equal to about 12 to 16 MMTCE.16
In 1998, the Society of Automotive Engineers (SAE)
International, the Mobile Air Conditioning Society
Worldwide, and EPA formed the Mobile Air Conditioning
(MAC) Climate Protection Partnership—a global voluntary
partnership to reduce the climate impacts of MAC systems.
Membership has grown to include most of the world's vehicle
manufacturers and their suppliers, environmental and
industry NGOs, and representatives from industrialized and
developing country governments.
The MAC Partnership has four goals:
• Promote cost-effective designs and improved service
procedures to minimize refrigerant emissions.
• Promote next-generation MAC systems that are better for
the environment while satisfying customer safety, cost,
and reliability concerns (see Figure 27, p. 66).
• Communicate technical progress to policymakers and
the public.
14
15
Full conference proceedings are available at: http://www.epa.gov/highgwp/magnesium-sf6/conf/conf_4thglobal.html.
For more information, see Andersen, S., et al., 2004. Carbon dioxide equivalent calculated with EPA Greenhouse Gas Equivalencies Calculator:
http://www.epa.gov/cleanenergy/energy-resources/refs.html.
These figures are based on sales and official U.S. EPA estimates. According to industry sources, approximately 30,000 kilograms of HFC- 134a were sold into the U.S.
mobile air conditioning aftermarket in 2008. The U.S. GHG Inventory estimates that in 2007 approximately 40,000 kilograms of HFC- 134a were released from mobile air
conditioning. The GWP of HFC-134a is 1,430.
65
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ENERGY STAR and Other Climate Protection Partnerships 2008 Annual Report
• Document current and near-term opportunities to improve
the environmental performance of MAC system design,
operation, and maintenance.
The partnership is now working to meet ambitious,
quantitative goals announced in 2004 to reduce air
conditioning fuel consumption by at least 30 percent and cut
refrigerant emissions by 50 percent.
Achievements in 2008
• Announced plans to introduce new air conditioning
technology using refrigerants with low global warming
potentials by 2011.
• Worked with international, national, state, and local
partners to remove barriers to new refrigerants.
Calculated the global lifecycle climate impact of the
three major alternative refrigerants to determine which
refrigerants have the best climate performance.
What To Expect in 2009 and Beyond for the FGHG Programs
The FGHG partnership programs for the industrial sector will
continue to work with their partners and implement strategies
to keep emissions below 1990 levels. EPA plans to:
• Benchmark current emissions reduction options and costs
across high F-gas industries to support partnership and
policy-making activities.
• Complete a lifecycle analysis of SF6 versus solid-state
material in medium-voltage electric power equipment.
• Continue recruiting companies to participate in the SF6
Emissions Reduction Partnership for Electric Power
Systems and training partners to ensure the collection and
reporting of high-quality data by electric power partners.
• Evaluate the technical feasibility and cost of continuous
emissions monitoring (CEM) of F-gases from the electronics
industry.
• Support efforts of magnesium partners to eliminate
emissions of SF6 by demonstrating alternative melt
protection technologies for primary producers and
secondary ingot casters.
• Maintain active partnerships with HCFC-22 chemical
manufacturers to continue to reduce emissions of HFC-23.
FIGURE 27. Over the Lifetime of a Vehicle, an IMAC* System Will
Save More Than $700 and Prevent Nearly 5,000 Ibs of Greenhouse Gas Emissions
$700
$600
Dollars Saved
GHG EmissionsAvoided (Ibs- CO,- EQ)
5,000 B
LJJ
cT
4,000 «
3,000
o
<
• 2,000
CD
ni
CD
• 1,000
7 8 9 10 11 12 13 14 15
Lifetime of Vehicle in Years
16
''Improved Mobile Air Conditioning (IMAC) systems leak 50% less and are 30% more efficientthan standard systems. Due to their leak-tight design, IMAC systems do not require the refrigerant
recharging that regular mobile A C systems do.
66
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DEMONSTRATING PROGRESS
Demonstrating Progress: Measuring Results of the EPA Climate Protection Partnership Programs
EPA's climate protection programs are an important component of the U.S. government's strategy to
address climate change. EPA is committed to documenting quantifiable program results and using
well-established methods to estimate the benefits of its programs. For each program, EPA has a robust
process in place to regularly review and improve the program evaluation approaches.
The approaches used for each specific program are summarized in the sections below. They vary by
program strategy, sector, availability of data, and market characteristics. To present the most realistic
estimates of program benefits, EPA employs a common analytical framework across all of the individual
program approaches:
• The benefits discussed represent the results attributable to EPA efforts above pre-existing trends or
business-as-usual (BAU) scenarios.
• Program methods address data quality, potential double counting with other EPA programs, free
ridership, the efforts of third-party actors, and other program-specific market effects.
• Where marginal uncertainty exists, EPA uses the best available information and best practices that
yield conservative benefit estimates.
• Cumulative estimated benefits reflect the stream of energy savings that will persist through 2018 due
to investments made through 2008. For this analysis, EPA assumes no new investments will be made
through its programs in 2009 or beyond.
• Financial benefits are placed in presentvalue terms.
Environmental and financial benefits for 2000 to 2008 are summarized in Table 1 on p. 3. The historical
environmental benefits and cost effectiveness of these programs are summarized on pages 68 and
69 (see Table 22 and Figure 28). The information presented in this report is similar to much of the
information used in the U.S. Office of Management and Budget (OMB) Program Assessment Rating Tool
(PART), which found these EPA programs to be achieving their goals.
67
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ENERGY STAR and Other Climate Protection Partnerships 2008 Annual Report
FIGURE 28. EPA Programs Are Highly Cost-Effective Mechanisms for Reducing GHG Emissions
EPA's climate protection programs are a very cost-effective approach for reducing U.S. greenhouse gas emissions.
Moreover, it is clear from sources such as the IPCC's Fourth Assessment Report and McKinsey's study, "Reducing
Greenhouse Gas Emissions: How Much at What Cost?" that there are still great untapped opportunities for these
programs to capture—meaning they will continue to be cost-effective far into the future. Every federal dollar spent on
these partnership programs through 2008 means:
• Reductions in greenhouse gas emissions of 1.0 metric ton of carbon equivalent.
• Savings for partners and consumers of more than $75 on their energy bills.
• Private sector investment of more than $15.
• A net savings of more than $60.
ENERGY STAR
Through the ENERGY STAR program, EPA helps U.S.
businesses and consumers save money and reduce GHG
emissions by labeling energy-efficient products, raising
the bar of energy efficiency in new home construction, and
encouraging superior energy management practices in the
commercial and industrial sectors. The methods for estimating
the benefits of each of these strategies are described below.
Products
• Sales of products due to the ENERGY STAR program are
determined as those above and beyond established BAU
purchases of these products."These sales are estimated
by:
- Collecting annual sales data on ENERGY STAR qualifying
products from participating product manufacturers as
a condition of partnership and supplementing these
data by industry reports on total annual product sales
as necessary. These data are screened and issues
resolved.
- Using established BAU baselines for annual product
sales for each product category. These baselines use
historic data and expert judgment, and they typically
reflect increasing market shares for efficient products
and increasing product efficiencies overtime.
- Applying a conservative estimate of the effect of
market transformation to account for EPA efforts when
product specifications are revised and qualified product
shipments fall as manufacturers transition to the new
specification.
• Annual energy savings are calculated using established
values for the difference in annual energy use between a
single ENERGY STAR product and a typically purchased
product. For these values, EPA:
- Assumes that ENERGY STAR products just meet the
ENERGY STAR thresholds, even though there are some
products that exceed this level.
- Assumes the typically purchased product meets
minimum efficiency standards where standards exist or
uses the average energy use for the product category
where there are no standards.
- Supports primary data collection, such as product
metering to collect power use information, where
additional information is necessary to estimate energy
savings.
- Uses product-specific lifetimes that vary from 4 to 20
years. While those who purchase an ENERGY STAR
qualified product are likely to replace it with one, EPA
includes only a fraction of replacement purchases and
investments in the program benefits.
• Peak power savings are estimated using product-specific
factors that reflect the contribution of the annual energy
savings from a product to peak load savings.
17
For more details on many aspects of this method, see Homan et al., 2009 and Weber et al., 2000.
68
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DEMONSTRATING PROGRESS
TABLE 22. Overview of EPA's Climate Partnership Programs Reviewed in This Annual Report With GHG Reductions Since 2000
GH
PROGRAM Bnnn
ADDR
GS
rtftfrn KEYSECTOR(S)
ESSED
Residential,
ENERGY STAR C02 Commercial,
Industrial
Commercial.
Climate Leaders All
Clean Energy-
Industrial
State
Environment State CO, .
Partnership
CLEAN ENERGY SUPPLY1
Green Power
c
Partnership
Combined Heat &
1 Government
State & Local
Government,
0
2 Commercial,
Industrial
Commercial.
CO
Power Partnership
METHANE PROGRAMS
Industrial
Natural Gas STAR CH. Natural Gas
Coalbed Methane
4
SCOPE OF
PARTNERS AS
OF 2008
15,000
250
16
1,000
250
62% of
industry
Outreach Program CH4 Coal Mining —
(CMOP)
Landfill Methane
Waste
Outreach Program CH.
(LMOP) Management
FGHG PROGRAMS
Voluntary
Aluminum Aluminum
r I~US
Industrial
Partnership
HFC-23
Smelting
Chemical
HFCs
Partnership
Industry
Magnesium
Production,
Stewardship Semiconductor
o \ R \ rLvS
Programs
Mobile Air
Manufacturing,
Electric Power
Systems
750
99% of
industry
100% of
industry
50%-100%
of industry
Conditioning C02 HFCs MAC Industry —
(MAC) Partnership
| GHG REDUCTIONS* (MMTCE)
I^^^^^^^^^^^^^^^^^^H
2000 2001 2002 2003 2004 2005 2006 2007 2008
15.2 17.7 21.3 25.0 28.5 32.2 36.3 41.4 45.0
Climate Leaders' reductions are reflected in the data shown for
other programs.
— — — —
— — 0.6 1.0 2.0 3.2 3.7 4.8 6.1
4.1 4.8 5.7 6.0 7.9 10.1 9.4 10.2 12.6
2.1 2.3 1.7 1.7 2.0 2.0 2.5 2.2 2.2
3.2 3.7 3.9 4.1 4.4 4.5 4.8 5.2 5.5
2.0 2.1 1.8 2.2 2.2 2.3 2.4 2.5 2.5
4.7 5.1 4.5 6.1 6.4 6.2 7.0 7.0 7.3
0.8 0.8 1.3 1.8 3.1 3.0 3.9 4.3 5.0
Working toward technology improvement goals
' GHG reductions are for both the Green Power Partnership and Combined Heat& Power Partnership.
*These reductions reflect the most up-to-date data collected from EPA partners and may differ from reductions reported in previous annual reports.
—: Not applicable
69
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ENERGY STAR and Other Climate Protection Partnerships 2008 Annual Report
• Net energy bill savings is the present value (PV) of energy
bill savings minus the PV of any incremental cost of
purchasing an ENERGY STAR product above a standard
model over the product lifetimes discussed above.18 All
energy bill calculations use national sector-specific fuel
prices.
• Avoided emissions of GHGs for 2008 are determined using
marginal emissions factors for C02 based on factors
established as part of the U.S. government's reporting
process to the UN Framework Convention on Climate
Change, as well as historical emissions data from EPA's
eGRID database.19 For future years, EPA uses factors
derived from energy efficiency scenario runs of the
integrated utility dispatch model. Integrated Planning
Model (IPM®).20
New Homes
• EPA receives data quarterly from third-party verifiers
(home energy raters) on the number of homes they verified
to be ENERGY STAR, as a condition of program partnership.
These raters abide by a set of quality assurance practices
to ensure data quality. In addition, EPA reviews the
submitted data and resolves any data irregularities.
• EPA recognizes that some new homes that qualify for
ENERGY STAR are not a direct result of the program and
that many homes built to ENERGY STAR levels due to
the program are not labeled or reported to the program.
Currently, EPA estimates the former number of homes to be
lower than the latter.
• Annual energy savings are calculated using established
values for the energy savings from a home that meets the
ENERGY STAR specification relative to a home built to
code. Energy bill savings are calculated using a similar
approach as for products and average national energy
prices for the residential sector. The average lifetime of a
home for both energy and bill savings is 30 years.
• Peak power savings and avoided emissions of GHGs are
determined using approaches similar to those described
for products.
Calculated using a 7% discount rate and 2008 perspective.
For more details on eGRID, see U.S. EPA, 2008.
For more details on IPM, see U.S. EPA, 2006.
For more details on many aspects of this method, see Horowitz, M.J., 2009,2008, and 2007
For more details on many aspects of this method, see Horowitz, M.J., 2009.
For more details on many aspects of the previous methods, see Horowitz, M.J., 2004 and 2001.
Commercial Buildings
• Annual electricity and natural gas savings are determined
based on a peer-reviewed methodology developed for the
commercial building sector.21 The methodology involves
a counterfactual econometric analysis that forecasts
state level electricity use in the absence of commercial
building energy efficiency programs. Key determinants of
electricity demand that are controlled for in the analysis
include state energy prices, weather conditions, economic
conditions, other federal programs—such as DOE's Rebuild
and Federal Energy Management Program (FEMP)—and
the long-term U.S. trend in commercial sector electronic
technologies. Once the net national change in electricity
use due to publicly funded energy efficiency programs
is calculated, ENERGY STAR accomplishments are
differentiated from other national and regional demand-
side management (DSM) and market transformation
programs. The methodology used for 2008 is an update of
two former peer-reviewed methodologies used by EPA;
nevertheless, the results of all three methodologies yield
consistent estimates of ENERGY STAR accomplishments.22
• The peak power savings are estimated using system-
specific factors that reflect the contribution of the energy
savings from lighting and other building improvements to
peak load savings.
• As with products, net energy bill savings reflect the
incremental investment necessary to upgrade the building
to ENERGY STAR specifications determined by using simple
payback period decision criteria. EPA assumes most
building and industrial facility improvements last at least 10
years and uses national commercial sector fuel prices.
• Avoided emissions of GHGs are determined using marginal
emissions factors for C02 as with products.
Industry
Annual industrial electricity and natural gas savings are
determined using a peer-reviewed methodology similar to
that used for the commercial sector.23 The methodology
distinguishes savings due to ENERGY STAR from those due
to utility-run DSM programs and other market transformation
programs such as DOE's Industrial Technology Program (ITP).
GHG emissions are calculated using marginal C02 emissions
as with products.
70
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DEMONSTRATING PROGRESS
THE CLEAN ENERGY SUPPLY PROGRAMS
Combined Heat and Power (CHP) Partnership
The CHP Partnership dismantles the market barriers stifling
investment in environmentally beneficial CHP projects.
Program partners such as project owners voluntarily provide
project-specific information on newly operational CHP
projects to EPA. These data are screened and any issues
resolved.
Energy savings are determined on a project-by-project
basis, based on fuel type, system capacity, and operational
profile. Estimates of the use of fossil and renewable fuels are
developed, as well as the efficiency of thermal and electrical
use or generation, as appropriate.
Emissions reductions are calculated on a project-by-
project basis to reflect the greater efficiency of onsite CHP.
Avoided emissions of GHGs from more efficient energy
generation are determined using marginal emissions factors
derived from energy-efficiency scenario runs of IPM, and
displaced emissions from boiler produced thermal energy
are developed through engineering estimates. In addition,
emissions reductions may include avoided transmission and
distribution losses, as appropriate.
Only the emissions reductions from projects that meet
the assistance criteria for the program are included in
the program benefit estimates. EPA also addresses the
potential for double counting benefits between this and
other partnerships by having program staff meet annually to
identify and resolve any overlap issues.
Green Power Partnership
The Green Power Partnership boosts supply of clean
energy by helping U.S. businesses purchase electricity from
green generation sources. As a condition of partnership,
program partners submit data annually on their purchases of
qualifying green power products. These data are screened
and any issues resolved.
Avoided emissions of GHGs are determined using marginal
emissions factors for C02 derived from scenario runs of IPM.
The potential for double counting, such as counting
green power purchases that may be required as part of a
renewable portfolio standard or may rely on resources that
are already part of the system mix, is addressed through a
partnership requirement that green power purchases be
incremental to what may already be required.
EPA estimates that the vast majority of the green power
purchases made by program partners are due to the
partnership, as partners comply with aggressive green power
procurement requirements (usually at incremental cost) to
remain in the program. Further, EPA estimates that its efforts
to foster a growing voluntary green power market have likely
led to additional voluntary green power purchases that have
not been reported through the program.
THE METHANE PROGRAMS
EPA's methane programs facilitate recovering methane from
landfills, natural gas extraction systems, agriculture, and coal
mines as well as using methane as a clean energy resource.
The expenditures used in the program analyses include the
capital costs agreed to by partners to bring projects into
compliance with program specifications and any additional
operating costs engendered by program participation.
Natural Gas STAR Program
As a condition of partnership, program partners submit
implementation plans to EPA describing the emissions
reduction practices they plan to implement and evaluate. In
addition, partners submit progress reports detailing specific
emissions reduction activities and accomplishments each
year.
EPA does not attribute all reported emissions reductions
to Natural Gas STAR. Partners may only include actions
that were undertaken voluntarily, not those reductions
attributable to compliance with existing regulations.
Emissions reductions are estimated by the partners either
from direct before-and-after measurements or by applying
peer-reviewed emissions reduction factors.
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ENERGY STAR and Other Climate Protection Partnerships 2008 Annual Report
Landfill Methane Outreach Program
EPA maintains a comprehensive database of the operational
data on landfills and landfill gas energy projects in the United
States. The data are updated frequently based on information
submitted by industry, the Landfill Methane Outreach
Program's (LMOP's) outreach efforts, and other sources.
Reductions of methane that result from compliance with EPA's
air regulations are not included in the program estimates.
In addition, only the emissions reductions from projects
that meet the LMOP assistance criteria are included in the
program benefit estimates.
EPA uses emissions factors that are appropriate to the
project. The factors are based on research, discussions with
experts in the landfill gas industry, and published references.
Coalbed Methane Outreach Program
Through cooperation with the U.S. Mine Safety & Health
Administration, state oil and gas commissions, and the mining
companies themselves, EPA collects mine-specific data
annually and estimates the total methane emitted from the
mines and the quantity of gas recovered and used.
There are no regulatory requirements for recovering and
using coal mine methane; such efforts are entirely voluntary.
EPA estimates coal mine methane recovery attributable to
its program activities on a mine-specific basis, based on the
program's interaction with each mine.
THE FLUORINATED GREENHOUSE GAS PROGRAMS
Due to the small pool of potential partners for the FGHG
programs, financial expenditures and savings are proprietary
information of program partners and not included in the
summary of economic benefits.
Voluntary Aluminum Industry Partnership
VAIP partners agree to report aluminum production and
anode effect frequency and duration in order to estimate
annual FGHG emissions.
Reductions are calculated by comparing current emissions to
a BAU baseline that uses the industry's 1990 emissions rate.
Changes in the emissions rate (per ton production) are used
to estimate the annual GHG emissions and reductions that are
a result of the program.
The aluminum industry began making significant efforts to
reduce FGHG emissions as a direct result of EPA's climate
partnership program. Therefore, all reductions achieved by
partners are assumed to be the result of the program.
HFC-23 Emission Reduction Program
Program partners report HCFC-22 production and HFC-23
emissions to a third party that aggregates the estimates and
submits the total estimates for the previous year to EPA.
Reductions are calculated by comparing current emissions to
a BAU baseline that uses the industry's 1990 emissions rate.
Changes in the emissions rate are used to estimate the annual
GHG emissions and reductions that are a consequence of the
program.
Subsequent to a series of meetings with EPA, industry began
making significant efforts to reduce HFC-23 emissions. All U.S.
producers participate in the program; therefore, all reductions
achieved by manufacturers are assumed to be the result of
the program.
Environmental Stewardship Programs
EPA's Environmental Stewardship Programs include the PFC
and SF6 Electric and Magnesium Reduction Partnerships.
Partners report emissions and emissions reductions based on
jointly developed estimation methods and reporting protocols.
Data collection methods are sector specific, and data are
submitted to EPA either directly or through a designated third
party.
Reductions are calculated by comparing current emissions
to a BAU baseline, using industry-wide or company-specific
emissions rates in a base year. The reductions in emissions
rates are used to calculate the overall GHG emissions
reductions from the program.
The share of the reductions attributable to EPA's programs
is identified based on a detailed review of program activities
and industry-specific information.
72
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Figures
FIGURE 1. GHG Emissions Reductions Exceed 85 MMTCE—Equivalent to Emissions From 57 Million Vehicles 4
FIGURE 2. ENERGY STAR Benefits Continue To Grow 4
FIGURE 3. 2008 International Climate Protection Awards 5
FIGURE 4. U.S. C02 Emissions by Sector and Non-C02 Gases by Percent of Total GHGs 11
FIGURE 5. U.S. Electricity Generation by Fuel Type 11
FIGURE 6. ENERGY STAR Award Winners 17
FIGURE 7. More Than 2.5 Billion ENERGY STAR Qualified Products Purchased Since 2000 20
FIGURE 8. Awareness of ENERGY STAR Growing in the United States 21
FIGURE 9. Home Performance with ENERGY STAR Spreads Across the Country 25
FIGURE 10. More than 940,000 Homes Nationwide Bearthe ENERGY STAR Label 26
FIGURE 11. ENERGY STAR Qualified New Homes Gaining Market Share 27
FIGURE 12. Amount of Rated Floor Space by State 30
FIGURE 13. 16 Percent of Commercial Square Footage Rated in 2008 31
FIGURE 14. Steady Growth in Building Space Benchmarked and Labeled (Sq. Ft. in Billions) 32
FIGURE 15. More Than 6,200 Buildings Have Earned the ENERGY STAR 32
FIGURE 16. The 251 Climate Leaders by Sector 39
FIGURE 17. GHG Emissions Avoided by EPA's Clean Energy Supply Programs 42
FIGURE 18. Green Power Purchases and Avoided GHG Emissions 43
FIGURE 19. Combined Heat and Power Capacity by State as of 2008 45
FIGURE 20. New and Updated Tools and Resources for States and Local Governments 48
FIGURE 21. Partner Actions Are Projected To Maintain Methane Emissions Below 1990 Levels Through 2012 54
FIGURE 22. Natural Gas STAR Cumulative GHG Emissions Reductions and Gas Savings 55
FIGURE 23. Direct Use and Electric Capacity of LMOP-assisted Projects 58
FIGURE 24. Landfill Gas Energy Projects Across the Country 59
FIGURE 25. GHG Reduction Potential of U.S.-supported Projects 60
FIGURE 26. Partner Actions Are Projected To Maintain Emissions of Fluorinated Gases Below 1990 Levels Through 2012 62
FIGURE 27. Over the Lifetime of a Vehicle, an IMAC System Will Save More Than $700
and Prevent Nearly 5,000 Ibs of Greenhouse Gas Emissions 66
FIGURE 28. EPA Programs Are Highly Cost-Effective Mechanisms for Reducing GHG Emissions 68
73
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ENERGY STAR and Other Climate Protection Partnerships 2008 Annual Report
TABLE 1. Annual and Cumulative Benefits From Partner Actions Through 2008 (in Billions of 2008 Dollars and MMTCE) 3
TABLE 2. ENERGY STAR Key Program Indicators, 2000 and 2008 6
TABLE 3. Long-term Greenhouse Gas Reduction Goals for EPA Climate Partnership Programs (MMTCE) 7
TABLE 4. Market Barriers Addressed by EPA's Climate Partnership Programs 10
TABLE 5. ENERGY STAR Program Achievements Exceed Goals in 2008 14
TABLE 6. Average Consumer Energy Savings of ENERGY STAR Qualified Products 16
TABLE 7. ENERGY STAR Product Specifications Added, Revised, and in Progress 19
TABLE 8. EPA Maintains Efficiency Standards With 125 Product Specifications and Revisions 23
TABLE 9. Summary of EPA ENERGY STAR Industrial Focuses 35
TABLE 10. EPA Expands ENERGY STAR for Superior Energy Management of Industrial Plants 36
TABLE 11. Climate Leaders Key Program Indicators for 2004-2008 (Cumulative) 40
TABLE 12. EPA Recognizes 16 Leading Green Power Partners in 2008 43
TABLE 13. CHP Capacity Market Share 44
TABLE 14. 2008 ENERGY STAR Combined Heat and Power Awards 46
TABLE 15. Clean Energy-Environment State Partnership Grows to 16 Partners in 2008 49
TABLE 16. State Progress Toward Meeting the Action Plan Vision for 2025 51
TABLE 17. EPA's Methane Programs Meet and Surpass Goals 54
TABLE 18. 2008 Natural Gas STAR Awards 55
TABLE 19. 2008 Landfill Methane Outreach Program Awards 60
TABLE 20. Global Warming Potentials (GWPs) and Atmospheric Lifetimes of GHGs 62
TABLE 21. Goals and Achievements of EPA's FGHG Programs 62
TABLE 22. Overview of EPA's Climate Partnership Programs Reviewed
in This Annual Report With Greenhouse Gas Reductions Since 2000 69
74
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References
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Savings and Emission Reductions by Improving Vehicle Air
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75
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United States
Environmental Protection Agency
Air and Radiation 6202J
EPA 430-R-09-049
www.epa.gov
December 2009
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