Energy efficiency technologies offer major savings

December 09, 2009

WASHINGTON -- Energy efficiency technologies that exist today or that are likely to be developed in the near future could save considerable money as well as energy, says a new report from the National Research Council. Fully adopting these technologies could lower projected U.S. energy use 17 percent to 20 percent by 2020, and 25 percent to 31 percent by 2030.

Achieving full deployment of these efficiency technologies will depend in part on pressures driving adoption, such as high energy prices or public policies designed to increase energy efficiency. Nearly 70 percent of electricity consumption in the United States occurs in buildings. The energy savings from attaining full deployment of cost-effective, energy-efficient technologies in buildings alone could eliminate the need to add new electricity generation capacity through 2030, the report says. New power generation facilities would be needed only to address imbalances in regional energy supplies, replace obsolete facilities, or to introduce more environmentally friendly sources of electricity.

Many cost-effective efficiency investments in buildings are possible, the report says. For example, replacing appliances such as air conditioners, refrigerators, freezers, furnaces, and hot water heaters with more efficient models could reduce energy use by 30 percent. Opportunities for achieving substantial energy savings exist in the industrial and transportation sectors as well. For example, deployment of industrial energy efficiency technologies could reduce energy use in manufacturing 14 percent to 22 percent by 2020, relative to expected trends. Most of these savings would occur in the most energy-intensive industries, such as chemical manufacturing, petroleum refining, pulp and paper, iron and steel, and cement.

Although there is great potential, many barriers exist to widespread adoption of energy efficiency technologies, the report points out. The upfront costs can be high, which can deter investment despite the possibility of long-term cost savings. Volatile energy prices can cause buyers to delay purchasing more efficient technology due to a lack of confidence that they will see an adequate return on their investment. In addition, there is a shortage of readily available, trustworthy information for consumers hoping to learn about the relative performance and costs of energy-efficient technology alternatives. Investments in energy-efficient infrastructure are particularly important, as these can lock in patterns of energy use for decades. Therefore, taking advantage of windows of opportunity for infrastructure is crucial.

Overcoming these barriers will require significant public and private support, and sustained effort. Many energy efficiency initiatives have been successful, such as the U.S. Department of Energy and U.S. Environmental Protection Agency's Energy Star labeling program. Efforts undertaken by California and New York have yielded large energy savings for those states. These experiences provide valuable lessons for national, state, and local policymakers on enacting effective energy efficiency policies.

This is the final report in a series from the National Academies' America's Energy Future project, which was undertaken to stimulate and inform a constructive national dialogue about the nation's energy future.
-end-
The America's Energy Future project is sponsored by the U.S. Department of Energy, BP America, Dow Chemical Company Foundation, Fred Kavli and the Kavli Foundation, GE Energy, General Motors Corp., Intel Corp., and the W.M. Keck Foundation. Support was also provided by the National Academies through the following endowed funds created to perpetually support the work of the National Research Council: Thomas Lincoln Casey Fund, Arthur L. Day Fund, W.K. Kellogg Foundation Fund, George and Cynthia Mitchell Endowment for Sustainability Science, and the Frank Press Fund for Dissemination and Outreach. The National Academy of Sciences, National Academy of Engineering, Institute of Medicine, and National Research Council make up the National Academies. They are private, nonprofit institutions that provide science, technology, and health policy advice under a congressional charter. The Research Council is the principal operating agency of the National Academy of Sciences and the National Academy of Engineering. A panel roster follows.

Copies of REAL PROSPECTS FOR ENERGY EFFICIENCY IN THE UNITED STATES are available from the National Academies Press; tel. 202-334-3313 or 1-800-624-6242 or on the Internet at HTTP://WWW.NAP.EDU. Reporters may obtain a copy from the Office of News and Public Information (contacts listed above).

[ This news release and report are available at HTTP://NATIONAL-ACADEMIES.ORG ]

NATIONAL RESEARCH COUNCIL
Division on Earth and Life Studies
Division on Engineering and Physical Sciences
and
NATIONAL ACADEMY OF ENGINEERING
and
TRANSPORTATION RESEARCH BOARD

COMMITTEE ON AMERICA'S ENERGY FUTURE: ENERGY EFFICIENCY TECHNOLOGIES: OPPORTUNITIES, RISKS, AND TRADEOFFS

LESTER B. LAVE 1 (CHAIR)
Harry B. and James H. Higgins Professor of Economics, and
University Professor
Tepper School of Business
Carnegie Mellon University
Pittsburgh

MAXINE L. SAVITZ 2 (VICE CHAIR)
General Manager
Honeywell Inc. (retired)
Los Angeles

R. STEPHEN BERRY 3
James Franck Distinguished Service Professor Emeritus
Gordon Center for Integrative Studies
Department of Chemistry and James Franck Institute
The University of Chicago
Chicago

MARILYN A. BROWN
Professor of Energy Policy
School of Public Policy
Georgia Institute of Technology
Atlanta

LINDA R. COHEN
Professor
Department of Economics
University of California
Irvine

MAGNUS G. CRAFORD 2
Chief Technology Officer
LumiLeds Lighting
San Jose, Calif.

PAUL A. DECOTIS
Vice President of Power Markets
Long Island Power Authority
Albany, NY

JAMES DEGRAFFENREIDT, JR.
Chairman of the Board and Chief Executive Officer
WGL Holdings, Inc.
Washington, D.C.

HOWARD GELLER
Executive Director
Southwest Energy Efficiency Project
Boulder, Colo.

DAVID B. GOLDSTEIN
Energy Program Director
Natural Resources Defense Council
San Francisco

ALEXANDER MACLACHLAN 2
Senior Vice President
Research and Development
E.I. du Pont de Nemours & Co. (retired)
Wilmington, Del.

WILLIAM F. POWERS 2
Vice President of Research
Ford Motor Company (retired)
Ann Arbor, Mich.

ARTHUR H. ROSENFELD
Commissioner
California Energy Commission
Sacramento, Calif.

DANIEL SPERLING
Professor of Civil Engineering and Environmental Science, and
Director
Center of Transporation Studies
University of California
Davis

RESEARCH COUNCIL STAFF

MADELINE WOODRUFF
Study Director

1 Member, Institute of Medicine
2 Member, National Academy of Engineering
3Member, National Academy of Sciences

National Academies of Sciences, Engineering, and Medicine

Related Energy Articles from Brightsurf:

Energy System 2050: solutions for the energy transition
To contribute to global climate protection, Germany has to rapidly and comprehensively minimize the use of fossil energy sources and to transform the energy system accordingly.

Cellular energy audit reveals energy producers and consumers
Researchers at Gladstone Institutes have performed a massive and detailed cellular energy audit; they analyzed every gene in the human genome to identify those that drive energy production or energy consumption.

First measurement of electron energy distributions, could enable sustainable energy technologies
To answer a question crucial to technologies such as energy conversion, a team of researchers at the University of Michigan, Purdue University and the University of Liverpool in the UK have figured out a way to measure how many 'hot charge carriers' -- for example, electrons with extra energy -- are present in a metal nanostructure.

Mandatory building energy audits alone do not overcome barriers to energy efficiency
A pioneering law may be insufficient to incentivize significant energy use reductions in residential and office buildings, a new study finds.

Scientists: Estonia has the most energy efficient new nearly zero energy buildings
A recent study carried out by an international group of building scientists showed that Estonia is among the countries with the most energy efficient buildings in Europe.

Mapping the energy transport mechanism of chalcogenide perovskite for solar energy use
Researchers from Lehigh University have, for the first time, revealed first-hand knowledge about the fundamental energy carrier properties of chalcogenide perovskite CaZrSe3, important for potential solar energy use.

Harvesting energy from walking human body Lightweight smart materials-based energy harvester develop
A research team led by Professor Wei-Hsin Liao from the Department of Mechanical and Automation Engineering, The Chinese University of Hong Kong (CUHK) has developed a lightweight smart materials-based energy harvester for scavenging energy from human motion, generating inexhaustible and sustainable power supply just from walking.

How much energy do we really need?
Two fundamental goals of humanity are to eradicate poverty and reduce climate change, and it is critical that the world knows whether achieving these goals will involve trade-offs.

New discipline proposed: Macro-energy systems -- the science of the energy transition
In a perspective published in Joule on Aug. 14, a group of researchers led by Stanford University propose a new academic discipline, 'macro-energy systems,' as the science of the energy transition.

How much energy storage costs must fall to reach renewable energy's full potential
The cost of energy storage will be critical in determining how much renewable energy can contribute to the decarbonization of electricity.

Read More: Energy News and Energy Current Events
Brightsurf.com is a participant in the Amazon Services LLC Associates Program, an affiliate advertising program designed to provide a means for sites to earn advertising fees by advertising and linking to Amazon.com.