Croatian Center of Renewable Energy SourcesNews and Events April 11, 2013 |
Energy Department Announces Apps for Vehicles Challenge Winners
The Energy Department announced the winners of
the Apps for Vehicles Challenge on April 1. The competition asked app
developers and entrepreneurs to demonstrate how the open data available
on most vehicles can be used to improve vehicle safety, fuel efficiency,
and comfort. The Department awarded the Judges' Prize to New York
City-based Dash, which developed an app that turns any vehicle into a
"smart car," providing real diagnostics and alerts to enable drivers to
maximize engine performance, minimize carbon emissions, and save money.
The Popular Choice prize went to MyCarma, headquartered in Troy,
Michigan, which developed an app that offers a personalized fuel economy
estimate based on a driver's unique driving patterns instead of a
standard test cycle. Green Button Gamer, based in Boston, Massachusetts,
won the Safety Innovation award, and Fuel Economy Coach, based in
Augusta, Georgia, received the Fuel Efficiency Innovation award.
The Apps for Vehicles Challenge is focused on
spurring innovative projects or services to reduce fuel costs and
increase safety for consumers by utilizing vehicle-generated
information, including data on engine speed, brake position, headlights,
and distance traveled. Entries were judged based on their creativity,
innovation, use of open vehicle data, consumer accessibility, and
potential to help consumers improve fuel efficiency. The Energy
Department announced the competition in October 2012, and from nearly 40
entries that were submitted for the first phase of the competition,
seven were selected as finalists to advance to the second stage. See the
Energy Department's Progress Alert and visit the Apps for Vehicles Challenge website to download the winning apps.
Energy Department Renews Funding for Bioenergy Research Centers
The Energy Department announced on April 4 that
it would fund its three Bioenergy Research Centers for an additional
five-year period, subject to continued congressional appropriations. The
three centers were established by the Department's Office of Science in
2007 as an innovative program to accelerate fundamental research
breakthroughs toward the development of advanced next-generation
biofuels. The centers include the BioEnergy Research Center, led by the
Department's Oak Ridge National Laboratory; the Great Lakes Bioenergy
Research Center, led by the University of Wisconsin-Madison in
partnership with Michigan State University; and the Joint BioEnergy
Institute, led by the Department's Lawrence Berkeley National
Laboratory. Each center is designed to be a large, integrated,
multidisciplinary research effort, funded at the rate of $25 million per
year, and they have consistently received high marks from outside
reviewers for both their scientific productivity and the effective
management and integration of their research efforts.
In their first five years of operation, the
Bioenergy Research Centers have produced more than 1,100 peer-reviewed
publications and more than 400 inventions, as recorded in invention
disclosures or patent applications. Among the breakthroughs are new
approaches for engineering non-food crops for biofuel production;
reengineering of microbes to produce advanced biofuels such as "green"
gasoline, diesel, and jet fuel precursors from biomass; and the
development of methods to grow non-food biofuel crops on marginal lands
so as not to compete with food production. In the next five years,
emphasis will be on bringing new methods and discoveries to maturity,
developing new lines of research, and accelerating the transformation of
scientific breakthroughs into new technologies that can transition to
the marketplace. See the Energy Department press release, and for more information on the centers, visit the Genomic Science Program website.
New Database Shows Benefits of Energy Efficiency Programs
The Energy Department on April 5 recognized a
new publicly available database that offers federal, state, and local
decision-makers information documenting the results of energy-efficiency
programs in the Northeast and Mid-Atlantic regions. The Regional Energy
Efficiency Database (REED), a project of Northeast Energy Efficiency
Partnerships, provides a one-stop resource to readily access energy
efficiency program data, including energy and peak-demand savings,
costs, avoided emissions, and job impacts. This is part of the Energy
Department's broader effort to improve public access to energy
information, empowering consumers, industry, and government agencies to
make informed decisions that save money by saving energy.
The REED database allows users to generate
reports and download underlying data showing the impacts of
ratepayer-funded energy efficiency programs in Connecticut, Maine,
Maryland, Massachusetts, New Hampshire, New York, Rhode Island, and
Vermont. REED will help inform a broad range of policy issues, including
energy, economic, and air quality planning, and help demonstrate the
long-term, money-saving benefits of energy efficiency investments.
Specifically, policymakers, program administrators and other industry
stakeholders can use the REED data for a variety of purposes, including
comparing efficiency program impacts across states to help identify best
practices in efficiency policy and program design, as well as informing
progress toward clean air and climate change goals. The database
currently includes 2011 electric and gas energy efficiency program data
and will expand this fall to include 2012 data from Delaware and the
District of Columbia, as well as the states currently in the database.
See the Energy Department Progress Alert.
Manufacturing Energy Use Down Since 2002: EIA
Total energy consumption in the U.S.
manufacturing sector decreased by 17% from 2002 to 2010, according to
data released on March 19 by the U.S. Energy Information Administration
(EIA). Manufacturing gross output decreased by only 3% over the same
period. Taken together, these data indicate a significant decline in the
amount of energy used per unit of gross manufacturing output. The
significant decline in energy intensity reflects both improvements in
energy efficiency and changes in the manufacturing output mix.
Consumption of every fuel used for manufacturing declined over this
period.
The manufacturing sector comprised more than 11%
of U.S. gross domestic product (GDP) in 2010. The manufacturing base in
the United States is broad, and includes energy-intensive industries
such as petroleum refining, chemicals, aluminum, iron and steel, paper,
wood products, and food, as well as less energy-intensive industries
such as textiles, leather, apparel, furniture, machinery, and electrical
equipment. Energy for manufacturing can be consumed in two ways: as a
fuel or as a feedstock (material input to a final product). Energy
consumed as a fuel includes all energy used for heat and power. Energy
used as feedstock is the use of energy sources for raw material input or
for any purpose other than the production of heat or power. See the EIA press release.
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CROATIAN CENTER of RENEWABLE ENERGY SOURCES (CCRES)special thanks to U.S. Department of Energy | USA.gov |
5 Super-Sized Solar Projects Transforming the Clean Energy Landscape
2012 marked a record year for America’s solar
industry. Installations surged by 76% compared to 2011—representing an
estimated market value of $11.5 billion. From commercial to residential,
every sector experienced significant growth, but the clear standout of
2012 was utility-scale solar.
Utility-scale solar projects are designed to
generate massive amounts of electricity. Unlike other sectors, the
electricity generated by utility-scale projects is sold directly to
wholesale utility buyers. In the recently released U.S. Solar Market
Insight report, GreenTech Media and SEIA found that the utility-scale
sector grew by an unprecedented 134% last year—with eight of the largest
solar projects in America starting operation.
Many of these projects were supported by
investments from the Energy Department’s Loan Guarantee Program. These
investments—in several of the world’s largest solar generation
facilities—help to lower the cost of financing and accelerate the
completion of transformative clean energy projects. For the
utility-scale projects that came online last year as part of the loan
program portfolio, see the complete story, see the Energy Blog.
Croatian Center of Renewable Energy Sources (CCRES) |
srijeda, 10. travnja 2013.
News and Events by CCRES April 11, 2013
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