Scientists Agree, Biodiesel A Key to Global Carbon Reduction
World's experts advance the science of quantifying transportation emissions
JEFFERSON CITY, Mo., May 17, 2016 /PRNewswire-USNewswire/ -- Scientific experts agree that America's Advanced Biofuel, biodiesel, holds significant promise in the effort to reduce carbon emissions. Last year, biodiesel use in the U.S. cut greenhouse gas (GHG) emissions by 18 million tons, or the equivalent carbon dioxide emissions of 3.8 million cars.
A new consensus report from the Coordinating Research Council now adds to the growing evidence in support of biodiesel as a low carbon fuel. Key conclusions from this report show that carbon emissions from biofuels are declining relative to petroleum, and confidence in these results are growing with additional study.
"When it comes to quantifying carbon benefits, biofuels have been the most heavily scrutinized products in the world market," said Don Scott, director of sustainability with the National Biodiesel Board. "This heavy scrutiny and improving analysis provide confidence that biodiesel provides significant benefits over fossil fuels."
The CRC, whose members include the American Petroleum Institute, Ford, General Motors, Chrysler, Daimler, and others, directs engineering and environmental studies pertaining to automotive and petroleum use. Since 2009, the CRC has been organizing biennial workshops to examine lifecycle analysis of biofuels. Each of these four international workshops has included a heavy emphasis on indirect land use change. Increasing global production of food and the resulting land use change caused by national agricultural and renewable energy policies was once thought to be a detriment to the net carbon benefit of biofuel policies.
To investigate this theory, the CRC has enrolled the world's leading experts in economic modeling and lifecycle analysis. The USEPA, the US Department of Energy, and the California Air Resources Board, were joined by representatives from the European Commission, environmental advocacy groups, and leading academic institutions from Europe and North America.
"Whether and how indirect land use change can be accounted for has always been controversial. With continued improvements to the science behind it; there is clear consensus that it does not override the carbon benefit of renewable fuels," said Jan Lewandrowski economist for USDA's Climate Change Program. "The scientific community's efforts to improve the data quality and reduce uncertainty within economic modeling shows that the agricultural sector can provide powerful tools to reduce carbon emissions while providing food and fuel to the world. Additionally, regions with renewable natural resources can experience sizable economic benefits by making wise investments in agriculture."
The growing body of research supporting this conclusion includes noteworthy analysis published by the National Renewable Energy Laboratory, Argonne National Laboratory, USEPA, USDA, and the California Air Resources Board. Each of these institutions has affirmed that US biodiesel reduces GHG emissions by at least 50 percent and often as much as 85 percent compared to petroleum diesel fuel.
Made from an increasingly diverse mix of resources such as recycled cooking oil, soybean oil, and animal fats, biodiesel is a renewable, clean-burning diesel replacement used in existing diesel engines. It is the first and only commercial-scale fuel produced across the U.S. to meet the EPA's definition as an Advanced Biofuel - meaning the EPA has determined that it reduces greenhouse gas emissions by more than 50 percent when compared with petroleum diesel.
For more information about biodiesel visit www.biodieselsustainability.com/, and for more on the Coordinating Research Council visit www.crcao.org.
Featured Product
SOLTEC - SFOne single axis tracker
SFOne is the 1P single-axis tracker by Soltec. This tracker combines the mechanical simplicity with the extraordinary expertise of Soltec for more than 18 years. Specially designed for larger 72 an 78 cell modules, this tracker is self-powered thanks to its dedicated module, which results into a lower cost-operational power supply. The SFOne has a 5% less piles than standard competitor, what reduces a 75% the labor time.