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9th May 2008

The Argonne National Laboratory in the US has released the latest version (1.8b) of the Greenhouse gases, Regulated Emissions and Energy use in Transportation (GREET) full life-cycle model used to evaluate and compare the environmental impacts of new transportation fuels and advanced vehicle technologies.

The update will allow scientists to model combustion of ethanol produced from Brazilian sugarcane and used by US automobiles; production and use of bio-butanol as a potential transportation fuel; and production and use of biodiesel and renewable diesel via hydrogenation, coal/biomass co-feeding for Fischer-Tropsch diesel production and various corn ethanol plant types with different process fuels. New fuel production pathways covered include soybeans to renewable gasoline production; oil sand to pet coke; and pet coke to H2.

In addition, simulations of many existing fuel pathways in GREET are updated. The new version updates the shares of Canadian oil sands products in crude oil blends; updates the petroleum refinery processes including hydrogen from different feedstock sources; updates the calculation of renewable energy use in the production of biofuels from corn and soybean feedstocks; and adds missing higher heating values (HHV) for some biofuels and feedstock sources. Petroleum refining energy efficiencies in GREET are updated with recent survey data from the Energy Information Administration.

Enhancements to current pathways include three methods for dealing with co-products for soybean-based biodiesel; compression energy efficiencies for natural and hydrogen gases are calculated with the first law of thermodynamics; and a tube trailer delivery option for hydrogen gas to refueling stations is included.

In addition to the fuel-cycle GREET module, the vehicle-cycle GREET module (2.7) incorporates an additional platform, allowing researchers to model sport utility vehicles in addition to cars and light trucks. That version better evaluates the energy consumption required to produce the aluminum used in the chassis of vehicles.

Led by Dr. Michael Wang, a group of Argonne transportation researchers regularly update key parameters and assumptions in the GREET model on the basis of new research and development in fuel pathways and vehicle technologies. Today, GREET can simulate more than 100 fuel production pathways and more than 80 vehicle/fuel systems. The model has more than 4,000 registered users worldwide.

The US Environmental Protection Agency uses a specific set of assumptions with the GREET model in its analysis of the reductions in greenhouse gas emissions resulting from the potential expanded use of renewable and alternative fuels, while the California Air Resources Board has been using a GREET version in its effort to develop low-carbon fuel standards.

(http://www.transportation.anl.gov/software/GREET/index.html)