Published: 
By  Eric Williamson
two airliners fly side-by-side
UVA has joined the U.S. Department of Energy’s Grand Challenge to meet 100% of aviation fuel demand with biofuel by 2050. (Photo by Bill Larkins, Wikipedia, Creative Commons 2.0)

University of Virginia researchers are part of the team experimenting with a chemical process that could make a U.S. Department of Energy $1 billion “Grand Challenge” a reality: jets that regularly fly long distances, such as across the Pacific and Atlantic oceans, using only sustainable aviation fuel.

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Robert Davis is the William Stansfield Calcott Professor of Engineering and Applied Science at UVA. Colby Whitcomb is a postdoctoral research associate in the Davis Lab Group. (UVA Engineering photos)

Robert J. Davis, a chemical engineer on faculty at the UVA School of Engineering and Applied Science and Colby Whitcomb, a postdoctoral research associate in the Davis lab, are trying to make a plant-based hydrocarbon fuel for jets using catalysis, a way to more efficiently produce a desired chemical product — in this case the conversion of bioethanol to aviation fuel.

“This is a massive effort involving national labs and universities from all over the country in four bioenergy research centers.

Biofuels are compatible with modern engines and have the potential to cut greenhouse gas emission by 85%, according to the Energy Department.

Davis and Whitcomb are working with the multi-institutional team converting plant matter at the Center for Bioenergy Innovation, led by Oak Ridge National Lab and supported by the U.S. Department of Energy’s Office of Biological and Environmental Research. The targeted biomass sources are poplar trees and switchgrass because they proliferate quickly and require few resources to make them grow. Moreover, they contain large amounts of fermentable sugars that can be used to produce bioethanol. 

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Zeolites in pellet form (Wikipedia, Seaterror, Creative Commons 2.0)

The UVA researchers work closely with a group at Oak Ridge that is developing a catalyst for the conversion of bioethanol into short chain hydrocarbons, and researchers at the Massachusetts Institute of Technology, to use acidic zeolite catalysts in the transformation of those short hydrocarbons to longer molecules suitable for aviation fuel.

Davis is a world-renowned expert in reaction engineering who has authored more than 190 publications. He chaired the University of Virginia Department of Chemical Engineering from 2002 to 2011. He has received numerous research and teaching awards, including the Wilhelm Award of the American Institute of Chemical Engineers. His efforts have advanced research on new, renewable, environmentally friendly and economical energy sources. 

The DOE and UVA Grand Challenges 

The Sustainable Aviation Fuel Grand Challenge is an Energy Department collaboration with the Department of Transportation and the U.S. Department of Agriculture to achieve a minimum 50% reduction in life cycle greenhouse gas emissions compared to conventional fuel.

The federal government also is shooting to meet 100% of aviation fuel demand with biofuel by 2050.

“This is a massive effort involving national labs and universities from all over the country in four bioenergy research centers” Davis said. “These centers bring together a diverse collection of scientists and engineers to approach the many issues involved with efficiently growing, collecting, processing and refining biomass into biofuels”

The Energy Department’s Grand Challenge shares a lot in common with the University’s own Grand Challenge Research Investments, established by the UVA Vice President for Research’s Office to promote researched solutions to the world’s most urgent problems, including climate change. The Davis Lab Group is part of the University’s broader Catalysis Team.