Wayne State University startup NextCAT receives US$$498,830 research grant from National Science Foundation to advance biofuel catalyst technology for biodiesel production
September 26, 2011
– NextCAT, Inc., a Wayne State University startup company, has received a Phase II Small Business Innovation Research (SBIR) award from the National Science Foundation (NSF) in the amount of $498,830. This brings NextCAT’s total grant funding to $1.3 million.
NextCAT is working to advance a biofuel catalyst technology developed at the National Biofuels Energy Laboratory at Wayne State University. The company’s goal is to commercialize a class of catalysts that enable biodiesel producers to convert cost-effective raw materials — such as waste vegetable oil, animal fats and residual corn oil — into biodiesel. This technology offers a unique process solution for an industry that has been mostly idled in the United States since 2008, when rising feedstock prices rendered the production of biodiesel uneconomical. With a cost savings of at least $1 per gallon versus the traditional biodiesel production process, the NextCAT solution greatly changes the economics of a biodiesel plant.
In addition to the National Science Foundation funding, NextCAT has secured seed funding from Automation Alley and the Michigan Pre-Seed Capital Fund to design, build and install a pilot reactor at a biodiesel equipment manufacturer’s engineering center.
The SBIR project proposes a potentially viable solution for many financially stressed biodiesel producers. Producers will simultaneously be able to use low-cost feedstock and greatly simplify the biodiesel production process. Also, currently idled facilities will be able to produce biodiesel fuel at prices competitive with petroleum diesel and help meet anticipated global market demand of approximately 8 billion gallons of biodiesel by 2015. The new process will also add jobs in economically depressed areas of the United States and bring the nation closer to energy independence.
In addition to the cost and energy savings associated with biodiesel fuel, there are several advantages that make it a smart choice to manufacture and use. Biodiesel is nontoxic and biodegradable, and therefore it is environmentally safe. Advanced biofuels in general are produced domestically, thus lessening dependence on foreign oil. Also, producing advanced biofuels can stimulate the local economy through job creation in farming, transportation and production.
The NextCAT science team includes Steven Salley, Ph.D., professor of chemical engineering at WSU; Shuli Yan, Ph.D., research director at NextCAT; and Simon Ng, Ph.D., P.E., chief technology officer at NextCAT and interim associate dean for research in WSU’s College of Engineering.
“This is very exciting news,” said Ng. “The new funding will allow NextCAT to demonstrate our novel catalyst technology in an industrial facility, getting it one step closer to commercialization. It is satisfying to see academic research translated to industrial applications, and contributing to energy sustainability and security. Hopefully, NextCAT can participate in President Obama’s new $500 million advanced biofuels initiative to spur the biofuels industry and enhance America’s energy security.”
“This award is great news for NextCAT,” said Gloria Heppner, associate vice president for research at Wayne State University. “Their technology offers an exciting alternative to the current biodiesel fuel production process, and has great potential to make a major impact on our environment and economy.”
NextCAT is a startup company located at TechTown, the Wayne State University research and technology park in Detroit. It was founded in 2009 by inventors Dr. Simon Ng, Dr. Steven Salley, Dr. Shuli Yan and CEO Charles Salley. NextCAT offers a class of heterogeneous catalysts for biodiesel production that allow biodiesel producers to use less refined and less expensive feedstocks in their production process. For more information, visit http://nextcatinc.com/.
Wayne State University is one of the nation’s pre-eminent public research universities in an urban setting. Through its multidisciplinary approach to research and education, and its ongoing collaboration with government, industry and other institutions, the university seeks to enhance economic growth and improve the quality of life in the city of Detroit, state of Michigan and throughout the world. For more information about research at Wayne State University, visit http://www.research.wayne.edu.