Scientists at the 新澳门六合彩内幕信息 are taking the lab to the landfill, refining a groundbreaking process that uses trash to make liquid fuel.
Across the United States, more than 3,000 active landfills are currently producing a potentially valuable, but often unutilized resource 鈥 biogas. A byproduct of the decomposition of biomass (e.g. food waste, lawn clippings, agricultural waste), biogas is generally made up of methane and carbon dioxide. Once collected, researchers are able to chemically convert the gas into a sustainable form of diesel fuel, which can then be used anywhere traditional fossil fuels are used.
While the idea of utilizing garbage as a power source is nothing new 鈥 think Doc Brown鈥檚 DeLorean in "Back to the Future" 鈥 efficiently creating liquid fuel from common wastes would represent a big step forward.
鈥淭here are many ways to take biomass and convert that to energy forms,鈥 said , in the Department of Chemical and Biomedical Engineering. 鈥淭he most popular form right now is to burn the waste and produce heat. Then use the heat to produce electricity. But what we鈥檙e trying to do is to make liquid fuels out of this biomass that can be used anywhere for anything.鈥
Joseph, along with , the project鈥檚 principal investigator, are leading this research effort at USF. The pair were recently awarded a $1.8 million grant by the U.S. Department of Energy (DOE) to further their past work in the field. The grant is part of a DOE research and development initiative aimed at improving bioenergy technologies. Its overall goal is to reduce the cost of bio-based fuels, making them a more economically viable alternative for consumers.
USF鈥檚 biogas conversion research is one of the projects showing promise in reaching this goal while also utilizing an available resource. According to the DOE, roughly one billion tons of biomass is produced annually, providing a renewable supply they say could replace roughly 30 percent of the petroleum consumption in the U.S.
The catalysts, developed by the 新澳门六合彩内幕信息team to spur the conversion, are designed using
transition metals and metal oxides.
For Joseph and Kuhn, the trick is developing a more efficient conversion process.
Currently, researchers use a specially designed catalyst to reform the methane/CO2
gas into carbon monoxide. Then, they鈥檙e able to use a separate catalyst to convert
the carbon monoxide into diesel fuel.
鈥淧resently, both steps require individual catalysts,鈥 said Kuhn. 鈥淏ut, thanks to support from this grant, we鈥檙e trying to combine the two to accomplish both steps through a single process, making the entire method more efficient and feasible to be scaled up.鈥
Researchers say the benefits of this work are two-fold. Not only are they able to produce sustainable fuel, but harmful greenhouse gases from landfills and other anaerobic digestors are kept out of the atmosphere and used to create an alternative fuel source for people across the country.
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