http://www.technologyreview.com/NanoTech/17799/Experimental methods for converting wood chips and grass into ethanol will soon be tested at production scale. Mascoma Corporation, based in Cambridge, MA, is building demonstration facilities that will have the capacity to produce about one-half to two million gallons of ethanol a year from waste biomass. The startup recently received $30 million in venture-capital money, which is fueling its scale-up plans.
While Mascoma has not achieved its ultimate goal of using a single genetically engineered organism to convert wood chips and other cellulosic raw materials into ethanol, the company has developed genetically modified bacteria that can speed up part of the process of producing ethanol. The optimized process shows enough promise to invest in scaling up the technology, says Colin South, Mascoma's president.
Corn grain, the current source of ethanol in the United States, requires large amounts of land and energy to produce. This, along with the demand for corn as food, limits the total amount of ethanol that can be produced from corn to about 15 billion gallons a year--about three times what is currently produced. If the fuel is to supplant a sizable fraction of the 140 billion gallons of gasoline consumed each year in the United States, ethanol producers will need to turn to biomass such as wood chips and switchgrass. These resources are cheaper and potentially much more abundant, and they can be converted to ethanol much more efficiently than corn can because they require less energy to grow (see "Redesigning Life to Make Ethanol").
Indeed, ethanol from such sources could replace "a very large fraction" of the gasoline currently used for vehicles, says Gregory Stephanopoulos, professor of chemical engineering at MIT. He says some experts estimate that with gains in efficiency and high yields of ethanol, all the gasoline for transportation could be replaced; the most conservative estimates say that about 20 percent could be replaced. Hoping to capitalize on this potential, a handful of companies--including Celunol, in Dedham, MA; Iogen, in Ottawa, Canada, which has an existing demonstration scale plant and plans to scale up to commercial production; and the National Renewable Energy Laboratory (NREL), in Golden, CO--are working to develop better technology for making cellulosic ethanol.
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