Alternative-Fuels Pioneer Receives First-Ever $100,000 Lemelson-MIT Award for Sustainability.Dartmouth College Dartmouth College, at Hanover, N.H.; coeducational; chartered 1769, opened 1770, the ninth colonial college (see Wheelock, Eleazar). Originally a men's college, Dartmouth began admitting women in 1972. Engineering Professor and Mascoma co-founder Lee Lynd honored for 25 years of inventive achievements and research into alternative fuels CAMBRIDGE, Mass. -- Your car could soon become a vegetarian thanks to a process for cost-effectively converting cellulosic biomass, such as grass, wood, wheat and rice straw, into ethanol that can be used for fuel. When it does, it will be due to inventors such as Lee Lynd, professor of engineering and adjunct professor of biology at Dartmouth College, and co-founder of Mascoma Corp. Lynd received the inaugural $100,000 Lemelson-MIT Award for Sustainability today, which recognizes inventors whose products and processes enhance economic opportunity and community well-being, while protecting and restoring the natural environment. Lynd and his colleagues' inventions are at the forefront of advanced technologies for converting biomass feedstocks into motor vehicle fuels. Lynd is being recognized for these inventions, as well as his vision and long-term advocacy of biofuels as a sustainable alternative to fossil fuels. "Decades ago, Lee Lynd started doing something about global warming global warming, the gradual increase of the temperature of the earth's lower atmosphere as a result of the increase in greenhouse gases since the Industrial Revolution. and the rapid depletion of the world's non-renewable energy resources," said Merton Flemings, director of the Lemelson-MIT Program The Lemelson-MIT Program is dedicated to honoring the acclaimed and unsung heroes who have helped improve our lives through invention. We inspire and encourage great inventors through various outreach programs such as Lemelson-MIT InvenTeams, a non-competitive, team-based national . "He continued to experiment and pursue his ideas even when the conventional wisdom said they couldn't be done." "Lee's groundbreaking research has driven forward the public policy debate, the business world, and the fundamental science of bioenergy," said Nathanael Greene Nathanael Greene (August 7, 1742 – June 19, 1786) was a major general of the Continental Army in the American Revolutionary War. When the war began, Greene was a militia private, the lowest rank possible; he emerged from the war with a reputation as George Washington's most , a senior policy analyst at the Natural Resources Defense Council The Natural Resources Defense Council (NRDC) is a New York City-based, non-profit non-partisan international environmental advocacy group, with offices in Washington, D.C., San Francisco, Los Angeles, Chicago, and Beijing. Founded in 1970, NRDC today has 1. , and one of Lynd's nominators for the $100,000 Lemelson-MIT Award for Sustainability. "His work has helped frame our basic understanding of the sustainable potential for bioenergy and especially biofuels." A 'Harebrained Idea' From a Compost Heap Noun 1. compost heap - a heap of manure and vegetation and other organic residues that are decaying to become compost compost pile cumulation, heap, pile, agglomerate, cumulus, mound - a collection of objects laid on top of each other In 1977, while an undergraduate biology major at Bates College, Lynd spent a summer working on an organic farm in North Reading, Massachusetts North Reading is a town in Middlesex County, Massachusetts, United States. The population was 13,837 at the 2000 census. The North Reading team mascot is the Hornet. History and was struck by how much heat a compost heap could generate. "I said, my goodness, that pile of grass and whatnot what·not n. 1. A minor or unspecified object or article. 2. A set of light, open shelves for ornaments. pron. is four-feet high, and if you put a thermometer down into the bottom of that, it's 150 degrees Fahrenheit," he recalled. At first, Lynd thought about using compost heaps as a source of heat. Although he soon realized that was not promising, the idea of using biology to produce energy stayed with him. "An initially harebrained hare·brained adj. Foolish; flighty: a harebrained scheme. Usage Note: The first use of harebrained dates to 1548. idea can lead you to something worthwhile if you run with it for awhile," Lynd said. As Lynd's vision for biofuels took shape in the late 70s, he realized that cellulose-utilizing bacteria that produced ethanol were known, and that production and utilization of cellulosic biofuels could involve a sustainable carbon cycle with no net emissions of carbon dioxide carbon dioxide, chemical compound, CO2, a colorless, odorless, tasteless gas that is about one and one-half times as dense as air under ordinary conditions of temperature and pressure. . These initial insights have served him well over several decades of continuous focused effort, during much of which the world showed little enthusiasm for renewable fuels. "I think the thing that served me the best is clarity of purpose," he explained. "For decades when biofuels were not popular, I thought the topic was exciting and important, and so I worked on it anyway." Step-by-Step Progress Toward a Big Idea In the United States today, fuel ethanol is derived from corn, which is available in limited quantities and consumes substantial amounts of fossil energy as currently produced. "On the other hand," Lynd observed, "cellulose is the most abundant organic compound on the face of the Earth and production of fuel from cellulosic biomass displaces far more fossil fuel than is required to produce it." Lynd has identified one-step fermentation of cellulosic biomass into ethanol or other biofuels--a process configuration known as consolidated bioprocessing (CBP CBP competitive protein binding. )--as a potentially transformative breakthrough for low-cost processing. While the vast majority of research on processing cellulosic biomass has focused on separately-produced enzymes used in multi-step biological processing, Lynd's group is the most active worldwide in research on the one-step, CBP approach. "Developing a microbe microbe /mi·crobe/ (mi´krob) a microorganism, especially a pathogenic one such as a bacterium, protozoan, or fungus.micro´bialmicro´bic mi·crobe n. that can convert cellulosic biomass to ethanol can be approached in one of two ways," said Lynd. "Either start with organisms that are able to grow well on biomass and modify them to produce ethanol better, or start with organisms that produce ethanol well and modify them so that they can grow on biomass." Lynd's group is investigating both approaches. His group has recently engineered thermophilic ther·mo·phil·ic adj. Requiring high temperatures for normal development, as certain bacteria. bacteria - similar to those present in the compost heap that captured his imagination years before - to produce ethanol as the only fermentation product. Working in collaboration with colleagues at the University of Stellenbosch, South Africa, the group has also engineered yeast to grow on cellulose. "Originally, we were motivated to look at CBP by process engineering considerations - fewer tanks and fewer process steps," said Lynd. "However, as we have learned more about how microorganisms utilize cellulose, we are finding additional, biological, advantages to the CBP strategy." "Microbes grow on cellulose by producing cellulase cel·lu·lase n. Any of several enzymes produced chiefly by fungi, bacteria, and protozoans that catalyze the hydrolysis of cellulose. enzymes, which hydrolyze hydrolyze to performance hydrolysis. cellulosic biomass into sugars that can be fermented to ethanol," he explained. "Producing cellulases requires expenditure of the cell's energy currency, a molecule called ATP ATP: see adenosine triphosphate. ATP in full adenosine triphosphate Organic compound, substrate in many enzyme-catalyzed reactions (see catalysis) in the cells of animals, plants, and microorganisms. ." A key doubt about the feasibility of CBP was whether ethanol producing microbes could produce enough ATP to make cellulase in sufficient quantities to allow rapid cellulose hydrolysis hydrolysis (hīdrŏl`ĭsĭs), chemical reaction of a compound with water, usually resulting in the formation of one or more new compounds. . Lynd's group showed, however, that a naturally-occurring cellulolytic cel·lu·lo·lyt·ic adj. Of, relating to, or causing the hydrolysis of cellulose: cellulolytic organisms. [cellulo(se) + -lytic.] bacterium actually has several ATP-generating mechanisms that are specific to cellulose utilization and that these mechanisms more than compensate for the ATP requirement of cellulase synthesis. In an additional development, the Lynd group showed that cellulase enzymes are several-fold more effective when they are present on the surface of a metabolically-active cell as compared to when the enzymes act independently of cells. "Nature has solved many of the challenges associated with microbial cellulose utilization, which we are gradually discovering," said Lynd. Largely as a result of Lynd's efforts, the potential of CBP has been increasingly recognized of late. For example, a recent DOE roadmap states, "CBP is widely considered to be the ultimate low-cost configuration for cellulose hydrolysis and fermentation." "The difference of opinion is how long it will take," said Lynd. "Most people still think CBP is a decade off, but I think we can get there much faster than that." A Mission to Commercialize Biofuels Recently, there has been a renewed interest in alternative fuels, especially after oil reached $70 a barrel in the wake of Hurricane Katrina and the political instability in the Middle East. In 2006, with Series A funding from Khosla Ventures and other financiers, Lynd co-founded a start-up company start-up company A new business. called Mascoma Corporation to advance technologies such as consolidated bioprocessing and make fuel production from cellulosic biomass a commercial reality. In his nomination letter for the $100,000 Lemelson-MIT Award for Sustainability, renowned venture capitalist Venture Capitalist An investor who provides capital to either start-up ventures or support small companies who wish to expand but do not have access to public funding. Notes: Venture capitalists usually expect higher returns for the additional risks taken. Vinod Khosla said he has become a "big believer" in the ability of ethanol to reduce America's dependence on petroleum. "While corn-based ethanol is a great start toward this goal, the ability to convert cellulosic feedstocks to ethanol is the Holy Grail," he wrote. In addition to Lynd's invention work, he is also one of the leading analysts and advocates addressing the need to develop and adopt alternative fuels. He co-led a multi-institution research project that produced the seminal report, "Growing Energy: How Biofuels Can Help End America's Oil Dependence," published in 2004 by the National Resources Defense Council. Lynd was also the biofuels industry representative on an advisory committee to the Executive Office of President Clinton on reducing greenhouse gas emissions from personal vehicles, and has twice testified before Congress. Lynd is also an inspiring mentor to others. He manages the only graduate fellowship program in the general energy field, and has supervised dozens of students who share his passion for alternative fuels. "Energy is and always has been important," he said. "Right now, it's the critical issue of our time and a huge determinant of human well-being and prosperity. In the future people will look back and judge us by how well we responded to this challenge." In addition to the $100,000 Lemelson-MIT Award for Sustainability, the Lemelson-MIT Program also named Timothy M. Swager as the 2007 winner of the $500,000 Lemelson-MIT Prize today. Swager is the Department Head and John D. MacArthur
From May 2-5, Lynd and Swager will participate in the first-ever EurekaFest, a multi-day celebration of the inventive spirit presented by the Lemelson-MIT Program in partnership with the Museum of Science, Boston The Museum of Science (MoS) is a Boston, Massachusetts landmark, located in Science Park, a plot of land spanning the Charles River. Along with over 500 interactive exhibits, the Museum features a number of live presentations throughout the building everyday, along with . http://web.mit.edu/invent/eurekafest.html. ABOUT THE LEMELSON-MIT PROGRAM The Lemelson-MIT Program recognizes outstanding inventors, encourages sustainable new solutions to real-world problems, and enables and inspires young people to pursue creative lives and careers through invention. Jerome H. Lemelson Jerome "Jerry" Hal Lemelson (July 18, 1923 Staten Island, New York - October 1, 1997) was a prolific and controversial American inventor and patent holder. Biography Lemelson was born on Staten Island, New York, on July 18, 1923, the oldest of three brothers. , one of the world's most prolific inventors, and his wife Dorothy founded the Lemelson-MIT Program at the Massachusetts Institute of Technology in 1994. It is funded by the Lemelson Foundation, a private philanthropy that celebrates and supports inventors and entrepreneurs in order to strengthen social and economic life. http://web.mit.edu/invent/. ABOUT THE THAYER SCHOOL OF ENGINEERING The Thayer School of Engineering at Dartmouth College was founded in 1867 by General Sylvanus Thayer, widely known as the "father of the U.S. Military Academy." The Thayer School offers both undergraduate and graduate programs in engineering sciences. AT DARTMOUTH Dartmouth is a private, four-year liberal arts institution that has been at the forefront of American higher education since 1769. A member of the Ivy League, Dartmouth is a superb undergraduate residential college with the intellectual character of a university, featuring thriving research and first-rate graduate and professional programs. Thayer School of Engineering at Dartmouth was founded in 1867 by Dartmouth alumnus ALUMNUS, civil law. A child which one has nursed; a foster child. Dig. 40, 2, 14. Sylvanus Thayer. The School operates with a single unified Department of Engineering Sciences offering both undergraduate and graduate programs. World-class research at Thayer School is advancing innovation in high-impact areas that cut across traditional engineering disciplines and address critical human needs. ABOUT MASCOMA Mascoma Corporation is a cellulosic biomass-to-ethanol company with corporate offices in Cambridge, MA and R&D labs in Hanover, NH. Mascoma is leading the development of unique biotechnology and deployment of cellulosic production. Initial deployment activities are focused on strategic partnerships for conversion of wood-based cellulosic feedstocks into ethanol at relevant commercial scale. Mascoma is aggressively developing advanced cellulosic ethanol technologies in its Lebanon, NH labs, as well as in Lee Lynd's labs at Dartmouth College's Thayer School of Engineering, and through other sponsored research and in-licensing of best-in-class technologies. Mascoma received founding investment from Khosla Ventures and Flagship Ventures and has since received Series B funding from a consortium of leading venture capital firms Name Location Founding date Managing Partners/Directors Specialty Capital managed 5AM Ventures Menlo Park, CA; Waltham, MA 2002 John Diekman, PhD (managing partner), Scott Rocklage, PhD (managing partner), Andrew Schwab (managing partner) life sciences $200M [1] . |
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