Clean Energy Innovation Depends On A Good Pitch

Editor’s Note: EarthTechling is proud to repost this article courtesy of Midwest Energy News. Author credit goes to .

Purdue University associate professor Richard Meilan is striving to develop a poplar tree that grows more quickly and can be more easily converted to biofuel than the average member of the genus Populus. It also must be able to reproduce vegetatively – growing roots from a fragment of trunk – and it must not reproduce sexually, with seeds and flowers.

Meilan’s quest is one of many complicated steps being taken by researchers nationwide in hopes of developing profitable second-generation biofuels.

Richard Meilan is developing a genetically modified poplar tree he hopes will lead to more efficient cellulosic biofuel production, in addition to other applications. (Photo via Purdue University/Midwest Energy News)

Meilan was among the scientists pitching projects last week at a “Tech Showcase” sponsored by the Clean Energy Trust in Chicago.  The presenters were floating pitches meant to attract venture capital funding or other investors for complicated undertakings which they say will be key to developing advanced biofuels, batteries, and other innovations.

The presentations at the University of Chicago Business School gave a small but revealing window into just how many technological challenges – and, an optimist might say, opportunities – lie on the road to a society powered largely by electric or biofuel vehicles and planes, a smart grid and highly efficient appliances and energy systems. Every headline-making development in clean energy is likely contingent upon a host of smaller inventions and innovations.

Communicating is key

The development of these crucial components – often described in formulas and diagrams inscrutable to the layman – depends not just on their ingenuity but in the developers’ ability to market the ideas to venture capitalists, government funders or other entities willing to invest in the early stages of research and development.

“People need to take risks not only on the technologies themselves but on how to bring them to market,” said moderator Tracy Warren at the panel discussion following the venture capital road show-style pitches. Warren is a general partner with Battelle Ventures, which manages laboratories for the U.S. Department of Energy.

In cases ranging from the creation of biofuels from algae to the deployment of batteries that can store a lot of energy in a small space, the question is often not whether it can be done, but whether it can be done cost-effectively enough and whether small-scale projects can be scaled up in a viable way.

That’s where Meilan hopes his poplars can make second generation biofuels more affordable. The value of fast-growing biofuel feedstock is obvious, but those plants and must also be able to be efficiently converted into fuel.

While first generation biofuels are made from the sugar, oil and starch in crops including corn, sugar cane and palm oil, second or “next generation” biofuels come from the cellulose in woody biomass including trees and agricultural waste. First generation biofuels are considered to have limited mass production potential and raise fears about competition for land and resource involved in growing food versus fuel. But with second generation biofuels the cellulose must be separated from the lignin with which it is bound up in the plant’s or tree’s cell walls, a necessity which makes biofuel production more difficult and expensive.

Meilan described how a gene from maize dubbed Corngrass1 has in his trials so far made poplars grow more quickly with a lignin structure much more conducive to biofuel production.

Meilan explained that to become a biofuel feedstock the trees must also be able to reproduce asexually but not sexually because the government restricts the commercial planting of genetically modified trees that could spread their genes through airborne pollen. The production of flowers, pollen and seeds also diverts energy from producing more woody mass that could be turned into biofuel, so a sexually sterile tree is a more efficient biofuel feedstock.

Midwest Energy News, launched in 2010, is a nonprofit news site dedicated to keeping stakeholders, policymakers, and citizens informed of the important changes taking place as the Midwest shifts from fossil fuels to a clean energy system.

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