As in most other fields, researchers needing funds for
their alternative-energy investigations often look to government
and private sources. Since the 1970's at least, the U.S. federal
government has had an interest in alternative sources of energy,
although funding for those efforts has risen and fallen with
economic conditions, fuel prices, and political administrations,
among other factors. Recently, high oil prices have renewed
interest in alternative energy research. One consequence of the
recent surge in oil prices is the
Energy Policy Act of 2005 , which offers a series of grants and
tax incentives to encourage development and investment in
alternative energy sources: biofuels, forest biomass, wind, solar,
and geothermal.
For research on alternative energy, government is by far the
main funder in the United States. Perhaps because energy-related
research tends to be expensive, philanthropic support for energy
research is rare. Scientists can, however, find private investment
for research, especially when the research has a direct commercial
application. This guide will highlight some of the leading sources
for alternative energy research funding and describe the priorities
of each one.
This guide will highlight some of the leading sources for
alternative energy research funding and describe the priorities of
each one.
Government funding
Department of Energy
The lead government agency on energy research is, of course, the
U.S. Department of Energy (DoE), which has been a major funder of
energy research since its inception in 1977. The administration has
requested, and Congress seems likely to fund, an increase of at
least 15% for DoE's Office of
Science for
Fiscal Year (FY) 2007 , which begins on 1 October 2006. The FY
2007 request includes nearly $150 million each for new initiatives
in biofuels and solar energy, and $288 million for hydrogen
fuels.
Although many of DoE's research activities take place at DoE
labs, DoE also funds a wide-ranging extramural program of basic
research. These programs are funded from its Office of Science . Researchers can
explore DoE's funding priorities and research directions via a
series of online
reports from recent DoE workshops.
So far in 2006, the Office of Science has released announcements
for basic research in hydrogen
fuel and solar energy
utilization . Although the 2006 deadlines for preliminary
letters of intent have passed for both of these solicitations,
these projects represent large-scale initiatives that will stretch
over a number of years. The Office of Science has a continuing open
solicitation for energy-related
research that includes the basic energy sciences covering
alternative and renewable technologies. Researchers can submit
proposals under this solicitation at any time.
The Department’s R&D initiatives involving applied--as
opposed to basic--renewable energy research are supervised by the
Office of Energy Efficiency and Renewable Energy (EERE) , which covers biomass,
geothermal, hydrogen, ocean, solar, and wind. EERE oversees the
National Renewable Energy Laboratory in Golden, Colorado, which is
also the site for its Golden Field
Office . This field office acts as the catalyst for
partnerships with academia, business, and state and local
governments to develop and commercialize renewable energy
technologies.
John Kersten, manager of the Golden Field Office, says the
office has some 1000 active agreements with academia and industry,
supporting about $300 million a year in R&D projects. Kersten
notes that the office operates nationwide, with its partnerships
ranging from “mom and pop start-up companies to the Big 3
automakers and Fortune 500 companies.”
A program managed by Kersten’s staff that includes academic
participation is the
Biomass Research and Development Initiative . The 2006
solicitation will award up to $2.5 million per project for R&D
to encourage biomass feedstock production (the raw materials for
biofuels), develop technologies to convert cellulosic biomass into
intermediate products for further conversion into biofuels, and
diversify biomass into other marketable products, making them more
commercially attractive. The 2006 solicitation closed in June, but
the government’s biomass
program , operated jointly with Department of Agriculture,
generates a number of related funding opportunities during the
year.
Researchers in these and other energy fields should register at
DoE’s e-Center or Grants.gov , the government-wide
funding portal, to keep up-to-date on new opportunities.
National Science Foundation
The other major federal funder for alternative energy research
is National Science Foundation. NSF does not have a program that
focuses specifically on alternative energy, but its support for
this field extends across its directorates. In 2005, for example,
NSF awarded grants for research into chemical
bonds to improve storage of solar energy, cell
biology to study bacteria’s ability to filter hydrogen gas for
fuel cells, and engineering
for the generation of electrical power from ocean wave
currents.
NSF’s current funding opportunities are available on its Web site , as well as
Grants.gov .
Government/small business partnerships
Government agencies with large R&D budgets reserve a portion
of these budgets for small businesses. Two programs government-wide
govern these small business set-asides: Small Business Technology
Transfer (STTR) and Small Business Innovation Research (SBIR). STTR
grants require a university or other not-for-profit organization to
partner with the business, which make it possible for faculty
members to participate. In the case of SBIR grants, principal
investigators are employed directly by the business.
Department of Energy
and National Science
Foundation award both STTR and SBIR grants. Jim Kling explains
more of the details of these programs in a
September 2004 article in Next Wave.
Private foundations
So far, only limited funding in the field of alternative energy
research is available from non-government foundations. One such
private source of research support is the
Petroleum Research Fund , managed by American Chemical Society.
Although the name of the fund may suggest something very different,
the fund’s
director has determined that its scope includes “fundamental
research in alternative energy areas such as hydrogen production
and storage, photovoltaics, fuel cells, and others.” The fund’s
next deadline for proposals is 4 August 2006. ScienceCareers’s
Grant Doctor tells more about the fund in a June 2006
column.
Private investment
The combination of government incentives plus the rise in
worldwide energy costs have created a buzz for alternative energy
in the investment community. The Renewable Energy Policy Network
estimated that in 2004, investments
in renewable energies worldwide totaled some $30 billion. The
report credits incentives from government, like those in the Energy
Policy Act of 2005. The Environmental Entrepreneurs group
reported $590 million in alternative energy-related
venture-capital investments in 2005.
Can research scientists tap into this pool of investment
capital? Brian J. Fratus, President of Artemis Energy Fund thinks
researchers who want to try the entrepreneur route can succeed, but
only if they remember that investors bring a different set of
values to the table. Fratus, whose company puts together financing
for alternative energy companies including startups, said in June
that “private sector companies ... do not invest to be green. They
invest to earn returns in their core businesses for shareholders.”
To be successful in this world, researchers will need to learn to
focus on profits.
Fratus lists biofuels, solar, wind, and fuel cells as
technologies that are particularly enticing to investors. He notes,
however, that the investment climate for alternative energy R&D
can fluctuate with the price of traditional fossil fuels. “In
electric power,” Fratus says, “the price of natural gas is the big
driver,” and since fall 2005 the wholesale price of natural
gas--though its still high in historical terms--has fallen
significantly.
Fratus warns as well that today's private investors, including
individual "angel" investors and venture capitalists (VCs) who
represent investment funds, are more cautious than they were a few
years ago. “VCs are more risk averse,” says Fratus. “This is not
like before. They want to see some revenue first.”
Despite the increased caution, Fratus still likes to work with
“the stereotypical mad scientist, even if he has nothing more than
a concept” in mind. Fratus sees his role as an early stage advisor,
“taking a small equity position” and helping young companies
through the pre-revenue stage. At that point, they can make a
better case before the angel and VC communities.
|
Alan Kotok is Managing Editor of Science Careers.
|
Comments, suggestions? Please send your feedback to our
editor .
|