Research
Highlights...
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Brookhaven's
Sergei Maslov |
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Number 159 |
May 31, 2004 |
Small hybrid solar and wind energy systems offer alternatives Researchers with the National Renewable Energy Laboratory's PV (photovoltaics) International Program currently are testing and collecting data on hybrid power systems, including a small hybrid solar and wind energy system, to show how they can power remote households and villages as effectively as solar, wind, diesel or battery power alone. These systems are an increasingly economic alternative because solar and wind technologies are modular and the seasonal variations of solar and wind resources often are complementary. As part of project, the PV International Program is providing live data and project details on its Web site at International Systems Testing.
[Sarah Holmes Barba, 303/275-3023;
Sarah_Barba@nrel.gov]
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‘Nanobiosensor' probes living cells
Researchers at DOE's Oak Ridge National Laboratory have developed a "nanobiosensor" that allows scientists to physically probe inside a living cell without destroying it. As scientists adopt a systems approach to studying biomolecular processes, the nanobiosenso—a tiny fiber-optic probe with a tip 1,000 times smaller than a human hair—provides a valuable tool for intracellular studies that have applications ranging from medicine to national security to energy production. The new technology has already provided researchers with the first observation of programmed cell death in a single live cell.
[Bill Cabage , 865/574-4399;
cabagewh@ornl.gov]
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NETL ‘hyper' unit goes active
A new 250-kilowatt test unit at DOE's National Energy Technology Laboratory helps engineers reach a near-zero emissions approach to electricity production by giving them a better understanding of how a fuel cell/gas turbine hybrid system operates. The hybrid technology is highly efficient, and the Hybrid Performance Project (Hyper) will further boost efficiency and lower emissions. By simulating a fuel cell/turbine system, Hyper allows organizations to test their emissions-control strategies, validate models and see how a fuel cell, integrated with a turbine, functions. Specifically, it charts changes in load, pressure or air flow, analyzing data on a millisecond basis. University and industrial researchers are lining up to start testing on the one-of-a kind facility.
[Otis Mills, 412/386-5890;
mills@netl.doe.gov]
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Study reveals new details about cloud formations
A team of scientists, including DOE's Lawrence Livermore National Lab computer scientist David Stevens, has determined a close tie exists between distant sources of pollution, and their effect on the formation of clouds that influence global climate. Their study, reported in the April 30 edition of the journal Science, focused on tropical anvil cirrus clouds, which respond strongly to increasing sea surface temperatures. The clouds' ice crystals were found to form in the mid-troposphere, 6-10 km above the earth, higher than previously thought. The results also show that polluted aerosol concentrations in this area of the atmosphere may affect cirrus cloud radiative properties, evolution and lifetime.
[Anne Stark, 925/422-9799;
stark8@llnl.gov]
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Traveling exhibits teach teachers and students about energy
A new education program aimed at spreading the word about renewable energy and energy efficiency technologies has hit the streets, with appearances recently in Washington , D.C. , New Mexico and Colorado . The Renewable Energy and Energy Efficiency on Wheels (RnE2EW) program, a product of a partnership among the DOE and its National Renewable Energy Laboratory, BP America and the Colorado Governor's Office of Energy Management and Conservation, consists of a customized van and trailer designed to educate students, teachers and consumers about energy through displays and hands-on experiments. The traveling exhibits also showcase solar, biomass, hydrogen, geothermal and wind energy research.
[Sarah Holmes Barba, 303/275-3023;
Sarah_Barba@nrel.gov]
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Brookhaven Lab scientist
gets complicated
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Sergei Maslov |
Brookhaven National Laboratory's Sergei Maslov is complex–at least, his research is. Maslov works in a new area of theoretical physics that studies large numbers of interacting objects, or “complex systems.”
This field, known as Complexity Studies, involves observing and predicting the behavior of all sorts of systems, such as grains of sand, people, or biological molecules.
His recent work at DOE's Brookhaven Lab focuses on the statistics of networks, a field with broad applications, including the millions of computers that make up the Internet. He also studies systems in molecular biology, such as protein networks.
Maslov has been involved in this research since graduate school, and refers to his field as “fascinating.” He attempts to decipher the most complex processes that make up our natural world – one of the most fundamental endeavors in science, he says.
For his contributions to this field, Maslov recently received a 2002 Presidential Early Career Award for Scientists and Engineers–the highest honor bestowed by the U.S. government on outstanding scientists and engineers at the outset of their careers in science and technology.
He accepted the award at a May 4 ceremony at the White House. Maslov is one of 57 researchers to receive the award this year. The recipients were also honored at a separate ceremony the same day at DOE headquarters, hosted by Secretary of Energy Spencer Abraham.
“It was a very pleasant and totally unexpected surprise for me to learn that I am among the winners of this award,” Maslov said. “It makes me especially happy that it was awarded to me for my contributions to the physics of complex systems. This field is finally starting to get the recognition it deserves.”
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