Global Effort to Extract More Oil and Gas
University of AdelaideA University of Adelaide petroleum geologist is spearheading an international project to extract more oil and gas from the ground, potentially saving companies billions of dollars.
A University of Adelaide petroleum geologist is spearheading an international project to extract more oil and gas from the ground, potentially saving companies billions of dollars.
Vikram Dalal and a team of Iowa State University researchers are trying to improve thin film solar cells. A $1.69 million grant from the Iowa Power Fund is allowing the researchers to look for efficiencies in new materials, new structures and organic semiconductors.
Scientists from all over the United States "“ who study how to make sustainable bioenergy products "“ will meet at the Sun Grant Initiative Energy Conference, March 10-12, in Washington, D.C. The meeting is hosted by Northeast Sun Grant Center at Cornell University and organized by Larry Walker, Cornell professor of biological and environmental engineering.
Millions of homes in rural areas of Far Eastern countries are heated by charcoal burned on small, hibachi-style portable grills. Scientists in Japan are now reporting development of an improved "biomass charcoal combustion heater" that they say could open a new era in sustainable and ultra-high efficiency home heating.
Taking a chemical approach, researchers at the University of Wisconsin-Madison have developed a two-step method to convert the cellulose in raw biomass into a promising biofuel. The process, which is described in the Wednesday, Feb. 11 issue of the Journal of the American Chemical Society, is unprecedented in its use of untreated, inedible biomass as the starting material.
An in-depth study by Sandia National Laboratories and General Motors Corp. has found that plant and forestry waste and dedicated energy crops could sustainably replace nearly a third of gasoline use by the year 2030.
The ultrafine coal particles that are the residue of the coal cleaning process have been discarded into hundreds of impoundments. Now, a dewatering technology developed at Virginia Tech has succeeded in reducing the moisture content of ultrafine coal to less than 20 percent.
Firing bolts of lightning at expensive electrical equipment is all in a day's work at NEETRAC "“ the National Electric Energy Testing Research and Applications Center. The goal for the lightning research and other testing done by the center is to improve reliability for the nation's electric energy transmission and distribution system.
Innovative hydrogen technology for streetcar and commuter rail applications will be featured at the fifth International Hydrail Conference June 11-12 in Charlotte, N.C.
SUNRISE is a student-centered, faculty-led research program at UND, North Dakota State University and other North Dakota universities. The mission of SUNRISE is to conduct research that contributes to solving complex energy problems, investigations of sustainable energy options, and economic development and job creation for North Dakota.
Solarmer Energy Inc. is developing plastic solar cells for portable electronic devices that will incorporate technology invented at the University of Chicago. The company is on track to complete a commercial-grade prototype later this year.
Global yields of most biofuels crops, including corn, rapeseed and wheat, have been overestimated by 100 to 150 percent or more, suggesting many countries need to reset their expectations of agricultural biofuels to a more realistic level.
NIST researchers have developed a method to accelerate stability testing of biodiesel fuel made from soybeans and identified additives that enhance stability at high temperatures, work that could help overcome a key barrier to the practical use of biofuels.
Researchers at Rensselaer Polytechnic Institute have developed and demonstrated a new type of light emitting diode (LED) with significantly improved lighting performance and energy efficiency. The new polarization-matched LED exhibits an 18 percent increase in light output and a 22 percent increase in wall-plug efficiency.
Two computational scientists in the Mathematics and Computer Science Division at Argonne National Laboratory have been awarded a total of 37,500,000 hours of computing time on the Argonne Leadership Computing Facility (ALCF) to investigate safe and cost effective methods for developing nuclear energy.
The push for alternative energy has created a large demand for corn stover, a popular feedstock used to produce cellulosic ethanol, but utilizing these materials, rather than using it as compost, means a loss of soil organic carbon. Researchers have studied the effectiveness of alternative carbon augmentation practices and have reported positive results, as detailed in the November-December 2008 issue of Agronomy Journal.
Low-moving ocean and river currents could be a new, reliable and affordable alternative energy source. A University of Michigan engineer has made a machine that works like a fish to turn potentially destructive vibrations in fluid flows into clean, renewable power.
James McCalley, an Iowa State University professor in electrical and computer engineering, is leading a research team that's developing new and better infrastructure designs for the country's energy and transportation systems. The research team will consider all of America's energy options, including biofuels, wind, hydro, tidal, geothermal, nuclear, coal, hydrogen, solar, biomass, natural gas and petroleum, together with new and old freight and passenger transportation technologies.
An Auburn University study sheds new light on just how valuable shade trees are in reducing homeowners' electricity bills during hot summer months.
A field of fuel dreams: Cornell bioenergy plant experts are learning which field grasses are the best candidates for "dedicated energy" crops in the Northeast, considering the region's climate and soil conditions.
The George Washington University announced today the establishment of the Institute for the Analysis of Solar Energy, which will employ a multi-disciplinary approach to conducting research on the economic, technical, and public policy issues associated with developing and deploying solar power.
Managing power networks in the future may involve a little more brain power than it does today, if researchers at Missouri University of Science and Technology succeed in a new project that involves literally tapping brain cells grown on networks of electrodes.
A University of Arkansas researcher and his colleagues are urging national policymakers to use a science-based approach when making decisions about biofuels.
With the high cost of gasoline and diesel fuel impacting costs for automobiles, trucks, buses and the overall economy, a simple device that attaches to a vehicle's fuel line near the fuel injector and creates an electrical field could boost gas efficiency as much as 20 percent.
Florida State University's Center for Advanced Power Systems (CAPS) has joined a prominent national coalition that seeks to transform the nation's electric power systems. CAPs is now a member of the GridWise Alliance, a group of 69 leading companies and academic institutions whose goal is to combine their knowledge and innovation in an effort to increase the safety, reliability and capacity of the U.S. power grid.
A giant perennial grass used as a biofuels source has a much longer growing season than corn, and researchers think they've found the secret of its success. Their findings offer a promising avenue for developing cold-tolerant corn, an advance that would significantly boost per-acre yields.
University of Utah engineers devised a new way to slice thin wafers of the chemical element germanium for use in the most efficient type of solar power cells. They say the new method should lower the cost of such cells by reducing the waste and breakage of the brittle semiconductor.
You probably won't be able to drive down the highway in your own non-polluting vehicle that runs on hydrogen power any time soon. And don't start making plans to power your whole house with expensive hydrogen-based technology in the coming years. But, some day in the not-too-distant future, you might own a cell phone equipped with a hydrogen-powered fuel cell instead of a battery.
The New York State Fair's tribute to dairy farmers will end up in the fuel tanks of a college vehicle fleet.
A yeast geneticist on the campus of Indiana University-Purdue University Indianapolis (IUPUI) is close to developing mutant yeast for ethanol production that would reduce or eliminate the need to use corn to make the alternative fuel.
Researchers here have found a way to convert ethanol and other biofuels into hydrogen very efficiently. A new catalyst makes hydrogen from ethanol with 90 percent yield, at a workable temperature, and using inexpensive ingredients.
With oil prices skyrocketing, the search is on for efficient and sustainable biofuels. Research published this month in Agronomy Journal examines one biofuel crop contender: corn stover. Corn stover is made up of the leaves and stalks of corn plants that are left in the field after harvesting the edible corn grain. Corn stover could supply as much as 25% of the biofuel crop needed by 2030.
Algae are tiny biological factories that use photosynthesis to transform carbon dioxide and sunlight into energy so efficiently that they can double their weight several times a day, producing oil in the process "” 30 times more oil per acre than soybeans, according to the U.S. Department of Energy. Like soybean oil, the algae oil can be burned directly in diesel engines or further refined into biodiesel.
A new material characterized at the Department of Energy's Oak Ridge National Laboratory could open a pathway toward more efficient fuel cells.
A major restructuring of global energy markets is underway, yet the U.S. is at risk of being left behind because the nation lacks a comprehensive global energy security roadmap, warned Rensselaer Polytechnic Institute President Shirley Ann Jackson in a speech to the Commonwealth Club. The former NRC Chairman outlined the necessary components of a comprehensive U.S. energy plan that also addresses the linked concerns of climate change and sustainability.
As gas prices soar, scientists at the National High Magnetic Field Laboratory at Florida State University are marketing research that will enable petroleum companies to locate, analyze and process crude oil much faster, cheaper and more accurately.
An undergraduate research project by a group of University of New Hampshire students has led to a new state law that supports the use of residential wind energy.
An Arizona firm has found a way to make solar cells in panels vastly larger than anyone could manage before, allowing for far more cost-effective energy generation.
NIST experiments with varying concentrations of nanoparticle additives indicate a major opportunity to improve the energy efficiency of large industrial, commercial, and institutional cooling systems known as chillers.
Traditional economies may suggest that bigger is better, but the Oklahoma State University Biofuels Team has received widespread national recognition for cautioning that is not the case with all forms of renewable energy.OSU's vision of the future intersection of energy and agriculture involves a decentralized energy production system.
An analysis of yearly vehicle deaths compared to gas prices found death rates drop significantly as people slow down and drive less. If gas remains at $4 a gallon or higher for a year or more, traffic fatalities could drop by more than 1,000 per month nationwide, according new findings by a University of Alabama at Birmingham researcher.
A research team led by Hans van Leeuwen, an Iowa State University professor of civil, construction and environmental engineering, has been awarded a 2008 R&D 100 Award from R&D Magazine. The researchers are using fungi to clean up and improve the dry-grind ethanol production process. This is the 30th R&D 100 Award presented to researchers affiliated with Iowa State.
Sol Invictus, Iowa State University's latest student-designed and student-built solar race car, will compete in the North American Solar Challenge July 13-22. The challenge will take 24 university and college teams 2,400 miles from Plano, Texas, to Calgary, Alberta, Canada.
Research by two Kansas State University scientists could help with the large-scale cultivation and manufacturing of oil-rich algae in oceans for biofuel.
Biométhodes, a French biotechnology company in Evry, has signed an exclusive and worldwide option-to-license agreement with Virginia Tech Intellectual Properties Inc. (VTIP) for multiple technologies for converting biomass to bioethanol and biohydrogen.
Researchers have developed the first detailed chemical analysis revealing what processing is needed to transform pig manure derived 'crude oil' into fuel for vehicles or heating. Mass production of this type of biofuel could help consume a waste product overflowing at U.S. farms, but it will require a lot of refining.
Diesel fuel prices approaching $5 a gallon "“ and the resulting economic impact on products transported by truck "“ have created renewed interest in fuel-saving technologies developed during the past decade at the Georgia Tech Research Institute (GTRI).
A team of researchers from Iowa State University and the University of Hawai'i are developing a process that cleans up and improves the dry-grind ethanol production process. The process uses fungus to reduce energy costs, allow more water recycling and improve a co-product that's used as livestock feed. The American Academy of Environmental Engineers recently awarded the project its 2008 Grand Prize for University Research.
Two students from the University of Virginia's Darden School of Business recently started a business that supplies electricity to rural villages in India by burning the rice husks that are a waste product of rice milling. So far, two rice husk generators are providing power to about 10,000 rural Indians, but the business plan calls for a rapid expansion that will put the miniature power plants in hundreds more villages within a few years.
DOE photovoltaic funding for years has gone to programs that promise more efficient conversion of sunlight to electricity, or in aiding solar start-up companies. It's called "technology push." Now for something different. In the past year, an unusually innovative DOE program called Solar America Cities has focused on reaching out to formerly ignored, sometimes low-profile city decision makers who administer large chunks of urban real estate. It's called "technology pull."