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in title, tags, annotations or urlTechnology Review: Storing Solar Power Efficiently - 0 views
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Their schemes come with a caveat, of course: without backup power plants or expensive investments in giant batteries, flywheels, or other energy-storage systems, this solar-power supply would fluctuate wildly with each passing cloud (not to mention with the sun's daily rise and fall and seasonal ebbs and flows). Solar-power startup Ausra, based in Palo Alto, thinks it has the solution: solar-thermal-power plants that turn sunlight into steam and efficiently store heat for cloudy days.
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Solar proponents love to boast that just a few hundred square kilometers' worth of photovoltaic solar panels installed in Southwestern deserts could power the United States. Their schemes come with a caveat, of course: without backup power plants or expensive investments in giant batteries, flywheels, or other energy-storage systems, this solar-power supply would fluctuate wildly with each passing cloud (not to mention with the sun's daily rise and fall and seasonal ebbs and flows). Solar-power startup > Ausra > , based in Palo Alto, thinks it has the solution: solar-thermal-power plants that turn sunlight into steam and efficiently store heat for cloudy days. >
Geoengineering could dim lights on solar power - environment - 23 April 2009 - New Scientist - 0 views
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PUMPING aerosol particles into the atmosphere to create a sunshade could take a heavier toll on solar power generation than expected. For every 1 per cent of the sun's rays deflected into space, the average output of solar systems that rely on direct sunlight would drop by 4 to 5 per cent, says Daniel Murphy at the US National Oceanic and Atmospheric Administration in Boulder, Colorado. Geoengineers propose scattering 1 to 2 per cent of sunlight.
Energy-Saving House with W Generation System Opened to Public :: PNN Planet2025 News Network - 0 views
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Osaka Gas Co. of Japan announced that an energy-saving house in Saito Asagi, Ibaraki City, Osaka Prefecture, equipped with a "double-generation system," which is made up of a co-generation system using a household-type polymer electrolyte fuel cell and a solar photovoltaic system, would be open to the public. The house will remain open until the end of May 2008.The fuel cell is rated at one kilowatt and simultaneously generates power and heat, with the heat being effectively utilized for heating water. The combination of the 4-kilowatt photovoltaic system and this fuel cell enables the average household to reduce primary energy consumption by about 55 percent and carbon dioxide emissions by about 70 percent over conventional systems.Moreover, although blinds are typically set inside of windows, the blinds in this house are set outside of windows in order to cut sunlight in the summer, while absorbing thermal energy from sunlight in the winter and transmitting it to the specially designed walls; thus, energy requirements for heating and cooling are reduced. With the latest gas facilities and home-security systems, visitors can enjoy experiencing the exceptional functionality this concept house offers.
New Material Can Absorb Infrared, Increase Solar Efficiency | Green News | Eco News - 0 views
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Semiconductor solar cells absorb sunlight from the visible spectrum, ignoring ultraviolet and infrared rays, which limits how much energy a solar cell can create from sunlight. But a new material made by researchers in Spain throws titanium and vanadium into the mix so it can utilize infrared and potentially boost efficiency of solar cells.
Future Of Solar Energy - 3 views
My bright idea: Michael Grätzel | Technology | The Observer - 1 views
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"Michael Grätzel is a man with a mission. As the inventor of a low-cost solar cell, he wants to help the world avoid an energy crisis by harnessing the power of the Sun. His translucent Grätzel cells use a combination of titanium dioxide and organic dyes to convert sunlight into electricity, providing a cheaper and more environmentally friendly source of energy than silicon solar cells."
Dying to Boost Solar Efficiency by 50% : CleanTechnica - 0 views
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The most efficient form of solar technology today is (arguably) extreme concentrated photovoltaics, essentially solar panels placed under a magnifying glass, but the problem with these systems is heat. Concentrated sunlight can melt silicon solar panels unless you include specialized cooling systems. Cooling technology costs money, and the panels require expensive tracking mechanisms to follow the sun through the day. MIT's new solar system bypasses the heat and traching problems all together.
MIT Develops Way to Bank Solar Energy at Home - 0 views
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During photosynthesis, plants use sunlight to break water into hydrogen and oxygen atoms and later on the atoms recombine and produce energy. MIT scientists have tried to duplicate this method of plants to store sun’s energy.
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The main constituent in Nocera and Kanan’s procedure is a new catalyst that generates oxygen gas from water and another catalyst produces hydrogen gas. The catalysts are cobalt and platinum. These new catalysts work at normal room temperature in neutral pH water and the whole system can be installed easily.
The capacity factor of wind power « Lightbucket - 0 views
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The capacity factor of a power plant is the ratio of the electrical energy produced in a given period of time to the electrical energy that could have been produced at continuous maximum power operation during the same period. For a conventional fossil-fuel power station, the capacity factor is determined by planned maintenance downtime, unplanned equipment failure, and by shutdowns when the station’s electricity is not needed. For wind and solar energy, power output is also determined by the availability of wind and sunlight. The maximum power output, or ‘installed capacity’, is a rather theoretical value that is rarely reached. It would be clearer to quote the mean power for solar and wind energy, but because peak power is more commonly quoted, it’s important to know the capacity factor as well, to make sense of the peak numbers.
Cleantech Blog: The Other Solar Energy - 0 views
Litroenergy - Safe, Long-Lasting, Energy-Free Light on PSFK - 0 views
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A light source equivalent to a 20 watt bulb, that illuminates continuously for 12 years without the need for electricity or sunlight, that’s both non-toxic and inexpensive?
IEEE Spectrum: Synthetic Fuel From a Solar Collector - 0 views
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7 January 2008—At first blush, you might lump claims about a machine that supposedly turns sunshine, air, and water into fuel in the same category as e-mails insisting that someone in Nigeria will pay you handsomely to help free up a large sum of money. But researchers at the U.S. Department of Energy’s Sandia National Laboratories, in Albuquerque, say they have created a device that can break water into hydrogen and oxygen using sunlight, or in a another reaction convert carbon dioxide, to carbon monoxide that combines with hydrogen to make hydrocarbons such as methanol, ethanol, and even gasoline or diesel fuel. The technology holds the promise of using the same resources as biomass-to-fuel schemes but with potentially greater efficiency, according to the researchers.