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| Topic: New Alloy Can Convert Heat Directly Into Electricity | |
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Rebecca Boyle POPSCI Sun, 22 Apr 2012 18:55 CDT Multiferroic Material © University of Minnesota Multiferroic Material: A new multiferroic material begins as a non-magnetic material then suddenly becomes strongly magnetic as the piece of copper below it is heated a small amount A new alloy with unique properties can convert heat directly into electricity, according to researchers at the University of Minnesota. The alloy, a multiferroic composite of nickel, cobalt, manganese and tin, can be either non-magnetic and highly magnetic, depending on its temperature. Multiferroic materials possess both magnetism and ferroelectricity, or a permanent electric polarization. Materials with both of these properties are very rare; check out this explainer from the National Institute of Standards and Technology if you're interested in the electron orbital arrangements that cause these phenomena. In this case, the new alloy - Ni45Co5Mn40Sn10 - undergoes a reversible phase transformation, in which one type of solid turns into another type of solid when the temperature changes, according to a news release from the University of Minnesota. Specifically, the alloy goes from being non-magnetic to highly magnetized. The temperature only needs to be raised a small amount for this to happen. When the warmed alloy is placed near a permanent magnet, like a rare-earth magnet, the alloy's magnetic force increases suddenly and dramatically. This produces a current in a surrounding coil, according to the researchers, led by aerospace engineering professor Richard James. Watch a piece of the alloy leap over to a permanent magnet in the video clip below. http://www.youtube.com/watch?v=pWCz2lP7WcU&feature=player_embedded A process called hysteresis causes some of the heat energy to be lost, but this new alloy has a low hysteresis, the researchers say. Because of this, it could be used to convert waste heat energy into large amounts of electricity. One obvious use for this material would be in the exhaust pipes of vehicles. Several automakers are already working on heat transfer devices that can convert a car's hot exhaust into usable electricity; General Motors is using alloys called skutterudites, which are cobalt-arsenide materials doped with rare earths. Rare earth magnets are already a necessity in many hybrid car batteries, so heat-capture devices made of the new multiferroic compound could be placed near the magnets. The material could also be used in power plants or even ocean thermal energy generators, the researchers said. A paper on the alloy was published in the journal Advanced Energy Materials. Source: EurekAlert |
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Cool.
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Should also be able to be used for heating or refrigeration! 
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magnetic shock absorbers
transducers should be used more http://www.youtube.com/watch?v=E97CYWlALEs&feature=related http://www.youtube.com/watch?v=3r2aZ3llqok&feature=channel&list=UL |
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The tail pipe use would save huge amounts of energy and would transform the hybrid electric car since most of the heat energy of a gas engine goes out the tailpipe.
Another big use would be solar panels. Most of the energy they capture is from the visible range and being able to capture the infrared would boost the efficiency from maybe 20% to maybe 40% (The actual efficiency depends upon the type of cell). Good post. |
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