Cool magnet: a little bit of iron gives magnetic refrigeration a boost.Magnets are big-time materials, finding roles in products ranging from motors to medical-imaging systems. Now, a team of engineers' improvement of a custom-made magnetic material increases the odds that refrigeration refrigeration, process for drawing heat from substances to lower their temperature, often for purposes of preservation. Refrigeration in its modern, portable form also depends on insulating materials that are thin yet effective. will soon join the roster of magnet-based technologies. with the goal of making refrigerators and air conditioners more efficient, several groups around the world are developing magnetic-refrigerant materials. A magnetic-cooling system could also be less polluting than current systems because it wouldn't use environmentally harmful chemicals, such as ammonia or chlorofluorocarbons chlorofluorocarbons (klōr'əfl  r`əkär'bənz, klôr'–) (CFCs), organic compounds that contain carbon, chlorine, and fluorine atoms. . What's more, the technology requires few moving parts Moving parts are the components of a device that undergo continuous or frequent motion, most commonly rotation. "Parts" only include the mechanical components which does not include fuel, or any other gas or liquid. , so it can be simple, silent, and reliable. When a magnetic-refrigerant material is exposed to a magnetic field, the field forces the spins of electrons in the material to align. AS a result, the material heats up. Removing the field permits the electrons to relax into less-ordered states, and the material cools down. By cycling the material through these hot and cold states and venting away the heat, the system can generate an overall cooling effect. The field of magnetic refrigeration Magnetic refrigeration is a cooling technology based on the magnetocaloric effect. This technique can be used to attain extremely low temperatures (well below 1 kelvin), as well as the ranges used in common refrigerators, depending on the design of the system. has progressed rapidly in recent years. Researchers at the Department of Energy's Ames (Iowa) Laboratory and the Astronautics Corporation of America Astronautics Corporation of America is a privately owned corporation headquartered in Milwaukee, Wisconsin (USA). Astronautics was established in 1959 and is a major supplier of avionics equipment to airlines, Boeing, Airbus, the U.S. in Madison, Wis., have created a prototype magnetic refrigerator that operates at room temperature (SN: 1/5/02, p. 4). The Ames group also developed a new magnetic-refrigerant material--a combination of gadolinium gadolinium (gădəlĭn`ēəm), metallic chemical element; symbol Gd; at. no. 64; at. wt. 157.25; m.p. 1,312°C;; b.p. 3,233°C;; sp. gr. 7.898 at 25°C;; valence +3. , germanium germanium (jərmā`nēəm) [from Germany], semimetallic chemical element; symbol Ge; at. no. 32; at. wt. 72.59; m.p. 937.4°C;; b.p. 2,830°C;; sp. gr. 5.323 at 25°C;; valence +2 or +4. , and silicon--that produces the largest cooling effect of any material to date. Robert Shull at the National Institute for Standards and Technology in Gaithersburg, Md., points out that researchers can't yet take full advantage of this new material. Each time a magnetic field is applied to the material, it shifts the arrangement of the atoms, changing the material's crystal structure and releasing energy. This shift would reduce the cooling efficiency of any system made with the material, explains Shull. To eliminate these losses, Shull and his colleagues added iron to the gadolinium-germanium-silicon compound. With just 1 percent of all the atoms in the material consisting of iron, the material no longer changed its crystal structure when exposed to a magnetic field. However, it retained its magnetic-cooling properties. In the June 24 Nature the researchers report that their subtle modification reduced the material's energy losses by almost 95 percent. "The results are pretty amazing," says Michael DiPirro, a cryogenic engineer at the NASA NASA: see National Aeronautics and Space Administration. NASA in full National Aeronautics and Space Administration Independent U.S. Goddard Space Flight Center The Goddard Space Flight Center (GSFC) is a major NASA space research laboratory established on May 1, 1959 as NASA's first space flight center. GSFC employs approximately 10,000 civil servants and contractors, and is located approximately 6.5 miles northeast of Washington, D.C. in Greenbelt, Md. Previously, researchers had overlooked the importance of energy losses, he notes. Shull says magnetic-cooling systems could have uses beyond refrigerators and other household appliances. "One of the things that is really limiting the development of all-electric cars is the fact that they don't have an air conditioner," he says. "They can't generate enough power to run it." An efficient magnetic-cooling system could solve that problem, he predicts. |
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