Journal
MECHANICS OF MATERIALS
Volume 35, Issue 12, Pages 1161-1176Publisher
ELSEVIER SCIENCE BV
DOI: 10.1016/j.mechmat.2003.02.001
Keywords
metal foam; porous media; heat transfer; open-cell aluminum foam
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Open-cell metal foams with an average cell diameter of 2.3 mm were manufactured from 6101-T6 aluminum alloy and were compressed and fashioned into compact heat exchangers measuring 40.0 mm x 40.0 mm x 2.0 mm high, possessing a surface area to volume ratio on the order of 10,000 m(2)/m(3). They were placed into a forced convection arrangement using water as the coolant. Heat fluxes measured from the heater-foam interface ranged up to 688 kW m(-2), which corresponded to Nusselt numbers up to 134 when calculated based on the heater-foam interface area of 1600 mm(2) and a Darcian coolant flow velocity of approximately 1.4 m/s. These experiments performed with water were scaled to estimate the heat exchangers' performance when used with a 50% water-ethylene glycol solution, and were then compared to the performance of commercially available heat exchangers which were designed for the same heat transfer application. The heat exchangers were compared on the basis of required pumping power versus thermal resistance. The compressed open-cell aluminum foam heat exchangers generated thermal resistances that were two to three times lower than the best commercially available heat exchanger tested, while requiring the same pumping power. (C) 2003 Elsevier Ltd. All rights reserved.
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