DESIGN, DEVELOPMENT AND TESTING OF A COMPRESSIVE THERMOELASTIC COOLING SYSTEM

机译：压缩热弹冷却系统的设计，开发和测试

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Thermoelastic cooling was recently proposed as a candidate to substitute the vapor compression cooling. In order to prove its feasibility, a thermoelastic cooling prototype system using the compression drive mechanism and nitinol tubes working as functioning material has been designed, constructed, and tested in this study. The prototype consisted of two beds filled with nitinol tubes, a linear actuator as the compressing machine, and a sophisticated water circulation system to transfer heat and improve the system’s efficiency. The entire system was operated under the reverse Brayton cycle, which was developed in a previous numerical study. As the first endeavour in this field, the measured maximum system temperature lift reached 1.5 K as a baseline for this prototype. We also achieved maximum of 38 W net cooling from the prototype. Although current research proved the thermoelastic cooling concept, new designs are in progress as following studies.

机译：最近提出了热弹性冷却作为替代蒸气压缩冷却的候选方法。为了证明其可行性，本研究设计，构建和测试了使用压缩驱动机构和镍钛合金管作为功能材料的热弹性冷却原型系统。该原型包括两张装有镍钛合金管的床，一个线性致动器（作为压缩机）和一个复杂的水循环系统，用于传递热量并提高系统效率。整个系统在以前的数值研究中开发的反向布雷顿循环下运行。作为该领域的第一项努力，测得的最大系统温度升程达到1.5 K，以此原型为基准。我们还从原型获得了最大38 W的净冷却。尽管当前的研究证明了热弹性冷却的概念，但以下研究正在进行新的设计。

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《International Institute of Refrigeration;IIR International congress of refrigeration;Ministry of Economy, Trade and Industry;Ministry of Agriculture, Forestry and Fisheries 》|2015年|1-8|共8页
会议地点 Yokohama(JP)
作者
Suxin QIAN; Yiming WU; Jiazhen LING; Jan MUEHLBAUER; Yunho HWANG; Ichiro TAKEUCHI; Reinhard RADERMACHER;
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4164 Glenn L. Martin Hall Department of Mechanical Engineering University of Maryland College Park MD 20742 USA;

Division of Research and Development Niron Magnetics Inc. St. Paul MN USA;

4164 Glenn L. Martin Hall Department of Mechanical Engineering University of Maryland College Park MD 20742 USA Tel: 301-405-5247 E-mail: yhhwang@umd.edu;

Department of Materials Science and Engineering University of Maryland College Park MD 20742 USA;

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DESIGN, DEVELOPMENT AND TESTING OF A COMPRESSIVE THERMOELASTIC COOLING SYSTEM

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