期刊文献+

小型和微型热电制冷的应用与前景 被引量:6

Present and Potential Applications of Small & Macro-scale Thermoelectric Refrigerator or Cooler
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摘要 通过深入系统的文献研究,考察了小型和微型热电制冷应用技术的新进展。全球性禁 用CFC物质以及电子、新材料等相关领域的技术进步为热电制冷提供了新的发展机遇和动力,小 型和微型热电制冷的应用领域不断向广度和深度拓展;在电子设备、探测仪表、实验仪器、温控元 件等的整体和局部冷却方面,热电制冷技术具备独特优势;预期超晶格结构是提高热电材料优值 系数的极具潜力的途径,热电膜集成结构将成为微型电子元件局部冷却的主流发展方向。 This paper reviews the new progress of small & micro-scale thermoelectric refrigeration (TER) on the basis of a comprehensive survey of literatures. TER meets new opportunities and urges due to the global prohibition of CFCs and the progresses in the fields of electronics, materials and other technology concerned, small and micro-scale TERs are especially extending applications in more and more fields. It presents distinct advantages in locally or wholly cooling small devices in comparison with other refrigeration modes. It is anticipated that superlattice thermoelectric materials presents great potential in increasing figure of merit, and that integrated thermoelectric micro-cooler is a promising form to cool electronic devices.
出处 《制冷空调与电力机械》 2005年第1期16-20,共5页 Refrigeration Air Conditioning & Electric Power Machinery
关键词 和局 实验仪器 广度 途径 优势 拓展 微型 预期 发展机遇 技术进步 TER figure of merit superlattice thin-film integration
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