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室温磁制冷技术的研究进展

李振兴 李珂 沈俊 戴巍 高新强 郭小惠 公茂琼

室温磁制冷技术的研究进展

李振兴, 李珂, 沈俊, 戴巍, 高新强, 郭小惠, 公茂琼
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  • 室温磁制冷具有绿色环保、内禀高效、低噪音与低振动等优点,有望成为室温制冷领域中的一种重要选择.本文首先简述了磁热效应等基本概念,阐述了磁制冷热力学循环,重点介绍由基本循环构成的复合式磁制冷循环、主动磁制冷循环以及耦合气体回热式制冷的主动磁制冷循环等.随后描述了室温磁制冷系统的不同维度数值模型的特点,介绍了模型中磁热效应、多层主动磁回热器、退磁效应等重要项的表述方式及其他因子对系统性能的影响.根据室温系统运动部件和运动方式的不同,将室温磁制冷样机细化为四类系统,包括往复磁体式、往复回热器式、旋转磁体式和旋转回热器式.结合样机的近期实验进展,分析了不同类别室温系统的结构、运行和性能等特性.最后,总结了室温磁制冷技术的未来发展趋势.
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  • 收稿日期:  2017-01-20
  • 修回日期:  2017-04-05
  • 刊出日期:  2017-06-05

室温磁制冷技术的研究进展

    基金项目: 

    国家自然科学基金(批准号:51322605,51676198)资助的课题.

摘要: 室温磁制冷具有绿色环保、内禀高效、低噪音与低振动等优点,有望成为室温制冷领域中的一种重要选择.本文首先简述了磁热效应等基本概念,阐述了磁制冷热力学循环,重点介绍由基本循环构成的复合式磁制冷循环、主动磁制冷循环以及耦合气体回热式制冷的主动磁制冷循环等.随后描述了室温磁制冷系统的不同维度数值模型的特点,介绍了模型中磁热效应、多层主动磁回热器、退磁效应等重要项的表述方式及其他因子对系统性能的影响.根据室温系统运动部件和运动方式的不同,将室温磁制冷样机细化为四类系统,包括往复磁体式、往复回热器式、旋转磁体式和旋转回热器式.结合样机的近期实验进展,分析了不同类别室温系统的结构、运行和性能等特性.最后,总结了室温磁制冷技术的未来发展趋势.

English Abstract

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