A Mixed-refrigerant Miniature Joule-Thomson Cooler Driven by a Linear Compressor

Cao Haishan; Meng Qinghang; Tong Xin; Liu Biqiang; Wang Xiaotao

doi:10.3969/j.issn.0253-4339.2022.01.074

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A Mixed-refrigerant Miniature Joule-Thomson Cooler Driven by a Linear Compressor

更新时间：2024-07-18

- A Mixed-refrigerant Miniature Joule-Thomson Cooler Driven by a Linear Compressor
- Journal of Refrigeration Vol. 43, Issue 1, (2022)
- 作者机构：
  
  1. 清华大学能源与动力工程系
  2. 昆明物理研究所
  3. 中国科学院理化技术研究所
- 作者简介：
- 基金信息：
- DOI：10.3969/j.issn.0253-4339.2022.01.074
  CLC：
- Published：2022
- 稿件说明：
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Cao Haishan, Meng Qinghang, Tong Xin, et al. A Mixed-refrigerant Miniature Joule-Thomson Cooler Driven by a Linear Compressor[J]. Journal of refrigeration, 2022, 43(1).
DOI：

Cao Haishan, Meng Qinghang, Tong Xin, et al. A Mixed-refrigerant Miniature Joule-Thomson Cooler Driven by a Linear Compressor[J]. Journal of refrigeration, 2022, 43(1). DOI： 10.3969/j.issn.0253-4339.2022.01.074.

摘要

很多电子器件在低温环境下工作具有更强的性能，但低温电子器件的广泛应用仍然受到制冷技术微型化落后的牵制。本文研究了一种基于多元混合工质的闭式节流制冷系统，该系统由Hampson型微型节流制冷机与线性压缩机相结合，工质采用摩尔浓度为39%甲烷/20l%乙烷/41%异丁烷三元混合物，实验研究了制冷机在不同工况条件下的降温性能。结果表明：制冷机在0.10~1.77 MPa和0.14~1.90 MPa压力条件下均可实现165 K的制冷温度，在0.36~1.73 MPa和0.18~1.36 MPa压力条件下均可实现198 K的制冷温度。该系统结构紧凑，有利于促进低温电子器件在国防军事、空间科学和生物医疗等领域的应用。

Abstract

Many electronic devices can benefit from operating at low temperatures. However

the widespread use of cryogenic electronic devices is limited by the miniaturization of cryocoolers. In this study

a closed Joule-Thomson (JT) cooling system based on a multicomponent mixture was investigated. The system comprised a Hampson-JT microcooler and a linear compressor. The working fluid was a ternary mixture with a molar concentration of 39% methane

20% ethane

and 41% isobutane. The cooling performance of a refrigerator under different conditions was studied experimentally. The results show that the microcooler can achieve a cold-end temperature of 165 K under 0.10–1.77 MPa and 0.14–1.90 MPa pressure

and 198 K under 0.36–1.73 MPa and 0.18–1.36 MPa pressure. The compact structure of the cooling system promotes the application of cryogenic electronic devices in the fields of military

space science

and biomedicine.

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Wang Qun

Chen Xi

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School of Energy and Power Engineering, University of Shanghai for Science and Technology

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