Optimization and thermodynamic understanding of conduction-cooled Peltier current leads

X.C. Xuan; K.C. Ng; C. Yap; H.T. Chua

doi:10.1016/S0011-2275(02)00018-8

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Optimization and thermodynamic understanding of conduction-cooled Peltier current leads

Journal article

Peer reviewed

Optimization and thermodynamic understanding of conduction-cooled Peltier current leads

X.C. Xuan, K.C. Ng, C. Yap and H.T. Chua

Cryogenics (Guildford), Vol.42(2), pp.141-145

01/02/2002

DOI: https://doi.org/10.1016/S0011-2275(02)00018-8

Abstract

Current lead

Heat leak

Temperature–entropy diagram

Thermoelectric effect

Conduction-cooled Peltier current leads (PCLs) are optimized in a superconducting magnetic system. Optimum geometric factors, viz. the ratio of length to cross-sectional area, of both the copper lead and thermoelectric element, are simultaneously found to minimize the heat leak per PCL. A rigorous thermodynamic temperature–entropy (T–s) diagram is constructed. The heat leak as well as the total input power of both PCLs and converntional all-copper leads can be easily identified from the rectangular areas on the simple 2-D T–s plane.

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Title: Optimization and thermodynamic understanding of conduction-cooled Peltier current leads
Creators - without role: X.C. Xuan - National University of Singapore
K.C. Ng - National University of Singapore
C. Yap - National University of Singapore
H.T. Chua - National University of Singapore
Publication Details: Cryogenics (Guildford), Vol.42(2), pp.141-145
Publisher: Elsevier Ltd
Identifiers: 9944502208331
Academic Unit: King Abdullah University of Science & Technology
Language: English
Resource Type: Journal article