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Thermodynamic optimization of conduction-cooled HTS current leads

✍ Scribed by Ho-Myung Chang; Steven W. Van Sciver

Publisher: Elsevier Science
Year: 1998
Tongue: English
Weight: 212 KB
Volume: 38
Category: Article
ISSN: 0011-2275
DOI: 10.1016/s0011-2275(98)00043-5

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✦ Synopsis

A theoretical optimization is performed for the conduction-cooling method of high Tc superconductor (HTS) current leads, which can be applied to the superconducting systems cooled directly by cryogenic refrigerators without liquid helium. The current lead is a series combination of a normal metal conductor at the warmer part and a HTS at the colder part, and is cooled by a contact with distributed or staged refrigerators instead of boil-off helium gas. An analytical method is developed to derive a mathematical expression for the required refrigerator power. By incorporating the critical characteristics of the HTS, it is demonstrated that there exist unique optimal values for the current density of HTS and the joint temperature of the two parts to minimize the total refrigerator power per unit current, for a given length of the HTS. As results of the study, the absolute minimum in the refrigerator power per unit current is presented as a thermodynamic limit and the leads cooled by a two-stage refrigerator are theoretically optimized. Some aspects in practical design are also discussed with a new and useful graphical method.

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