Numerical analysis of Peltier current lead [superconducting magnet system]

Author

Sato, Ken ; Okumura, Haruhiko ; Yamaguchi, Satarou

Author_Institution

Arasat Corp., Tokyo, Japan

fYear

2001

fDate

2001

Firstpage

491

Lastpage

494

Abstract

Peltier current leads (PCL) are numerically analyzed. We solve a one-dimensional heat conduction equation to study the thermal behavior of a variety of PCLs under various cooling conditions. The PCLs consist of a thermoelectric element inserted into a copper lead at its room temperature end, with or without a high-T_c superconductor below 77 K. Thermoelectric elements of both p- and n-types, and pure copper are utilized as constituent parts of the PCLs. Each part of the PCL is cooled with either a helium or nitrogen gas under the self-cooling condition. Due to the Peltier effect, the PCLs are expected to exhibit less heat leak at the low temperature end than conventional current leads. Our calculations confirm that the PCLs show as much as 30% reductions of the heat leak when they are optimized. Temperature profiles and other physical quantities of interest are also computed

Keywords

Peltier effect; cooling; copper; heat conduction; heat losses; superconducting magnets; thermoelectric devices; 20 C; 77 K; Cu; Peltier current lead; cooling conditions; copper lead; current leads; heat leak; high-T_c superconductor; numerical analysis; one-dimensional heat conduction equation; pure copper; room temperature; self-cooling condition; superconducting magnet system; temperature profiles; thermal behavior; thermoelectric element; thermoelectric elements; Cooling; Copper; Equations; Lead; Magnetic analysis; Numerical analysis; Superconducting magnets; Temperature; Thermal conductivity; Thermoelectricity;

fLanguage

English

Publisher

ieee

Conference_Titel

Thermoelectrics, 2001. Proceedings ICT 2001. XX International Conference on

Conference_Location

Beijing

ISSN

1094-2734

Print_ISBN

0-7803-7205-0

Type

conf

DOI

10.1109/ICT.2001.979938

Filename

979938