Size limits for Stirling cycle refrigerators and cryocoolers

Author

Peterson, Richard B. ; Al-Hazmy, Majed

Author_Institution

Dept. of Mech. Eng., Oregon State Univ., Corvallis, OR, USA

fYear

1997

fDate

27 Jul-1 Aug 1997

Firstpage

997

Abstract

This paper explores the lower size limit placed on regenerative coolers by thermodynamics and heat transfer. Information derived in this paper has direct relevance to the development of small-scale refrigerators and cryocoolers that are based on standard gas cycles employing regeneration. A model is developed for the Stirling cycle incorporating a regenerator effectiveness and a regenerator axial conduction term, both of which are dependent on the length scale of the device. The coefficient of performance for the cooler is set to zero in order to explore the no-heat load condition. Results from this study suggest that a cryocooler fabricated from a low thermal conductivity material can be made with a length scale under one centimeter. Stainless steel or other similar material would be suitable for the design

Keywords

Stirling engines; cooling; refrigeration; refrigerators; thermal analysis; thermal conductivity; thermodynamics; Stirling cycle cryocoolers; Stirling cycle refrigerators; coefficient of performance; design; heat transfer; no-heat load condition; regenerator axial conduction; regenerator effectiveness; size limit; standard gas cycles; thermal conductivity; thermodynamics; Conducting materials; Heat engines; Heat pumps; Heat transfer; Refrigerators; Reservoirs; Temperature; Thermal conductivity; Thermodynamics; Thermomechanical processes;

fLanguage

English

Publisher

ieee

Conference_Titel

Energy Conversion Engineering Conference, 1997. IECEC-97., Proceedings of the 32nd Intersociety

Conference_Location

Honolulu, HI

Print_ISBN

0-7803-4515-0

Type

conf

DOI

10.1109/IECEC.1997.661905

Filename

661905