Design, construction, and performance of plastic heat exchangers for sub-kelvin use.

Type of article: Article

Summary

The ultimate temperature and cooling power of both the superfluid Stirling refrigerator (SSR) and the helium 3-helium 4 dilution refrigerator depend largely on the efficiency of their counterflow heat exchangers. This efficiency is limited mainly by the Kapitza boundary resistance at low temperatures. The usual method of overcoming this problem has been to increase the surface area of the heat exchangers. A different approach is to make the heat exchangers out of materials that have low Kapitza boundary resistance such as plastics. The article describes the design, construction, and performance of plastic heat exchangers that have been successfully used in the SSRs. Specifically, the paper includes a detailed description of the heat exchangers, step-by-step instructions on the construction of a plastic heat exchanger, and simple calculations of the performance of the heat exchanger under typical SSR operating conditions.

Details

Original title: Design, construction, and performance of plastic heat exchangers for sub-kelvin use.
Record ID : 2001-2686
Languages: English
Source: Cryogenics - vol. 40 - n. 2
Publication date: 2000

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Indexing

Themes: Low-temperature physics;
Heat transfer;
Gas liquefaction and separation
Keywords: Plastic; Cryotemperature; Dilution; Superfluid helium; Cryogenics; Heat exchanger