Advances in Cryogenic Engineering pp 467-475 | Cite as
Concentric Pulse Tube Analysis and Design
Conference paper
Abstract
The original pulse tube investigations by Gifford and Longsworth [1] showed that pulse tube refrigeration provides a practical method for achieving low temperatures through a heat transfer phenomenon described as surface heat pumping. Their work led to a physical interpretation of the phenomenon and established the Fourier number as the critical parameter.
Keywords
Slug Flow Bottom Temperature Pulse Tube Porous Plug OFHC Copper
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References
- 1.W. E. Gifford and R. C. Longsworth, in: Advances in Cryogenic Engineering, Vol. 11, Springer Science+Business Media New York (1966), p. 171.Google Scholar
- 2.R. A. Ackermann, “Investigation of Gifford-McMahon Cycle and Pulse Tube Cryogenic Refrigerators,” Research and Development Tech. Rept. ECOM-3245, U. S. Army Electronics Command, Ft. Monmouth, New Jersey, March 1970.Google Scholar
- 3.R. C. Longsworth, Ph.D. Dissertation, Syracuse University, Syracuse, New York (1966).Google Scholar
- 4.R. A. Lechner, “Investigation of Regenerators and Pulse Tube Cryogenic Coolers,” Research and Development Tech. Rept., ECOM-3409, U.S. Army Electronics Command, Ft. Monmouth, New Jersey, May 1971.Google Scholar
Copyright information
© Springer Science+Business Media New York 1973