Abstract
THE methods for the continuous liquefaction of hydrogen and helium at present in use are essentially the same as those originally used by Dewar and Kamerlingh Onnes when these gases were first liquefied. These methods are based on the use of the Joule-Thomson effect, combined with a regenerating heat exchange after the gas has been cooled below its conversion temperature by liquid air or hydrogen. Since these processes are essentially non-reversible, the efficiency of the method is very low: for example, Meissner calculates that to produce liquid helium, one hundred times more power is required than if the process could be done reversibly. The advantages to be gained by using adiabatic expansion for the cooling of liquefying gases have long been realised, but owing to technical difficulties this method has only been used up to the present to liquefy small amounts of gas by a single expansion. Thus in 1895, Olszewski was the first to obtain a fog of liquid hydrogen drops by a sudden expansion of compressed hydrogen. Recently, Simon has produced appreciable quantities of liquid helium also by a sudden expansion of highly compressed helium.
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References
"Handbuch der Physik." Geiger and Scheel, vol. 11, p. 328.
Z.Phys., 81, 816; 1933.
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KAPITZA, P. Liquefaction of Helium by an Adiabatic Method without Pre-cooling with Liquid Hydrogen. Nature 133, 708–709 (1934). https://doi.org/10.1038/133708a0
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DOI: https://doi.org/10.1038/133708a0
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