NIFS-259

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Author(s):

S. Yamada, T. Mito, A. Nishimura, K. Takahata, S. Satoh, J. Yamamoto, H. Yamamura, K. Masuda, S. Kashihara, K. Fukusada, E. Tada

Title:

Reduction of Hydrocarbon Impurities in 200L/H Helium Liquefier-Refrigerator System

Date of publication:

Nov. 1993

Key words:

Cryogenic system, impurities, hydrocarbon gases, circulating compressor, lubricating oil

Abstract:

A cryogenic system with the capacity of 200 1/h or 500 W at 4.4 K has been operated to develop the superconducting conductors and coils for the LHD. The system has contributed in various superconducting conductors and coils for the LHD. The system has contributed in various superconducting technologies along with the dc 75kA power supply and 10 MN mechanical testing machine, and completed the basic R&D works of the LHD. On the way of operating the cryogenic system, impurity densities of hydrocarbon gases in circulating helium gas became much larger than the expected values for this cryogenic system, so that the densities of some impurity gases were carefully monitored in reference to the operational conditions of circulating compressor by using a gas chromatography. Impurity gas densities of oxygen, nitrogen and ethane increased obviously, when the output capacity of the compressor was reduced. In a two-stage oil injected compression system with a variable stroke mechanism for a first stage, a reduction in the capacity of the first stage leads to a larger compression ratio for the second stage, and the temperature of the infected oil becomes higher. The production of the impurities in the helium might be caused by cracking a part of injected oil in the compressor. The compressor, therefore, was reconstructed such that the injection oil is supplied sufficiently and the compression ratio division becomes even for each stage. It was confirmed that the impurities are not produced now after modification.

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