ShareHydrogen liquefaction by magnetic refrigeration.
Author(s) : KAMIYA K., TAKAHASHI H., NUMAZAWA T., et al.
Summary
This paper describes a new method of hydrogen liquefaction with a newly developed magnetic refrigerator. Magnetic refrigeration makes use of the magnetocaloric effect, and is well known as an efficient method, in principal, because its cooling cycle can closely follow the Carnot cycle with appropriate heat switches. A liquefaction principle of our magnetic refrigerator is based on a thermo-siphon method, in which liquid hydrogen is condensed directly onto the surface of magnetic refrigerants and drops downward. Therefore, the magnetic refrigerants are required to have relatively large entropy change at liquefaction temperature of hydrogen and hydrogen resistance. Since most metal compounds don't satisfy the latter condition, the authors have developed a new ceramic polycrystal magnetic refrigerant named dysprosium gadolinium aluminium garnet (DGAG). In the liquefaction experiments, they have successfully liquefied hydrogen gas preliminarily cooled to a temperature slightly above the boiling point. Liquefaction was confirmed by the temperature variation of the DGAG, and the resultant condensation efficiency was found to approach 90% of the Carnot efficiency. The maximum cooling power was 14.6 W.
Details
- Original title: Hydrogen liquefaction by magnetic refrigeration.
- Record ID : 2008-2398
- Languages: English
- Publication date: 2006/06/14
- Source: Source: Proc. 14th int. Cryocooler Conf., Annapolis, MD
637-644; fig.; phot.; 15 ref.
Indexing
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Themes:
Small-scale cryogenic applications, cryocoolers;
Gas liquefaction and separation;
Caloric cooling (magnetocaloric, electrocaloric, elastocaloric and barocaloric cooling);
Other refrigerating systems (desiccant cooling, thermoelectrics, thermoacoustics…) - Keywords: Magnetic refrigerator; Liquefaction; Design; Performance; Hydrogen; Expérimentation; Cryogenics
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