2019
DOI: 10.1002/ceat.201971105
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Kinetics and Heat Exchanger Design for Catalytic Ortho‐Para Hydrogen Conversion during Liquefaction

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Cited by 28 publications
(2 citation statements)
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“…During the liquefaction process, liquid hydrogen will tend to equilibrium showing a spontaneous conversion from o-H 2 to p-H 2 . The conversion is very slow, with heat releasing 523kJ/kg when the hydrogen temperature is below 77K, which is greater than the latent heat of vaporization of liquid hydrogen(443kJ/kg) [7]. The evaporation loss of liquid hydrogen, which interrupts the long-term stable storage, is caused by this spontaneous and slow heat release of unconverted o-H 2 , if no active measure is taken to catalyze the ortho-para hydrogen process and to remove the conversion heat.…”
Section: Hydrogen Liquefactionmentioning
confidence: 99%
“…During the liquefaction process, liquid hydrogen will tend to equilibrium showing a spontaneous conversion from o-H 2 to p-H 2 . The conversion is very slow, with heat releasing 523kJ/kg when the hydrogen temperature is below 77K, which is greater than the latent heat of vaporization of liquid hydrogen(443kJ/kg) [7]. The evaporation loss of liquid hydrogen, which interrupts the long-term stable storage, is caused by this spontaneous and slow heat release of unconverted o-H 2 , if no active measure is taken to catalyze the ortho-para hydrogen process and to remove the conversion heat.…”
Section: Hydrogen Liquefactionmentioning
confidence: 99%
“…Secondly, there are inconsistencies between the data generated by the groups of Weitzel [4] and Hutchinson [5], making it difficult to use the entirety of the available data for the creation of consistent kinetic models [6] [7]. Thirdly, the existing data do not cover the entire operating range of modern ortho-para converters in terms of temperature-pressure pairings [6], requiring extrapolation from an already uncertain data basis.…”
Section: Introductionmentioning
confidence: 99%