Hydraulic and heat transfer characteristics of slush hydrogen in a circular pipe under terrestrial and microgravity conditions

•The hydraulic and heat transfer characteristics of slush hydrogen in a circular pipe are studied.•The effects of the inclination angle and magnitude of gravity are also discussed.•It is indicated that slush hydrogen is more appropriate for transportation than liquid hydrogen.•The size of slush hydr...

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Bibliographic Details
Published in:International journal of heat and mass transfer 2017-07, Vol.110, p.482-495
Main Authors: Ma, F., Zhang, P., Shi, X.J.
Format: Article
Language:English
Subjects:
Eulerian-Eulerian model
Eulers equations
Gravitation
Heat transfer
Heat transfer coefficients
Hydraulics
Hydrogen
Kinetic theory
Liquid hydrogen
Mathematical models
Microgravity
Pipe
Pressure drop
Slush
Slush hydrogen
Stress concentration
Studies
Terrestrial and microgravity conditions
Vaporization
Weightlessness
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Summary:•The hydraulic and heat transfer characteristics of slush hydrogen in a circular pipe are studied.•The effects of the inclination angle and magnitude of gravity are also discussed.•It is indicated that slush hydrogen is more appropriate for transportation than liquid hydrogen.•The size of slush hydrogen shows significant effect on the heat transfer of slush hydrogen. Slush hydrogen is a mixture of solid hydrogen and liquid hydrogen. Compared with pure liquid hydrogen, it can be used as the fuel of rocket and space booster due to its densified feature. In the present study, a numerical model is built based on the Eulerian-Eulerian model and the kinetic theory of granular flow to investigate the hydraulic and heat transfer characteristics of slush hydrogen in a circular pipe under both terrestrial and microgravity conditions. The numerical model is first validated by the experimental results reported in the literature. The flow of slush hydrogen with different inlet velocities and solid volume fractions are numerically studied to investigate the solid volume fraction distribution and velocity profile of the outlet cross-section. Considering the transportation of slush hydrogen in practical applications, the hydraulic characteristics of slush hydrogen in an inclined pipe under terrestrial condition and in a horizontal pipe under microgravity are also investigated. The results show significant influence of the gravity on the solid volume fraction distribution and pressure drop of slush hydrogen. The heat transfer of slush hydrogen is also studied, which shows that the temperature of fluid can be locally decreased sufficiently using slush hydrogen such that the vaporization of liquid hydrogen can be suppressed. Solid hydrogen particle with small diameter can improve heat transfer between the solid phase and liquid phase, and the melting of solid hydrogen is accelerated. It is clarified that the increases of both the inlet velocity and solid volume fraction show positive effects on the local heat transfer coefficient.
ISSN:0017-9310
1879-2189
DOI:10.1016/j.ijheatmasstransfer.2017.03.024