International Journal of Hydrogen Energy
2020

Numerical investigation on subcooled pool film boiling of liquid hydrogen in different gravities

J.J. Wang^a, Y.Z. Li^a,b, L. Wang^a, S.Q. Xia^a, J.H. Ren^a, H.W. Mao^a, Y.Y. Xu^b,
^aInstitute of Refrigeration & Cryogenic Engineering, Xi’an Jiaotong University, Xi’an 710049, China
^bState Key Laboratory of Technologies in Space Cryogenic Propellants, Beijing 100028, China

摘要：

A clear understanding of bubble dynamics and heat transfer characteristics of hydrogen boiling in microgravity is significant for achieving safe and high-efficiency utilization of liquid hydrogen in space. In the present paper, a numerical simulation model is developed to predict the subcooled pool film boiling for liquid hydrogen in different gravities. The computations are based on the volume of fluid method combined with Lee’s phase change model. The results show that the bubble released from the wavy gas-liquid interface might grow to a larger size before departure with the decrease of gravity, and poor heat transfer performance is observed in reduced gravity. However, once the gravity level is low enough or the subcooling of liquid is sufficiently large, instead of bubble formation and release at the vapor-liquid interface, a thin gas film layer is almost observed and maintained in the surface of horizontal flat or wire heater.