IMECH-IR  > 微重力重点实验室
Thermal Dynamics of Growing Bubble and Heat Transfer in Microgravity Pool Boiling
Du WF(杜王芳); Zhao JF(赵建福); Li HX(李会雄); Zhang YH; Wei JJ; Li K(李凯)
2019-10-17
KeywordMicrogravity Pool boiling Bubble dynamics Heat transfer Gravity scaling law
Other AbstractBoiling heat transfer realizes the high-performance heat exchange due to latent heat transportation, and then there are extensive industrial applications on Earth and many potential applications in space. Microgravity experiments offer a unique opportunity to study the complex interactions without external forces, and can also provide a means to study the actual influence of gravity on the pool boiling by comparing the results obtained from microgravity experiments with their counterparts in normal gravity. It will be conductive to revealing of the mechanism underlying the phenomenon, and then developing of more mechanistic models for the related applications both on Earth and in space. The present chapter summarize the up-to-date progress on the understanding of pool boiling phenomenon based on the knowledge obtained from microgravity experiments, focusing particularly on the thermal dynamics of growing bubble and heat transfer in microgravity pool boiling. The gravity scaling behavior, as well as the passive enhancement of heat transfer performance of nucleate pool boiling on flat plates by using micro-pin-finned surface, is presented and discussed in detail. Based on the outcome of the current trends in pool boiling research, some recommendations for future work are also proposed.
Source PublicationPhysical Science Under Microgravity: Experiments on Board the SJ-10 Recoverable Satellite 
Pages73-99
PublisherSpringer
Publication PlaceBeijing;Singapore
Language英语
ISBN9789811313394
Document Type图书章节
Identifierhttp://dspace.imech.ac.cn/handle/311007/80796
Collection微重力重点实验室
Recommended Citation
GB/T 7714
Du WF,Zhao JF,Li HX,et al. Thermal Dynamics of Growing Bubble and Heat Transfer in Microgravity Pool Boiling[Ch]. Physical Science Under Microgravity: Experiments on Board the SJ-10 Recoverable Satellite ,Springer,2019.
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