A numerical investigation of bubble growth on and departure from a superheated wall by lattice Boltzmann method

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	A numerical investigation of bubble growth on and departure from a superheated wall by lattice Boltzmann method
	Dong, Zhiqiang 1,2; Li, Weizhong 1; Song, Yongchen 1
刊名	international journal of heat and mass transfer
	2010-10-01
卷号	53 期号:21-22 页码:4908-4916
关键词	Lattice Boltzmann method Vapor bubble growth Phase change Stefan boundary condition Latent heat
ISSN号	0017-9310
通讯作者	wzhongli@dlut.edu.cn
产权排序	[dong, zhiqiang; li, weizhong; song, yongchen] dalian univ technol, minist educ, key lab ocean energy utilizat & energy conservat, dalian 116024, peoples r china; [dong, zhiqiang] chinese acad sci, guangzhou inst energy convers, micro energy syst lab, guangzhou 510640, peoples r china
中文摘要	the bubble growth on and departure from a superheated wall has been simulated by an improved hybrid lattice boltzmann method. the briant's treatment of partial wetting boundary was introduced and the new hybrid model was validated by the single bubble growth on and departure from the superheated wall. the results showed that parametric dependencies of the bubble departure diameter were in good agreement with the experimental correlation from some recent literatures. this new model was also employed to simulate twin-bubble growth, coalescence on and departure from a horizontal superheated wall.
英文摘要	the bubble growth on and departure from a superheated wall has been simulated by an improved hybrid lattice boltzmann method. the briant's treatment of partial wetting boundary was introduced and the new hybrid model was validated by the single bubble growth on and departure from the superheated wall. the results showed that parametric dependencies of the bubble departure diameter were in good agreement with the experimental correlation from some recent literatures. this new model was also employed to simulate twin-bubble growth, coalescence on and departure from a horizontal superheated wall. (c) 2010 elsevier ltd. all rights reserved.
学科主题	thermodynamics ; engineering ; mechanics
WOS标题词	science & technology ; physical sciences ; technology
类目[WOS]	thermodynamics ; engineering, mechanical ; mechanics
研究领域[WOS]	thermodynamics ; engineering ; mechanics
关键词[WOS]	incompressible 2-phase flows ; density ratio ; vapor bubble ; liquid ; simulation ; collapse ; model ; heat ; gas
收录类别	SCI
资助信息	national nature science foundation of china [50476074]; nsfc [50736001]
原文出处	https://dx.doi.org/10.1016/j.ijheatmasstransfer.2010.06.001
语种	英语
WOS记录号	WOS:000281383700047
公开日期	2014-12-24
内容类型	期刊论文
源URL	[http://ir.giec.ac.cn/handle/344007/8484]
专题	中国科学院广州能源研究所
作者单位	1.Dalian Univ Technol, Minist Educ, Key Lab Ocean Energy Utilizat & Energy Conservat, Dalian 116024, Peoples R China 2.Chinese Acad Sci, Guangzhou Inst Energy Convers, Micro Energy Syst Lab, Guangzhou 510640, Peoples R China
推荐引用方式 GB/T 7714	Dong, Zhiqiang,Li, Weizhong,Song, Yongchen. A numerical investigation of bubble growth on and departure from a superheated wall by lattice Boltzmann method[J]. international journal of heat and mass transfer,2010,53(21-22):4908-4916.
APA	Dong, Zhiqiang,Li, Weizhong,&Song, Yongchen.(2010).A numerical investigation of bubble growth on and departure from a superheated wall by lattice Boltzmann method.international journal of heat and mass transfer,53(21-22),4908-4916.
MLA	Dong, Zhiqiang,et al."A numerical investigation of bubble growth on and departure from a superheated wall by lattice Boltzmann method".international journal of heat and mass transfer 53.21-22(2010):4908-4916.