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Quasi-dynamic subgrid-scale kinetic energy equation model for large-eddy simulation of compressible flows
Qi H(齐涵)1,2; Li XL(李新亮)1,2; Hu RN(胡润宁)1,2; Yu ZP(于长平)1
Corresponding AuthorYu, Changping([email protected])
Source PublicationJOURNAL OF FLUID MECHANICS
2022-08-23
Volume947Pages:32
ISSN0022-1120
AbstractA quasi-dynamic subgrid-scale (SGS) kinetic energy one-equation eddy-viscosity model is introduced in this paper for large-eddy simulation (LES) of compressible flows. With the additional SGS kinetic energy equation, the SGS kinetic energy can be predicted properly. Then, using the dual constraints of SGS kinetic energy and the SGS kinetic energy flux, the eddy-viscosity model can be determined exactly. Taking a similar scheme as the expansion of the SGS stress, other unclosed quantities in the equations to be solved could be well modelled separately. Therefore, with the advance of the equations, all the model coefficients can be determined dynamically. Differing from the classic dynamic procedure, the new methodology needs no test filtering, and thus it could also be called a quasi-dynamic procedure. Using direct numerical simulation of compressible turbulent channel flow, the a priori test shows that the key modelled quantities of the suggested model display high correlations with the real values. In LES of compressible turbulent channel flows of the Mach number being 1.5 and 3.0, the proposed model can precisely predict some important quantities, including the mean velocity, Reynolds stress and turbulent flux, and it can also supply more abundant turbulent structures. For the compressible flat-plate boundary layer, the new model can correctly predict the transition process, mean velocity and turbulence intensities in the turbulent region. The results show that the proposed model has the advantage of scale adaptivity. Finally, the new model is applied to LES of turbulent mixing in spherical converging Richtmyer-Meshkov instability, and the accurate results show that the new model has a good ability for LES of complex fluids.
Keywordturbulence modelling
DOI10.1017/jfm.2022.654
Indexed BySCI ; EI
Language英语
WOS IDWOS:000843854100001
WOS KeywordDIRECT NUMERICAL-SIMULATION ; TURBULENT CHANNEL FLOW ; BOUNDARY-LAYER ; DRIVEN
WOS Research AreaMechanics ; Physics
WOS SubjectMechanics ; Physics, Fluids & Plasmas
Funding ProjectNational Key Research and Development Program of China[2020YFA0711800] ; National Key Research and Development Program of China[2019YFA0405302] ; NSFC[12072349] ; NSFC[91852203] ; National Numerical Windtunnel Project, Science Challenge Project[TZ2016001] ; Strategic Priority Research Program of Chinese Academy of Sciences[XDC01000000]
Funding OrganizationNational Key Research and Development Program of China ; NSFC ; National Numerical Windtunnel Project, Science Challenge Project ; Strategic Priority Research Program of Chinese Academy of Sciences
Classification一类/力学重要期刊
Ranking1
Contributor于长平
Citation statistics
Cited Times:5[WOS]   [WOS Record]     [Related Records in WOS]
Document Type期刊论文
Identifierhttp://dspace.imech.ac.cn/handle/311007/89920
Collection高温气体动力学国家重点实验室
Affiliation1.Chinese Acad Sci, Inst Mech, LHD, Beijing 100190, Peoples R China;
2.Univ Chinese Acad Sci, Sch Engn Sci, Beijing 100049, Peoples R China
Recommended Citation
GB/T 7714		 Qi H,Li XL,Hu RN,et al. Quasi-dynamic subgrid-scale kinetic energy equation model for large-eddy simulation of compressible flows[J]. JOURNAL OF FLUID MECHANICS,2022,947:32.Rp_Au:于长平
APA 齐涵,李新亮,胡润宁,&于长平.(2022).Quasi-dynamic subgrid-scale kinetic energy equation model for large-eddy simulation of compressible flows.JOURNAL OF FLUID MECHANICS,947,32.
MLA 齐涵,et al."Quasi-dynamic subgrid-scale kinetic energy equation model for large-eddy simulation of compressible flows".JOURNAL OF FLUID MECHANICS 947(2022):32.
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