ISENTROPIC

作品数:111被引量:167H指数:7
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相关机构:北京空天技术研究所厦门大学沈阳中心气象台复旦大学更多>>
相关期刊:《Science China Mathematics》《Advances in Aerodynamics》《Journal of Partial Differential Equations》《Acta Mathematicae Applicatae Sinica》更多>>
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Simulation of Wave-Flow-Cavitation Interaction Using a Compressible Homogenous Flow Method被引量:1
《Communications in Computational Physics》2013年第7期328-354,共27页J.G.Zheng B.C.Khoo Z.M.Hu 
supported by ONR(Office of Naval Research)under grant number N000141010474.
A numerical method based on a homogeneous single-phase flow model is presented to simulate the interaction between pressure wave and flow cavitation.To account for compressibility effects of liquid water,cavitating fl...
关键词:Cavitating flow isentropic cavitation model shock-flow-cavitation interaction 
An All-Speed Asymptotic-Preserving Method for the Isentropic Euler and Navier-Stokes Equations被引量:2
《Communications in Computational Physics》2012年第9期955-980,共26页Jeffrey Haack Shi Jin Jian-Guo Liu 
J.-G.Liu was supported by NSF grant DMS 10-11738.J.Haack and S.Jin were supported by NSF grant DMS-0608720;the NSF FRG grant”Collaborative research on Kinetic Description of Multiscale Phenomena:Modeling,Theory and Computation”(NSF DMS-0757285).
The computation of compressible flows becomesmore challengingwhen the Mach number has different orders of magnitude.When the Mach number is of order one,modern shock capturing methods are able to capture shocks and ot...
关键词:Low Mach number limit asymptotic preserving schemes incompressible limit projection scheme isentropic Euler equation 
All Speed Scheme for the Low Mach Number Limit of the Isentropic Euler Equations被引量:1
《Communications in Computational Physics》2011年第6期1-31,共31页Pierre Degond Min Tang 
supported by the French"Commissariat´a l’Energie Atomique(CEA)"(Centre de Saclay)in the frame of the contract"ASTRE",#SAV 34160;the Marie Curie Actions of the European Commission in the frame of the DEASE project(MESTCT-2005-021122)。
An all speed scheme for the Isentropic Euler equations is presented in thispaper. When the Mach number tends to zero, the compressible Euler equations converge to their incompressible counterpart, in which the density...
关键词:Low Mach number Isentropic Euler equations compressible flow incompressible limit asymptotic preserving Rusanov scheme 
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