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A parallel domain decomposition method for large eddy simulation of blood flow in human artery with resistive boundary condition Journal article
Liao, Zi Ju, Qin, Shanlin, Chen, Rongliang, Cai, Xiao Chuan. A parallel domain decomposition method for large eddy simulation of blood flow in human artery with resistive boundary condition[J]. COMPUTERS & FLUIDS, 2022, 232, 105201.
Authors:  Liao, Zi Ju;  Qin, Shanlin;  Chen, Rongliang;  Cai, Xiao Chuan
Favorite | TC[WOS]:6 TC[Scopus]:7  IF:2.5/2.7 | Submit date:2022/02/21
Computational Hemodynamics  Domain Decomposition  Finite Element Method  Large Eddy Simulation  Parallel Computing  Resistive Boundary Condition  
Adjoint-based an adaptive finite volume method for steady Euler equations with non-oscillatory k-exact reconstruction Journal article
Hu, Guanghui, Meng, Xucheng, Yi, Nianyu. Adjoint-based an adaptive finite volume method for steady Euler equations with non-oscillatory k-exact reconstruction[J]. Computers & Fluids, 2016, 139, 174-183.
Authors:  Hu, Guanghui;  Meng, Xucheng;  Yi, Nianyu
Favorite | TC[WOS]:21 TC[Scopus]:19 | Submit date:2019/02/13
Adjoint-based Error Estimation  H-adaptive Method  High Order Finite Volume Methods  Non-oscillatory K-exact Reconstruction  Steady Euler Equations  
Adjoint-based an adaptive finite volume method for steady Euler equations with non-oscillatory k-exact reconstruction Journal article
HU GUANGHUI, MENG XUCHENG, YI NIANYU. Adjoint-based an adaptive finite volume method for steady Euler equations with non-oscillatory k-exact reconstruction[J]. Computers & Fluids, 2016, 174-183.
Authors:  HU GUANGHUI;  MENG XUCHENG;  YI NIANYU
Favorite |   IF:2.5/2.7 | Submit date:2024/08/31
Steady Euler Equations  High Order Finite Volume Methods  H-adaptive Method  Adjoint-based Error Estimation  Non-oscillatory K-exact Reconstruction