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His research mainly concentrates on the numerical algorithm development for computational fluid dynamics. The gas-kinetic schemes (GKS), unified GKS (UGKS), and unified gas-kinetic wave-particle (UGKWP) method developed progressively in the past thirty years have been routinely used for the computation of rarefied and continuum flow. The framework of direct modeling is successfully applied to the computation of multlscale transport in rarefied gas, radiation, neutron, plasma, and gas-solid particle two phase flow. Currently, he serves editor in chief for Advances in Aerodynamics, and associated editors for Communications in Computational Physics, International Journal of Computational Fluid Dynamics, and Computers and Fluids.
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JOURNAL OF COMPUTATIONAL PHYSICS (2024): 112651
Journal of Computational Physics (2024): 112902
JOURNAL OF COMPUTATIONAL PHYSICS (2024): 112590-112590
arxiv(2024)
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Journal of Fluid Mechanics (2024)
JOURNAL OF COMPUTATIONAL PHYSICS (2024): 112610-112610
Journal of Computational Physicspp.112905, (2024)
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D-Core
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