Artikel mit Open-Access-Mandaten - Chunlei Charles LiangWeitere Informationen
Nicht verfügbar: 3
A High‐Order Flux Reconstruction Adaptive Mesh Refinement Method for Magnetohydrodynamics on Unstructured Grids
J Yang, C Liang
International Journal for Numerical Methods in Fluids 86, 231-253, 2018
Mandate: US National Science Foundation
A high-order flux reconstruction/correction procedure via reconstruction method for shock capturing with space-time extension time stepping and adaptive mesh refinement
X Zhang, C Liang, J Yang
55th AIAA Aerospace Sciences Meeting, 0519, 2017
Mandate: US National Science Foundation, US Department of Defense
A High-Order Spectral Difference Solver for 2D Ideal MHD Equations With Constrained Transport
K Chen, C Liang
ASME International Mechanical Engineering Congress and Exposition 85673 …, 2021
Mandate: US National Science Foundation, US Department of Defense
Verfügbar: 18
Large Eddy Simulation of Fully-developed Turbulent Flow Through Submerged Vegetation
T Stoesser, C Liang, W Rodi, G Jirka
River Flow 2006, 227-234, 2006
Mandate: Deutsche Forschungsgemeinschaft
Effect of tube spacing on the vortex shedding characteristics of laminar flow past an inline tube array: a numerical study
C Liang, G Papadakis, X Luo
Computers & Fluids 38 (4), 950-964, 2009
Mandate: British Heart Foundation
Effect of bending rigidity in a dynamic model of a polyurethane prosthetic mitral valve
XY Luo, BE Griffith, TJ Wang, C Liang, PN Watton, GM Bernacca
Biomechanics and Modeling in Mechanobiology 11, 815-827, 2012
Mandate: British Heart Foundation
High-order implicit large-eddy simulation of flow over a marine propeller
B Zhang, C Ding, C Liang
Computers & Fluids 224, 104967, 2021
Mandate: US Department of Defense
A high-order solver for simulating vortex-induced vibrations using sliding-mesh spectral difference method and hybrid grids
Z Qiu, B Zhang, C Liang, M Xu
International Journal for Numerical Methods in Fluids 90, 171-194, 2019
Mandate: US Department of Defense
A flux reconstruction method with nonuniform sliding-mesh interfaces for simulating rotating flows
B Zhang, Z Qiu, C Liang
2018 AIAA Aerospace Sciences Meeting, 1094, 2018
Mandate: US Department of Defense
A conservative high-order method utilizing dynamic transfinite mortar elements for flow simulations on curved nonconforming sliding meshes
B Zhang, C Liang
Journal of Computational Physics 443, 110522, 2021
Mandate: US Department of Defense
A new high-order spectral difference method for simulating viscous flows on unstructured grids with mixed-element meshes
M Li, Z Qiu, C Liang, M Sprague, M Xu, CA Garris
Computers & Fluids 184, 187-198, 2019
Mandate: US Department of Energy, US Department of Defense
Convection in oblate solar-type stars
J Wang, MS Miesch, C Liang
The Astrophysical Journal 830 (1), 45, 2016
Mandate: US National Science Foundation
High-Order Large Eddy Simulations of a Wind Turbine in Ducted and Open-Rotor Configurations
C Ding, B Zhang, C Liang, K Visser, G Yao
Journal of Fluids Engineering 145 (2), 021201, 2023
Mandate: US Department of Defense
An arbitrarily high-order spectral difference method with divergence cleaning (SDDC) for compressible magnetohydrodynamic simulations on unstructured grids
K Chen, C Liang
The Astrophysical Journal 932 (1), 16, 2022
Mandate: US National Science Foundation, US Department of Defense
An open boundary condition for high-order solutions of magnetohydrodynamics on unstructured grids
X Zhang, C Liang
International Journal of Computational Fluid Dynamics, 2020
Mandate: US National Science Foundation
Arbitrarily high-order accurate simulations of compressible rotationally constrained convection using a transfinite mapping on cubed-sphere grids
K Chen, C Liang, M Wan
Physics of Fluids 35 (8), 2023
Mandate: US National Science Foundation, US Department of Defense, National Natural …
High-order large-eddy simulations of a ducted wind turbine
C Ding, B Zhang, C Liang, K Visser, G Yao
AIAA SCITECH 2022 Forum, 1147, 2022
Mandate: US Department of Defense
A Divergence-Free High-Order Spectral Difference Method with Constrained Transport for Ideal Compressible Magnetohydrodynamics
K Chen, C Liang
International Journal of Computational Fluid Dynamics 35 (10), 826-849, 2021
Mandate: US National Science Foundation, US Department of Defense
High-Order Spectral Difference Gas-Kinetic Schemes for Euler and Navier-Stokes Equations
Q Xie, X Ji, Z Qiu, C Liang, K Xu
East Asian Journal on Applied Mathematics 13 (3), 499-523, 2023
Mandate: National Natural Science Foundation of China, Research Grants Council, Hong Kong
Extending the Spectral Difference Method with Divergence Cleaning (SDDC) to the Hall MHD Equations
RJ Hankey
2023 Regional Student Conferences, 70844, 2023
Mandate: US National Science Foundation, US Department of Defense
Angaben zur Publikation und Finanzierung werden automatisch von einem Computerprogramm ermittelt