CAHL is a Computational
Dynamics (CFD) lab directed by Dr Chunlei Charles Liang. It was established in the MAE department of GW on August 1st, 2010.
In CAHL, we develop numerical solvers for both incompressible and compressible flows and we model interdisciplinary problems related to Aerospace, Mechanical, Civil, Marine, Chemical, Biomedical engineering, and Astrophysics.
International Symposium of High-order Methods for CFD as part of the 13th USNCCM at San Diego, July 2015.
A robust artificial magnetic resistivity and sub-iterative divergence cleaning technique for solving ideal MHD equations with high-order flux reconstruction method, International Journal of Terraspace Science and Engineering, in press, 2017.
A Compressible High-Order Unstructured Spectral Difference Code for Stratified Convection in Rotating Spherical Shells , Vol 290, 90-111, J. Comp. Phys., 2015.
A Simple, Efficient, High-order Accurate Sliding-Mesh Interface Approach to the Spectral Difference Method on Coupled Rotating and Stationary Domains. Vol 295, 147-160, J. Comput. Phys., 2015.
A high-order solver for unsteady incompressible Navier-Stokes equations
using the flux reconstruction method on unstructured grids with implicit dual
time stepping, J. Comput. Phys., Vol 314, 414-435, 2016.
The 2014 special issue of high-order
methods for CFD of Computers & Fluids.
The 2016 special issue of high-order methods for CFD of Computers & Fluids.