A high‐order flux reconstruction adaptive mesh refinement method for magnetohydrodynamics on unstructured grids

Abstract: Summary We report our recent development of the high‐order flux reconstruction adaptive mesh refinement (AMR) method for magnetohydrodynamics (MHD). The resulted framework features a shock‐capturing duo of AMR and artificial resistivity (AR), which can robustly capture shocks and rotational and contact discontinuities with a fraction of the cell counts that are usually required. In our previous paper, we have presented a shock‐capturing framework on hydrodynamic problems with artificial diffusivity and AMR. Ou… Show more

“…In the correction procedure via reconstruction (CPR) formulation, an h-adaptation approach was successfully implemented and tested on supersonic cases [22]. In the high-order FR framework, h-refinement methods combined with artificial diffusivity (AD) have been applied to capture shocks in transonic and supersonic problems [23,24] and to resolve discontinuities in magnetohydrodynamics systems [25]. In our previous work [26,15], a robust and efficient AMR algorithm for FV has been developed and already applied to a wide selection of steady-state test cases.…”

r-adaptive algorithms for supersonic flows with high-order Flux Reconstruction methods

“…In the correction procedure via reconstruction (CPR) formulation, an h-adaptation approach was successfully implemented and tested on supersonic cases [22]. In the high-order FR framework, h-refinement methods combined with artificial diffusivity (AD) have been applied to capture shocks in transonic and supersonic problems [23,24] and to resolve discontinuities in magnetohydrodynamics systems [25]. In our previous work [26,15], a robust and efficient AMR algorithm for FV has been developed and already applied to a wide selection of steady-state test cases.…”

r-adaptive algorithms for supersonic flows with high-order Flux Reconstruction methods

A Divergence-Free High-Order Spectral Difference Method with Constrained Transport for Ideal Compressible Magnetohydrodynamics

Multicomponent fluid model for two-temperature plasmas derived from kinetic theory : application to magnetic reconnection