A high‐order discontinuous Galerkin method for the incompressible Navier‐Stokes equations on arbitrary grids

Abstract: Summary A high‐order discontinuous Galerkin (DG) method is proposed in this work for solving the two‐dimensional steady and unsteady incompressible Navier‐Stokes (INS) equations written in conservative form on arbitrary grids. In order to construct the interface inviscid fluxes both in the continuity and in the momentum equations, an artificial compressibility term has been added to the continuity equation for relaxing the incompressibility constraint. Then, as the hyperbolic nature of the INS equations has be… Show more

“…Compared with the NASA data, the calculation results of the present algorithm are not very ideal, but it can be seen that the speed-up trend of the parallel algorithm is also basically linear. A comparison between the present method and the parallel method (Hicken and Zingg, 2008) has been given in Figure 14(b). Compared with the parallel algorithm in the reference, the present algorithm has higher parallel efficiency.…”

“…Xia et al (2014) propose a parallel h-adaptive reconstructed DGM for three-dimensional compressible flows. Zhang et al (2019) add an artificial compressibility term for relaxing the incompressibility constraint and apply the LLF flux to present DGM for the two-dimensional unsteady and steady incompressible Navier-Stokes (NS) equations on arbitrary grids.…”

“…Moreover, discontinuous Galerkin methods require much more storage resources on unstructured grids. To improve the efficiency, the various numerical schemes and parallel algorithms are developed in literature (Luo et al, 2011;Xia et al, 2014;Zhang et al, 2019). Xia et al (2014) propose a parallel h-adaptive reconstructed DGM for three-dimensional compressible flows.…”

Parallel discontinuous Galerkin finite element method for computing hyperbolic conservation law on unstructured meshes

“…Compared with the NASA data, the calculation results of the present algorithm are not very ideal, but it can be seen that the speed-up trend of the parallel algorithm is also basically linear. A comparison between the present method and the parallel method (Hicken and Zingg, 2008) has been given in Figure 14(b). Compared with the parallel algorithm in the reference, the present algorithm has higher parallel efficiency.…”

“…Xia et al (2014) propose a parallel h-adaptive reconstructed DGM for three-dimensional compressible flows. Zhang et al (2019) add an artificial compressibility term for relaxing the incompressibility constraint and apply the LLF flux to present DGM for the two-dimensional unsteady and steady incompressible Navier-Stokes (NS) equations on arbitrary grids.…”

“…Moreover, discontinuous Galerkin methods require much more storage resources on unstructured grids. To improve the efficiency, the various numerical schemes and parallel algorithms are developed in literature (Luo et al, 2011;Xia et al, 2014;Zhang et al, 2019). Xia et al (2014) propose a parallel h-adaptive reconstructed DGM for three-dimensional compressible flows.…”

Parallel discontinuous Galerkin finite element method for computing hyperbolic conservation law on unstructured meshes

“…A second order FDM for a system of EPDEs in a square domain has been given by Pandey and Jaboob [48] . Zhang et al [6] have proposed a highly accurate discontinuous Galerkin method for solving the 2D NS equations in conservative form on arbitrary grids. In 2020, Li and Zhang [50] have reduced the classical continuous FEM to a high order FDM applied to a 2D elliptic equation with smooth coefficients on a rectangular domain.…”

High precision compact numerical approximation in exponential form for the system of 2D quasilinear elliptic BVPs on a discrete irrational region

“…Further, Zhang et al. [47] have solved 2D NS equations using a Galerkin method. Nadeem and Aziz [63] have designed a meshless and a Haar wavelet collocation method for 2D and 3D PDEs of elliptic type.…”

Higher order approximation in exponential form based on half-step grid-points for 2D quasilinear elliptic BVPs on a variant domain