@Article{CiCP-36-1, author = {Li, Ang and Li, Jiequan and Juan, Cheng and Shu, Chi-Wang}, title = {High Order Compact Hermite Reconstructions and Their Application in the Improved Two-Stage Fourth Order Time-Stepping Framework for Hyperbolic Problems: Two-Dimensional Case}, journal = {Communications in Computational Physics}, year = {2024}, volume = {36}, number = {1}, pages = {1--29}, abstract = {

The accuracy and efficiency of numerical methods are hot topics in computational fluid dynamics. In the previous work [J. Comput. Phys. 355 (2018) 385] of Du et al., a two-stage fourth order ($S_2O_4$) numerical scheme for hyperbolic conservation laws is proposed, which is based on dimension-by-dimensional HWENO5 and WENO5 reconstructions and GRP solver, and uses a $S_2O_4$ time-stepping framework. In this paper, we aim to design a new type of $S_2O_4$ finite volume scheme, to further improve the compactness and efficiency of the numerical scheme. We design an improved $S_2O_4$ framework for two-dimensional compressible Euler equations, and develop nonlinear compact Hermite reconstructions to avoid oscillations near discontinuities. The new two-stage fourth order numerical schemes based on the above nonlinear compact Hermite reconstructions and GRP solver are high-order, stable, compact, efficient and essentially non-oscillatory. In addition, the above reconstructions and the corresponding numerical schemes are extended to eighth-order accuracy in space, and can be theoretically extended to any even-order accuracy. Finally, we present a large number of numerical examples to verify the excellent performance of the designed numerical schemes.

}, issn = {1991-7120}, doi = {https://doi.org/10.4208/cicp.OA-2024-0023}, url = {https://global-sci.com/article/90898/high-order-compact-hermite-reconstructions-and-their-application-in-the-improved-two-stage-fourth-order-time-stepping-framework-for-hyperbolic-problems-two-dimensional-case} }