An Adaptive Staggered Discontinuous Galerkin Method for the Steady State Convection–Diffusion Equation
Publication in refereed journal

香港中文大學研究人員
替代計量分析
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其它資訊
摘要Staggered grid techniques have been applied successfully to many problems. A distinctive advantage is that physical laws arising from the corresponding partial differential equations are automatically preserved. Recently, a staggered discontinuous Galerkin (SDG) method was developed for the convection–diffusion equation. In this paper, we are interested in solving the steady state convection–diffusion equation with a small diffusion coefficient ϵ. It is known that the exact solution may have large gradient in some regions and thus a very fine mesh is needed. For convection dominated problems, that is, when ϵ is small, exact solutions may contain sharp layers. In these cases, adaptive mesh refinement is crucial in order to reduce the computational cost. In this paper, a new SDG method is proposed and the proof of its stability is provided. In order to construct an adaptive mesh refinement strategy for this new SDG method, we derive an a-posteriori error estimator and prove its efficiency and reliability under a boundedness assumption on h/ϵ, where h is the mesh size. Moreover, we will present some numerical results with singularities and sharp layers to show the good performance of the proposed error estimator as well as the adaptive mesh refinement strategy.
著者Jie Du, Eric Chung
期刊名稱Journal of Scientific Computing
出版年份2018
月份12
卷號77
期次3
頁次1490 - 1518
國際標準期刊號0885-7474
電子國際標準期刊號1573-7691
語言美式英語

上次更新時間 2020-15-08 於 23:27