Adaptive mesh refinement techniques for the immersed interface method applied to flow problems

Zhilin Li; Peng Song

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Adaptive mesh refinement techniques for the immersed interface method applied to flow problems

机译：适用于流动问题的沉浸式界面方法的自适应网格细化技术

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摘要

In this paper, we develop an adaptive mesh refinement strategy of the Immersed Interface Method for flow problems with a moving interface. The work is built on the AMR method developed for two-dimensional elliptic interface problems in the paper [12] (CiCP, 12(2012), 515-527). The interface is captured by the zero level set of a Lipschitz continuous function ψ(x,y,t). Our adaptive mesh refinement is built within a small band of |ψ(x,y,r)| ≦δ with finer Cartesian meshes. The AMR-IIM is validated for Stokes and Navier-Stokes equations with exact solutions, moving interfaces driven by the surface tension, and classical bubble deformation problems. A new simple area preserving strategy is also proposed in this paper for the level set method.

机译：在本文中，我们针对浸入式界面的流动问题，开发了浸入式界面方法的自适应网格细化策略。这项工作建立在针对二维椭圆界面问题开发的AMR方法上[12]（CiCP，12（2012），515-527）。该界面由Lipschitz连续函数ψ（x，y，t）的零级集合捕获。我们的自适应网格细化建立在|ψ（x，y，r）|的小范围内带有更精细笛卡尔网格的δ。 AMR-IIM已针对Stokes和Navier-Stokes方程进行了验证，具有精确的解决方案，由表面张力驱动的运动界面以及经典的气泡变形问题。针对水平集方法，本文还提出了一种新的简单区域保存策略。

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来源
《Computers & Structures 》 |2013年第6期| 249-258| 共10页
作者
Zhilin Li; Peng Song;
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作者单位

Center for Research in Scientific Computation & Department of Mathematics, North Carolina State University, Raleigh, NC 27695, USA ,Nanjing Normal University, China;

Operations Research Program, North Carolina State University, Raleigh, NC27695, USA;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类
关键词
Adaptive mesh refinement method; Immersed interface method; Stokes and Navier-Stokes equations; Surface tension; Bubble deformation; Level set method;

机译：自适应网格细化方法;沉浸式接口方法;斯托克斯和纳维尔-斯托克斯方程;表面张力;气泡变形;水平设定方法;

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1. APS -70th Annual Meeting of the APS Division of Fluid Dynamics- Event - A highly efficient sharp-interface immersed boundary method with adaptive mesh refinement for bio-inspired flow simulations. [J] . Xiaolong Deng, Haibo Dong Bulletin of the American Physical Society . 2017 ,第14期

机译：APS-流体动力学APS分部第70届年会-事件-一种高效的锐口沉浸式边界方法，具有自适应网格细化功能，可用于生物启发的水流模拟。
2. A structured adaptive mesh refinement strategy with a sharp interface direct-forcing immersed boundary method for moving boundary problems [J] . Mehdi BADRI GHOMIZAD, Hosnieh KOR, Koji FUKAGATA Journal of Fluid Science and Technology . 2021 ,第2期

机译：具有尖锐界面的结构化自适应网格细化策略，直接迫使浸入边界问题的浸没边界法
3. Adaptive mesh refinement for simulating fluid-structure interaction using a sharp interface immersed boundary method [J] . Wang Zhuo, Du Lin, Sun Xiaofeng International Journal for Numerical Methods in Fluids . 2020 ,第12期

机译：采用尖锐界面浸没边界法模拟流体结构相互作用的自适应网格细化
4. Incompressible Flow Solver with Ghost-Cell Immersed Boundary Method and Adaptive Mesh Refinement [C] . A.M.D. Jost, J. Zhang, T.L. Jackson AIAA aviation forum;AIAA fluid dynamics conference . 2016

机译：鬼单元浸没边界法和自适应网格细化的不可压缩流求解器
5. Adaptive Mesh Refinement Strategies for the Immersed Interface Method. [D] . Song, Peng. 2013

机译：沉浸式界面方法的自适应网格细化策略。
6. Adaptive mesh refinement techniques for the immersed interface method applied to flow problems [O] . Zhilin Li, Peng Song -1

机译：适用于流动问题的沉浸式界面方法的自适应网格细化技术
7. Adaptive mesh refinement techniques for the immersed interface method applied to flow problems [O] . Zhilin Li, Peng Song 2013

机译：用于流动问题的浸没界面方法的自适应网格细化技术
8. Isogeometric Design-through-analysis Methodology based on Adaptive Hierarchical Refinement of NURBS, Immersed Boundary Methods, and T-spline CAD Surfaces. [R] . Schillinger, D., Dede, L., Scott, M. A., 2012

机译：基于NURBs，浸入边界方法和T样条CaD表面的自适应分层细化的等几种设计 - 分析方法。

Adaptive mesh refinement techniques for the immersed interface method applied to flow problems

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