Velocity-vorticity formulation with vortex particle-in-cell method for incompressible viscous flow simulation, Part I: formulation and validation

Liu Chung Ho; Doorly Denis J.

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Velocity-vorticity formulation with vortex particle-in-cell method for incompressible viscous flow simulation, Part I: formulation and validation

机译：不可压缩粘性流模拟中采用涡旋粒子法的速度涡度公式化，第一部分：公式化和验证

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A new velocity-vorticity formulation along with a vortex particle-in-cell method (PIC) is developed to solve the incompressible viscous steady and unsteady flow problems for a closed domain. The article demonstrates that the vortex PIC method has some of the advantages of Lagrangian particle methods for computing convection, while the use of a Eulerian grid to compute the diffusion enables viscous flows to be computed. The solution procedure that is described takes advantage of fast Poisson solvers for computational efficiency. Two-dimensional driven cavity flows with impulsively started and oscillating lids are chosen to test the method. The computation results are in good agreement with those of the numerical literature.

机译：开发了一种新的速度-涡度公式，以及一种涡旋粒子-细胞方法（PIC），以解决封闭域中不可压缩的粘性稳态和非稳态流动问题。这篇文章证明了涡流PIC方法具有拉格朗日粒子法在对流计算中的一些优势，而使用欧拉网格计算扩散可以计算粘性流。所描述的求解过程利用快速的Poisson求解器来提高计算效率。带有脉冲启动的二维驱动腔流和振动盖被选择来测试该方法。计算结果与数值文献吻合良好。

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《Numerical Heat Transfer, Part B. Fundamentals: An International Journal of Computation and Methodology》 |1999年第3期|共25页
作者
Liu Chung Ho; Doorly Denis J.;
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原文格式 PDF
正文语种 eng
中图分类热力工程、热机;
关键词
Computational fluid dynamics; Viscous flow; Vortex flow; Velocity measurement; Incompressible flow; Steady flow; Unsteady flow; Diffusion; Problem solving; Lagrange multipliers; Poisson ratio; Computational methods; Particle in cell method; Incompressible viscous flow; Lagrangian particle method; Eulerian grid; Fast Poisson solvers;

机译：计算流体力学;粘性流;涡流;速度测量;不可压缩流;稳定流;不稳定流;扩散;问题解决;拉格朗日乘子;泊松比;计算方法;单元颗粒法;不可压缩粘性流;拉格朗日粒子法;欧拉网格;快速泊松解算器;

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1. Velocity-vorticity formulation with vortex particle-in-cell method for incompressible viscous flow simulation, Part I: formulation and validation [J] . Liu Chung Ho, Doorly Denis J. Numerical Heat Transfer, Part B. Fundamentals: An International Journal of Computation and Methodology . 1999,第3期

机译：不可压缩粘性流模拟中采用涡旋粒子法的速度涡度公式化，第一部分：公式化和验证
2. Isothermal/Thermal Incompressible Viscous Fluid Flows with the Velocity-Vorticity Formulation [J] . Bermúdez Blanca, Nicolás Alfredo Informacion Tecnologica . 2010,第3期

机译：速度-涡度公式表示的等温/热不可压缩粘性流体流
3. A New Formulation of the Three-dimensional Velocity-Vorticity System in Viscous Incompressible Flow [J] . Ruas. V Zeitschrift fur Angewandte Mathematik und Mechanik . 1999,第1期

机译：粘性不可压缩流中三维速度-涡度系统的新公式
4. Effective domain decomposition meshless formulation of fully-viscous incompressible fluid flows [C] . E. Divo, A. Kassab World Conference on Boundary Elements and Other Mesh Reduction Methods and International Seminar on Computational Methods in Electrical Engineering and Electromagnetics; ; . -1

机译：全粘性不可压缩流体有效域分解无网格公式
5. Numerical Simulation of Aerodynamic Flows Based on Velocity-Vorticity Formulations. [D] . Mihaylov, Todor Vladimirov. 2012

机译：基于速度-涡度公式的空气动力学流动数值模拟。
6. Numerical simulation of incompressible viscous flow in deforming domains [O] . Phillip Colella, David P. Trebotich 1999

机译：变形域不可压缩粘性流的数值模拟
7. Parallel Adaptive Simulation of Coupled Incompressible Viscous Flow and Advective-Diffusive Transport Using Stabilized FEM Formulation [O] . André L. Rossa, Alvaro L.G.A. Coutinho 2012

机译：使用稳定的FEM配方的耦合不可压缩粘性粘性流动的平行自适应模拟和平面扩散运输

Velocity-vorticity formulation with vortex particle-in-cell method for incompressible viscous flow simulation, Part I: formulation and validation

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