A kinetic Fokker–Planck approach for modeling variable hard-sphere gas mixtures

Christian Hepp; Martin Grabe; Klaus Hannemann

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A kinetic Fokker–Planck approach for modeling variable hard-sphere gas mixtures

机译：一种用于模拟变量硬球气体混合物的动力学FOKKER-PLANCK方法

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Kinetic Fokker–Planck (FP) methods for modeling rarefied gas flows have received increasing attention over the last few years. However, formulating such models for realistic multi-species gases is still an open subject of research. Therefore, in this letter, we develop a kinetic FP model for describing gas mixtures with particles interacting according to the variable hard-sphere interaction potential. In accordance with the kinetic FP framework, a stochastic solution algorithm is employed in order to solve the model on a particle level. Different test cases are carried out, and the performance of the proposed method is compared with the direct simulation Monte Carlo algorithm.

机译：用于建模稀土气体流动的动力学Fokker-Planck（FP）方法在过去几年中受到了越来越多的关注。然而，为现实的多种气体制定这种模型仍然是研究的开放主题。因此，在这封信中，我们开发了一种动力学FP模型，用于描述根据可变硬球相互作用电位的颗粒与颗粒相互作用的气体混合物。根据动力学FP框架，采用随机解决方案算法以解决粒度水平的模型。进行了不同的测试用例，并将所提出的方法的性能与直接仿真蒙特卡罗算法进行比较。

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《AIP Advances》 |2020年第8期|共8页
作者
Christian Hepp; Martin Grabe; Klaus Hannemann;
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Topics Rarefied gas dynamicsNonequilibrium statistical mechanicsStochastic processes;

机译：主题稀释气体动力学Nuiribium统计机械斯修切过程;

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1. A kinetic Fokker-Planck approach to model hard-sphere gas mixtures [J] . Hepp C., Grabe M., Hannemann K. Physics of fluids . 2020,第2期

机译：一种动力学Fokker-Planck方法，用于模拟硬球气体混合物
2. Micro-Macro Kolmogorov–Fokker–Planck Models for a Hard-Sphere Gas [J] . S. V. Bogomolov, N. B. Esikova, A. E. Kuvshinnikov Mathematical models and computer simulations . 2016,第5期

机译：硬球气体的微观宏Kolmogorov–Fokker–Planck模型
3. Master equation approach for modeling diatomic gas flows with a kinetic Fokker-Planck algorithm [J] . Hepp Christian, Grabe Martin, Hannemann Klaus Journal of Computational Physics . 2020,第1期

机译：用动力学福克 - 普朗克算法建模硅藻气流的母体方程方法
4. AN ADAPTIVE GAUSSIAN MIXTURE MODEL APPROACH BASED FRAMEWORK FOR SOLVING FOKKER-PLANCK KOLMOGOROV EQUATION RELATED TO HIGH DIMENSIONAL DYNAMICAL SYSTEMS [C] . Arpan Mukherjee, Rahul Rai, Puneet Singla, Design automation conference;ASME international design engineering technical conferences and computers and information in engineering conference . 2016

机译：基于高斯混合模型方法的框架求解高维动力系统的Fokker-Planck Kolmogorov方程
5. Implementation into DIVIMP of a drift-kinetic model derived from the Fokker-Planck equation to examine the parallel-to-B velocity component of impurity ions in divertor-tokamak plasmas. [D] . Schwanke, Peter. 2001

机译：从Fokker-Planck方程导出的漂移动力学模型在DIVIMP中的实现，以检查偏滤托卡马克等离子体中杂质离子的平行于B速度分量。
6. From Continuum Fokker-Planck Models to Discrete Kinetic Models [O] . Jianhua Xing, Hongyun Wang, George Oster 2005

机译：从连续福克-普朗克模型到离散动力学模型
7. EXISTENCE OF GLOBAL WEAK SOLUTIONS TO FOKKER–PLANCK AND NAVIER–STOKES–FOKKER–PLANCK EQUATIONS IN KINETIC MODELS OF DILUTE POLYMERS [O] . John W. Barrett, Endre Süli 2011

机译：高分子聚合物动力学模型中福克-普朗克方程和纳维-斯托克-福克-普朗克方程整体弱解的存在

A kinetic Fokker–Planck approach for modeling variable hard-sphere gas mixtures

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