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用于大密度比和高雷诺数下三维多相流的耦合格子玻尔兹曼-大涡模拟模型

Coupled lattice Boltzmann-large eddy simulation model for three-dimensional multiphase flows at large density ratio and high Reynolds number.

作者信息

An Xiang, Dong Bo, Wang Yong, Zhang Yajin, Zhou Xun, Li Weizhong

机构信息

Key Laboratory of Ocean Energy Utilization and Energy Conservation of Ministry of Education, School of Energy and Power Engineering, Dalian University of Technology, Dalian 116024, People's Republic of China.

Institute of Refrigeration and Air Conditioning Technology, Henan University of Science and Technology, Luoyang 471003, People's Republic of China.

出版信息

Phys Rev E. 2021 Oct;104(4-2):045305. doi: 10.1103/PhysRevE.104.045305.

Abstract

A coupled lattice Boltzmann-large eddy simulation model is developed for modeling three-dimensional multiphase flows at large density ratios and high Reynolds numbers. In the framework of the lattice Boltzmann method, the model is proposed based on the standard Smagorinsky subgrid-scale approach, and a reconstructed multiple-relaxation-time collision operator is adopted. The conservative Allen-Cahn equation and Navier-Stokes equations are solved through the lattice Boltzmann discretization scheme for the interface tracking and velocity field evolution, respectively. Relevant benchmark cases are carried out to validate the performance of this model in simulating multiphase flows at a large density ratio and a high Reynolds number, including a stationary droplet, the process of spinodal decomposition, the Rayleigh-Taylor instability, the phenomenon of a droplet splashing on a thin liquid film, and the liquid jet breakup process. The maximum values of density ratio and Re number are 1000 and 10 240, respectively. The capability and reliability of the proposed model have been demonstrated by the good agreement between simulation results and the analytical solutions or the previously available results.

摘要

开发了一种耦合格子玻尔兹曼-大涡模拟模型,用于对大密度比和高雷诺数下的三维多相流进行建模。在格子玻尔兹曼方法的框架内,基于标准的斯马戈林斯基亚格子尺度方法提出了该模型,并采用了重构的多松弛时间碰撞算子。分别通过格子玻尔兹曼离散格式求解守恒的艾伦-卡恩方程和纳维-斯托克斯方程,以实现界面追踪和速度场演化。进行了相关的基准案例研究,以验证该模型在模拟大密度比和高雷诺数多相流方面的性能,包括静态液滴、旋节线分解过程、瑞利-泰勒不稳定性、液滴在薄液膜上的飞溅现象以及液体射流破碎过程。密度比和雷诺数的最大值分别为1000和10240。模拟结果与解析解或先前可得结果之间的良好一致性证明了所提模型的能力和可靠性。

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