识别室内颗粒物污染源的反演随机格子Boltzmann拉格朗日模型

IF 2.2 3区 工程技术 Q2 MECHANICS
Jinghong Qin
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引用次数: 0

摘要

本文研究了识别室内颗粒物污染源的倒随机格子Boltzmann拉格朗日方法。在欧拉描述中,流体(室内空气)的动力学以及粒子的传输都使用晶格玻尔兹曼方法求解。将粒子视为刚体,通过计算相互作用力和空隙率来实现晶格流体与粒子运动之间的数据交互。粒子壁碰撞过程基于垒球模型,该模型描述了粒子在微观状态下的动力学特性。结果表明,与以往的方法相比,对粒子正向和反向漂移路径及其机制的研究更加清晰。室内颗粒物污染源可以准确识别这种方法。该研究可为多相颗粒流体的建模提供理论依据。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Inverted stochastic lattice Boltzmann-Lagrangian model for identifying indoor particulate pollutant sources

Inverted stochastic lattice Boltzmann-Lagrangian model for identifying indoor particulate pollutant sources

This paper studies the inverted stochastic lattice Boltzmann-Lagrangian approach for identifying indoor particulate pollutant sources. The dynamics of the fluid (indoor air) as well as the transport of the particles in the Eulerian description are solved using the lattice Boltzmann method. The particles regard as rigid bodies, and the data interactions between lattice fluid and particle movement are implemented by calculating for interaction force and void fraction. Particle-wall collision process is based on the softball model which describes the dynamic characteristics of particles in microscopic state. The results are shown that the particle forward and inverted drifting paths and its mechanisms are investigated clearly than previous methods. Indoor particulate pollutant sources can exactly identify with this approach. This research can offer theoretical relevance to the modeling of multi-phase particle fluid.

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来源期刊
CiteScore
5.80
自引率
2.90%
发文量
38
审稿时长
>12 weeks
期刊介绍: Theoretical and Computational Fluid Dynamics provides a forum for the cross fertilization of ideas, tools and techniques across all disciplines in which fluid flow plays a role. The focus is on aspects of fluid dynamics where theory and computation are used to provide insights and data upon which solid physical understanding is revealed. We seek research papers, invited review articles, brief communications, letters and comments addressing flow phenomena of relevance to aeronautical, geophysical, environmental, material, mechanical and life sciences. Papers of a purely algorithmic, experimental or engineering application nature, and papers without significant new physical insights, are outside the scope of this journal. For computational work, authors are responsible for ensuring that any artifacts of discretization and/or implementation are sufficiently controlled such that the numerical results unambiguously support the conclusions drawn. Where appropriate, and to the extent possible, such papers should either include or reference supporting documentation in the form of verification and validation studies.
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