Discrete unified gas kinetic scheme for multiscale heat transfer based on the phonon Boltzmann transport equation

Zhaoli Guo; Kun Xu

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Discrete unified gas kinetic scheme for multiscale heat transfer based on the phonon Boltzmann transport equation

机译：基于声子玻尔兹曼输运方程的多尺度传热离散统一气体动力学方案

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摘要

Numerical prediction of multiscale heat transfer is a challenging problem due to the wide range of time and length scales involved. In this work a discrete unified gas kinetic scheme (DUGKS) is developed for heat transfer in materials with different acoustic thickness based on the phonon Boltzmann equation. With discrete phonon direction, the Boltzmann equation is discretized with a second-order finite-volume formulation, in which the time-step is fully determined by the Courant-Friedrichs-Lewy (CFL) condition. The scheme has the asymptotic preserving (AP) properties for both diffusive and ballistic regimes, and can present accurate solutions in the whole transition regime as well. The DUCKS is a self-adaptive multiscale method for the capturing of local transport process. Numerical tests for both heat transfers with different Knudsen numbers are presented to validate the current method.

机译：由于涉及的时间和长度范围很广，因此多尺度传热的数值预测是一个具有挑战性的问题。在这项工作中，基于声子玻耳兹曼方程，开发了一种离散统一气体动力学方案（DUGKS），用于在具有不同声厚的材料中进行传热。对于离散的声子方向，玻尔兹曼方程用二阶有限体积公式离散化，其中时间步长完全由库兰特-弗里德里希斯-路易（CFL）条件确定。该方案对于扩散和弹道方案都具有渐近保持（AP）性质，并且在整个过渡方案中也可以提供准确的解决方案。 DUCKS是一种用于捕获本地运输过程的自适应多尺度方法。提出了两种不同努氏数传热的数值测试，以验证当前的方法。

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《International Journal of Heat and Mass Transfer》 |2016年第11期|944-958|共15页
作者
Zhaoli Guo; Kun Xu;
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作者单位

State Key Laboratory of Coal Combustion, Huazhong University of Science and Technology, Wuhan 430074, China;

Department of Mathematics, Hong Kong University of Science and Technology, Clear Water Bay, Hong Kong, China;

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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
Discrete unified gas kinetic scheme; Phonon; Boltzmann transport equation; Multiscale heat transfer;

机译：离散统一气体动力学方案;声子玻尔兹曼输运方程多尺度传热;

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机译：基于Phonon Boltzmann运输方程的稳定多尺度传热统一隐式动力学方案
2. Unified implicit kinetic scheme for steady multiscale heat transfer based on the phonon Boltzmann transport equation [J] . Chuang Zhang, Zhaoli Guo, Songze Chen Physical review, E . 2017,第6aPta2期

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3. A discrete unified gas kinetic scheme for phonon Boltzmann transport equation accounting for phonon dispersion and polarization [J] . Luo Xiaoping, Yi Hongliang International Journal of Heat and Mass Transfer . 2017,第nova期

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4. A Gas-Kinetic Scheme for the Euler Equations with Heat Transfer [C] . Kun Xu International symposium on computational fluid dynamics;ISCFD'97 . 1997

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5. Modeling Steady-state and Transient Mesoscopic Heat Transfer Via Approximate Solutions to the Phonon Boltzmann Transport Equation [D] . ?Christenson, Joel 2020

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6. Mass and heat transfer between evaporation and condensation surfaces: Atomistic simulation and solution of Boltzmann kinetic equation [O] . Vasily V. Zhakhovsky, Alexei P. Kryukov, Vladimir Yu. Levashov, 2019

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7. Discrete unified gas kinetic scheme for multiscale heat transfer with arbitrary temperature difference [O] . Chuang Zhang, Zhaoli Guo 2019

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8. Nanoscale Heat Transfer using Phonon Boltzmann Transport Equation. [R] . Sihn, S., Roy, A. K. 2009

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Discrete unified gas kinetic scheme for multiscale heat transfer based on the phonon Boltzmann transport equation

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