The modeling of nanoscale heat conduction by Boltzmann transport equation

Mingtian Xu; Xuefang Li

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The modeling of nanoscale heat conduction by Boltzmann transport equation

机译：用玻尔兹曼输运方程模拟纳米级导热

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The discrete Boltzmann transport equation is firstly formulated by accounting for the impact of particle collisions on the distribution function in the discrete Liouville equation. Based on this equation, we re derive the improved dual-phase-lagging heat conduction model with lagging effect in time and nonlocal effect in space. By taking into account the contribution of the higher order moments of the distribution function to the heat flux, we show that the discrete Boltzmann transport equation can give rise to the well-known Guyer-Krumhansl heat conduction model.

机译：首先通过考虑粒子碰撞对离散Liouville方程中分布函数的影响，来构造离散Boltzmann输运方程。基于该方程，我们推导了具有时间滞后效应和空间非局部效应的改进的双相滞后热传导模型。通过考虑分布函数的高阶矩对热通量的贡献，我们表明离散的Boltzmann输运方程可以产生著名的Guyer-Krumhansl导热模型。

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来源
《International Journal of Heat and Mass Transfer》 |2012年第8期|p.1905-1910|共6页
作者
Mingtian Xu; Xuefang Li;
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作者单位

Institute of Thermal Science and Technology, Shandong University, Jinan 250061. China;

Institute of Thermal Science and Technology, Shandong University, Jinan 250061. 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
guyer-krumhansl model; dual-phase-lagging heat conduction model; boltzmann transport equation; nanoscale heat conduction;

机译：Guyer-Krumhansl模型;双相滞后热传导模型波兹曼输运方程;纳米级导热;

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1. Simulation of Nanoscale Multidimensional Transient Heat Conduction Problems Using Ballistic-Diffusive Equations and Phonon Boltzmann Equation [J] . Ronggui Yang, Gang Chen, Marine Laroche, Journal of Heat Transfer . 2005,第3期

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2. Generalized heat conduction model in moving media emanating from Boltzmann Transport Equation [J] . Tao Xue, Xiaobing Zhang, Kumar K. Tamma International Journal of Heat and Mass Transfer . 2018,第APRa期

机译：玻尔兹曼输运方程产生的运动介质中的广义导热模型
3. A ballistic-diffusive heat conduction model extracted from Boltzmann transport equation [J] . Xu M., Hu H. Proceedings of the Royal Society. Mathematical, physical and engineering sciences . 2011,第2131期

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4. MODELING NANOSCALE THERMAL TRANSPORT VIA THE BOLTZMANN TRANSPORT EQUATION [C] . Cristjna H. Amon, Jayathi Y. Murthy, Sreekant V.J. Narumanchi EPP-vol.4; American Society of Mechanical Engineers(ASME) International Mechanical Engineering Congress and Exposition; 20041113-19; Anaheim,CA(US) . 2004

机译：通过BOLTZMANN运输方程建模纳米尺度的热运输
5. Phonon Boltzmann Transport Equation (BTE) Based Modeling of Heat Conduction in Semiconductor Materials at Sub-Micron Scales. [D] . Ali, Syed Ashraf. 2017

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6. SOLUTION OF THE BOLTZMANN-HILBERT INTEGRAL EQUATION II. THE COEFFICIENTS OF VISCOSITY AND HEAT CONDUCTION [O] . Chaim L. Pekeris, Zipora Alterman 1957

机译：BOLTZMANN-HILBERT积分方程的解II。粘度和导热系数
7. A ballistic-diffusive heat conduction model extracted from Boltzmann transport equation [O] . Mingtian Xu, Haiyan Hu 2011

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

机译：用声子Boltzmann输运方程进行纳米级传热。

The modeling of nanoscale heat conduction by Boltzmann transport equation

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