NUMERICAL INVESTIGATION OF HEAT TRANSFER IN ROUGH MICROCHANNELS USING A KINETIC CONTINUUM SOLVER

机译：动力学连续求解器对粗糙微通道传热的数值研究

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A numerical analysis of flow and heat transfer fields in a rough microchannel is carried out using a hybrid solver dynamically coupling kinetic and Navier-Stokes solutions computed in local rarefied and continuum areas of the flow, respectively. The roughness geometry is modeled as a series of triangular obstructions and a relative roughness up to 5% of the channel height is considered. Keeping Mach number low (incompressible flow) while varying Knudsen number allow us to investigate different rarefaction levels of the flow. The competition between roughness, rarefaction and heat transfer effects is discussed in terms of averaged Nusselt and Poiseuille numbers and mass flow rate. Discrepancy between the full Navier-Stokes and hybrid solutions is investigated, assessing the range of applicability of the first order slip boundary condition for rough geometries with and without heat transfer presence.

机译：使用混合求解器动态地耦合动力学和Navier-Stokes解，分别在局部稀疏流和连续流区域中进行计算，对粗糙的微通道中的流场和传热场进行了数值分析。粗糙度几何形状被建模为一系列三角形障碍物，并且考虑到相对于通道高度的5％的相对粗糙度。保持低马赫数（不可压缩流），同时改变Knudsen数使我们能够研究流的不同稀疏度。讨论了粗糙度，稀疏度和热传递效应之间的竞争，根据平均努塞尔数和泊瓦数和质量流量进行了讨论。研究了完整的Navier-Stokes与混合解决方案之间的差异，评估了存在和不存在传热条件下的粗糙几何形状的一阶滑移边界条件的适用范围。

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《2015 Proceedings of the ASME 13th international conference on nanochannels, microchannels, and minichannels》|2015年|V001T04A003.1-V001T04A003.10|共10页
会议地点 Sun Francisco CA(US);San Francisco CA(US)
作者
Olga Rovenskaya; Giulio Croce;
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作者单位

Dorodnicyn Computing Centre of Russian Academy of Sciences Vavilova st. 40, 119 333 Moscow, Russia;

DiEM - University of Udine Udine, Italy;

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正文语种 eng
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入库时间 2022-08-26 14:27:05

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2. Numerical investigation of rarefied diatomic gas flow and heat transfer in a microchannel using DSMC with uniform heat flux boundary condition - Part I: Numerical method and validation [J] . Wang QW, Zhao CL, Zeng M, Numerical Heat Transfer, Part B. Fundamentals: An International Journal of Computation and Methodology . 2008,第1a2期

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3. Numerical investigation of rarefied diatomic gas flow and heat transfer in a microchannel using DSMC with uniform heat flux boundary condition - Part I: Numerical method and validation [J] . Wang QW, Zhao CL, Zeng M, Numerical Heat Transfer, Part B. Fundamentals: An International Journal of Computation and Methodology . 2008,第2期

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4. NUMERICAL INVESTIGATION OF HEAT TRANSFER IN ROUGH MICROCHANNELS USING A KINETIC CONTINUUM SOLVER [C] . Olga Rovenskaya, Giulio Croce ASME International Conference on Nanochannels, Microchannels, and Minichannels . 2015

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8. Numerical and Experimental Investigation of Microchannel Flows with Rough Surfaces (Postprint) (2007) [R] . Lilly, T. C. , Duncan, J. A. , Nothnagel, S. L. , 2007

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NUMERICAL INVESTIGATION OF HEAT TRANSFER IN ROUGH MICROCHANNELS USING A KINETIC CONTINUUM SOLVER

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