Extended Graetz Problem Including Axial Conduction and Viscous Dissipation in Microtube

Ho-Eyoul Jeong; Jae-Tack Jeong

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Extended Graetz Problem Including Axial Conduction and Viscous Dissipation in Microtube

机译：扩展的Graetz问题，包括微管中的轴向传导和粘性耗散

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Extended Graetz problem in microtube is analyzed by using eigenfunction expansion to solve the energy equation. For the eigenvalue problem we applied the shooting method and Galerkin method. The hydrodynamically isothermal developed flow is assumed to enter the microtube with uniform temperature or uniform heat flux boundary condition. The effects of velocity and temperature jump boundary condition on the microtube wall, axial conduction and viscous dissipation are included. From the temperature field obtained, the local Nusselt number distributions on the tube wall are obtained as the dimensionless parameters (Peclet number, Knudsen number, Brinkman number) vary. The fully developed Nusselt number for each boundary condition is obtained also in terms of these parameters.

机译：通过本征函数展开法求解能量方程，分析了微管中的扩展Graetz问题。对于特征值问题，我们采用了射击法和伽勒金法。假定流体动力学等温展开的流以均匀的温度或均匀的热通量边界条件进入微管。包括速度和温度跃变边界条件对微管壁，轴向传导和粘性耗散的影响。从获得的温度场中，随着无量纲参数（Peclet数，Knudsen数，Brinkman数）的变化，获得了管壁上的局部Nusselt数分布。还根据这些参数获得了每个边界条件的完全发展的努塞尔数。

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《Journal of Mechanical Science and Technology》 |2006年第1期|共9页
作者
Ho-Eyoul Jeong; Jae-Tack Jeong;
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正文语种 eng
中图分类机械学（机械设计基础理论）;
关键词
Graetz Problem; Microtube; Slip Boundary Condition; Viscous Dissipation; Axial Conduction; Eigenvalue Problem; Knudsen Number; Peclet Number; Brinkman Number;

机译：Graetz问题;微管;滑移边界条件;粘滞耗散;轴向传导;特征值问题;Knudsen数;Peclet数;Brinkman数;

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1. Extended Graetz Problem Including Axial Conduction and Viscous Dissipation in Microtube [J] . Ho-Eyoul Jeong, Jae-Tack Jeong Journal of Mechanical Science and Technology . 2006,第1期

机译：扩展的Graetz问题，包括微管中的轴向传导和粘性耗散
2. The extended Graetz problem for micro-slit geometries; analytical coupling of rarefaction, axial conduction and viscous dissipation [J] . Kalyoncu Gulce, Barisik Murat International Journal of Thermal Sciences . 2016,第Null期

机译：微缝几何的扩展Graetz问题;稀疏性，轴向传导和粘性耗散的解析耦合
3. The extended Graetz problem for a gaseous slip flow in micropipe and parallel-plate microchannel with heating section of finite length: Effects of axial conduction, viscous dissipation and pressure work [J] . Youssef Haddout, Jawad Lahjomri International Journal of Heat and Mass Transfer . 2015,第jana期

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4. SECOND LAW ANALYSIS FOR EXTENDED GRAETZ PROBLEM INCLUDING VISCOUS DISSIPATION IN MICROTUBES [C] . Arman Sadeghi, Mostafa Baghani, Mohammad Hassan Saidi International conference on nanochannels, microchannels and minichannels;ICNMM2010 . 2011

机译：扩展的格氏问题（包括微管中的粘性耗散）的第二定律分析
5. ANALYSIS OF HEAT TRANSFER, INCLUDING AXIAL-CONDUCTION, FOR LAMINAR TUBE FLOW WITH ARBITRARY CIRCUMFERENTIAL WALL HEAT FLUX [D] . FAGHRI, MOHAMMAD. 1974

机译：任意周向壁热通量的层流流动的传热分析，包括轴传导
6. Heat Transfer Investigation of Air Flow in Microtubes—Part II: Scale and Axial Conduction Effects [O] . Ting-Yu Lin, Satish G. Kandlikar -1

机译：微管中空气流的传热研究第二部分：水垢和轴向传导效应
7. The extended Graetz problem for micro-slit geometries; analytical coupling of rarefaction, axial conduction and viscous dissipation [O] . Kalyoncu Gülce, Barışık Murat 2016

机译：微缝几何的扩展Graetz问题；稀疏性，轴向传导和粘性耗散的解析耦合

Extended Graetz Problem Including Axial Conduction and Viscous Dissipation in Microtube

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