平板通道内填充多孔物块的优化换热分析被引量：1

Optimal Analysis of Heat Transfer in Parallel Plate Channels with Porous Blocks

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摘要采用数值模拟的方法,对恒热流壁面平板通道填充多孔物块的流动换热进行了相关研究,分别采用Brinkman-Forchheimer-Darcy流动模型和局部热平衡模型描述多孔介质内的流动和换热,重点研究了多孔物块的填充位置和物块高度对流动换热的影响.结果表明:当多孔物块在纵向上位于通道中心区域时,强化传热效果最好;随着填充多孔物块高度的增加,壁面Num数呈现先增大后减小的趋势,但流动阻力系数却不断增大. The flow and heat transfer of the Parallel Plate Channel with constant heat-flux walls filled with porous blocks was relevantly studied by the numerical simulation method. By using the Brinkman-Forchheimer-Darcy flow model and the local thermal equilibrium model, the flow and heat transfer in porous blocks was described, and the impact of the position of porous blocks and height of porous blocks on the flow and heat transfer was mainly studied. The results show that when porous blocks are longitudinally located in the central part of the channel, the heat transfer is maximized, and that with the increase of the height of porous blocks, the average Nu number on the inside wall increases at first and then decreases, butthe flow resistance coefficient continually increases.

作者杨雯瑾王刚郭玉龙马兵善马文强

机构地区兰州理工大学土木工程学院

出处《甘肃科学学报》 2014年第3期78-81,共4页 Journal of Gansu Sciences

关键词多孔物块强制对流数值模拟 Porous blocks Forced convection Numerical simulation

分类号 TK12 [动力工程及工程热物理—工程热物理]

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参考文献3

1赵冰超,王良璧.等热流边界条件下扭曲方管内流动与传热特性数值分析[J].甘肃科学学报,2012,24(1):27-31. 被引量：2
2王魏威.分形多孔介质内导热与流动数值模拟研究[D].北京:中国科学院研究生院,2006.
3张红军,邹正平,叶建,刘火星.多孔材料填充方式对通道传热效果影响的数值研究[J].核动力工程,2011,32(5):83-88. 被引量：2

二级参考文献16

1孙东亮,王良璧.含扭曲带管内流动与传热的数值模拟[J].化工学报,2004,55(9):1422-1427. 被引量：15
2杨昆,刘伟.管内层流充分发展段等效热边界层的构造及其场协同分析[J].工程热物理学报,2007,28(2):283-285. 被引量：19
3刘伟杨昆.管内核心流强化传热的机理与数值分析.中国科学E,2008,51(8):1073-1314.
4Bejan A, Kraus A D. Heat Transfer Handbook[M]. New Jersey: John Wiley & Sons, 2003.
5Webb R L. Principles of Enhanced Heat Transfer[M]. New York: John Wiley, 1994.
6Lu W, Zhao C Y, Tassou S A. Thermal Analysis on Metal- foam Filled Heat Exchangers. Part I : METAL-Foam Filled Pipes[J]. International Journal of Heat and Mass Transfer. 2006. 49(15/16): 2751-2761.
7Pavel B I, Mohamad A A. An Experimental and Numeri- cal Study on Heat Transfer Enhancement for Gas Heat Exchangers Fitted with Porous Media[J]. International Journal of Heat and Mass Transfer, 2004, 47(23): 4939- 4952.
8Jiang P X, PEN Z P, Wang B X. Numerical Simulation of Forced Convection Heat Transfer in Porous Plate Chan- nels Using Thermal Equilibrium and Nonthermal Equi- librium Models[J]. Numerical Heat Transfer. Part A, 1999, 35(1): 99-113.
9Rhie C M, Chow W L. A Numerical Study of the Turbu- lent Flow Past an Isolated Airfoil with Trailing Edge Separation[J]. AIAA J, 1983, 21(11): 1526-1532.
10Ergun S. Fluid Flow Through PaCked Columns[J]. Chem- ical Engineering Progress, 1952, 48: 89-94.

共引文献4

1马小晶,崔来建,胡申华.扰流子结构对管内换热影响的三维数值研究[J].新疆大学学报（自然科学版）,2013,30(1):115-119.
2张尉然,赵斌.多孔介质强迫对流换热及研究进展[J].河北理工大学学报（自然科学版）,2009,31(4):11-13. 被引量：3
3郭玉龙,王刚,牛凯杰,马兵善.两种修正达西模型对平板通道内流动换热的影响[J].甘肃科学学报,2014,26(1):109-112.
4赵骥,樊宝炜,朱科钤,坎标,袁宁一,丁建宁.气悬浮式超薄玻璃物理钢化加热仓结构设计与分析[J].机械设计与研究,2015,31(6):48-53. 被引量：1

同被引文献15

1过增元.换热器中的场协同原则及其应用[J].机械工程学报,2003,39(12):1-9. 被引量：110
2卢天健,何德坪,陈常青,赵长颖,方岱宁,王晓林.超轻多孔金属材料的多功能特性及应用[J].力学进展,2006,36(4):517-535. 被引量：247
3钟勋.氧化铝纳米流体在发动机油冷器中的强化传热研究[D].杭州:浙江大学,2010.
4Mohamad A A. Heat Transfer Enhancement in Heat Exchangers Fitted with Porous Media Part I : Constant Wall Temperature [ J ].Thermal Sciences,2003,42 (4) : 385 - 395.
5Bejan A E ,Kraus A D. Heat Transfer Handbook[ M]. New Jersey: John Wiley and Sons,2003.
6W Liu, K Yang, A. Nakayama. Enhancing Heat Transfer in the Core Flow by Forming an Equivalent Thermal Boundary Layer in the Fully Developed Tube Flow[ C ]. 6th Int. Conf. on Enhanced, Compact and Ultra-Compact Heat Exchangers. Potsolam, Germany, 2007.
7Mastaneh H, Asghar M D. Mixed-convectionflow of A12 03 - H20 nanofluid in a channel partially filled with porous metal foam: Ex- perimental and numerical study [ J ]. Experimental Thermal and Fluid Science,2013,53(2) : 49 -56.
8Raed A M. A Mohammed. Review of Convection Heat Transfer and Fluid Flow in Porous Media with Nanofluid [ J ]. Renewable and Sustainable Energy Reviews,2015,41 (C) : 715 -734.
9Bhattacharya A, Calmidi V V, Mahajan R L. ThermophysicalProp- erties of High Porosity Metal Foams [ J ]. International Journal of Heat and Mass Transfer, 2002,45 ( 5 ) : 1017 - 1031.
10Sauret E,Hooman K. ParticleSize Distribution Effects on Preferential Deposition Areas in Metal Foam Wrapped Tube Bundle[J]. Interna- tional Journal of Heat and Mass Transfer,2014,79:905 -915.

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1孙斌,刘阳.纳米流体在泡沫金属管内强化换热的数值模拟[J].热能动力工程,2016,31(9):9-14.

1郭玉龙,王刚,牛凯杰,马兵善.两种修正达西模型对平板通道内流动换热的影响[J].甘肃科学学报,2014,26(1):109-112.
2华亮.带涡产生器的平板通道中空气换热特性研究[J].机电技术,2014,37(2):18-20.
3李志信,桂业伟,过增元.等温竖平板通道自然对流换热优化的实验与理论研究[J].工程热物理学报,1989,10(4):433-435.
4唐玉峰,田茂诚,张冠敏,姜波.平行平板通道内置螺旋线圈流动传热特性[J].中国电机工程学报,2011,31(2):55-61. 被引量：11
5陆犇,李凌波,姜培学,李崇权.气膜冷却平板通道的数值模拟[J].热能动力工程,2005,20(4):411-413. 被引量：3
6明廷臻,周程,刘伟.管内填充环状金属多孔介质强化传热优化分析[J].武汉理工大学学报,2011,33(3):62-66. 被引量：9
7李光熙,陶文铨,宇波,李增耀.平板通道内充分发展湍流直接数值模拟[J].工程热物理学报,2004,25(6):1031-1033. 被引量：3
8杨骁,刘雪梅.多孔介质平板通道发展传热中非局部热平衡时的温度分布特征[J].应用数学和力学,2006,27(8):978-986. 被引量：5
9唐桂华,何雅玲,伍华荣,陶文铨.二维平板通道中流动与传热的格子-Boltzmann模拟[J].工程热物理学报,2003,24(6):995-997. 被引量：3
10俞接成,李志信.平板通道振荡流动强化轴向导热的数值研究[J].工程热物理学报,2005,26(1):131-133. 被引量：9

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