Advanced search
Publication Cover
Numerical Heat Transfer, Part A: Applications
An International Journal of Computation and Methodology
Volume 63, 2013 - Issue 9
Submit an article Journal homepage
552
Views
28
CrossRef citations to date
0
Altmetric
Original Articles

Thermal Performance Enhancement of Microchannel Heat Sinks with Sintered Porous Media

Tu-Chieh Hung Department of Mechanical Engineering, R.O.C Military Academy, Kaohsiung, Taiwan, Republic of China
&
Wei-Mon Yan Department of Greenergy, National University of Tainan, Tainan, Taiwan, Republic of ChinaCorrespondence[email protected]
Pages 666-686 | Received 29 Sep 2012, Accepted 03 Nov 2012, Published online: 14 Feb 2013

REFERENCES

  • D. B. Tuckerman and R. F. W. Pease , High-Performance Heat Sinking for VLSI , IEEE Electron Device Letter, EDL-2 , pp. 126 – 129 , 1981 .
  • W. Qu and I. Mudawar , Experimental and Numerical Study of Pressure Drop and Heat Transfer in a single-Phase Micro-Channel Heat Sink , Int. J. of Heat Mass Transfer , vol. 45 , pp. 2549 – 2565 , 2002 .
  • J. Li , G. P. Peterson , and P. Cheng , Three-Dimensional Analysis of Heat Transfer in a Micro Heat Sink with Single Phase Flow , Int. J. of Heat Mass Transfer , vol. 47 , pp. 4215 – 4231 , 2004 .
  • P. Seng Lee and S. V. Garimella , Thermally Developing Flow and Heat Transfer in Rectangular Microchannels of Different Aspect Ratios , Int. J. of Heat Mass Transfer , vol. 49 , pp. 3060 – 3067 , 2006 .
  • J. T. Liu , X. F. Peng , and W. M. Yan , Numerical Study of Fluid Flow and Heat Transfer in Microchannel Cooling Passages , Int. J. of Heat Mass Transfer , vol. 50 , pp. 1855 – 1864 , 2007 .
  • J. Li and G. P. Peterson , 3-Dimensional Numerical Optimization of Silicon-Base High Performance Parallel Microchannel Heat Sink with Liquid Flow , Int. J. of Heat Mass Transfer , vol. 50 , pp. 2895 – 2904 , 2007 .
  • C. W. Chen , J. Lee , and H. S. Kou , Optimal Thermal Design of Microchannel Heat Sinks by the Simulated Annealing Method , Int. Comm. in Heat and Mass Transfer , vol. 35 , pp. 980 – 984 , 2008 .
  • R. Chein and J. Chen , Numerical Study of the Inlet/Outlet Arrangement Effect on Microchannel Heat Sink Performance , Int. J. of Therm. Sci. , vol. 48 , pp. 1627 – 1638 , 2009 .
  • T. C. Hung , W. M. Yan , X. D. Wang , and C. Y. Chang , Heat Transfer Enhancement in Microchannel Heat Sinks using Nanofluids , Int. J. Heat Mass Transfer , vol. 55 , pp. 2559 – 2570 , 2012 .
  • P. F. Eng and P. F. Nithiarasu , Numerical Investigation of an Electroosmotic Flow (EOF)-Based Microcooling System , Numerical Heat Transfer, Part B: Fundamentals , vol. 56 , no. 4 , pp. 275 – 292 , 2009 .
  • T. Bello-Ochende , J. P. Meyer , and F. U. Ighalo , Combined Numerical Optimization and Constructal Theory for the Design of Microchannel Heat Sinks , Numer. Heat Transfer A , vol. 58 , no. 11 , pp. 882 – 899 , 2010 .
  • A. Kubilay , S. Zimmermann , I. Zinovik , B. Michel , and D. Poulikakos , Compact Thermal Model for the Transient Temperature Prediction of a Water-Cooled Microchip Module in Low Carbon Emission Computing, Numer. Heat Transfer A , vol. 59, no. 11, pp. 815–835, 2011.
  • T. C. Hung and W. M. Yan , Optimization of a Microchannel Heat Sink with Varying Channel Heights and Widths , Numer. Heat Transfer A , vol. 62 , pp. 722 – 741 , 2012 .
  • T. C. Hung , W. M. Yan , X. D. Wang , and Y. X. Huang , Optimal Design of Geometric Parameters of Double-Layered Microchannel Heat Sinks , Int. J. of Heat Mass Transfer , vol. 55 , pp. 3262 – 3272 , 2012 .
  • Z. H. Wang , X. D. Wang , W. M. Yan , Y. Y. Duan , and D. J. Lee , Multi-Parameters Optimization for Microchannel Heat Sink using Inverse Problem Method , Int. J. of Heat Mass Transfer , vol. 54 , pp. 2811 – 2819 , 2011 .
  • K. K. Ambatipudi and M. M. Rahman , Analysis of Conjugate Heat Transfer in Microchannel Heat Sinks , Numerical Heat Transfer , vol. 37 , pp. 711 – 731 , 2000 .
  • S. J. Kim , Method for Thermal Optimization of Microchannel Heat Sinks , Heat Transfer Eng. , vol. 25 , pp. 37 – 49 , 2004 .
  • J. Li and G. P. Peterson , Geometric Optimization of a Micro Heat Sink with Liquid Flow , IEEE Transactions on Components and Packaging Tech. , vol. 29 , no. 1 , pp. 145 – 154 , 2006 .
  • H. Al-Bakhit and A. Fakheri , Numerical Simulation of Heat Transfer in Simultaneously Developing Flows in Parallel Rectangular Ducts , Appl. Therm. Eng. , vol. 26 , pp. 596 – 603 , 2006 .
  • T. Bello-Ochende , L. Liebenberg , and J. P. Meyer , Constructal Cooling Channels for Microchannel Heat Sinks , Int. J. of Heat and Mass Transfer , vol. 50 , pp. 4141 – 4150 , 2007 .
  • H. S. Kou , J. J. Lee , and C. W. Chen , Optimum Thermal Performance of Microchannel Heat Sink by Adjusting Channel Width and Height , Int. Comm. in Heat and Mass Transfer , vol. 35 , pp. 577 – 582 , 2008 .
  • R. Singh , A. Akbarzadeh , and M. Mochizuki , Sintered Porous Heat Sink for Cooling of High-Powered Microprocessors for Server Applications , Int. J. of Heat and Mass Transfer , vol. 52 , pp. 2289 – 2299 , 2009 .
  • Y. Ould-Amer , S. Chikh , K. Bouhadef , and G. Lauriat , Forced Convection Cooling Enhancement by use of Porous Materials , Int. J. of Heat and Fluid Flow , vol. 19 , no. 3 , pp. 251 – 258 , 1998 .
  • V. V. Calmidi and R. L. Mahajan , Forced Convection in High Porosity Metal Foams , ASME J. Heat Transfer , vol. 122 , pp. 557 – 565 , 2000 .
  • Y. T. Yang and C. Z. Hwang , Calculation of Turbulent Flow And Heat Transfer in a Porous-Baffled Channel , Int. J. of Heat and Mass Transfer , vol. 46 , no. 5 , pp. 771 – 780 , 2003 .
  • P. X. Jiang , L. Meng , T. J. Lu , L. Yu , and Z. P. Ren , Experimental Research on Convection Heat Transfer in Sintered Porous Plate Channels , Int. J. of Heat and Mass Transfer , vol. 47 , no. 10–11 , pp. 2085 – 2096 , 2004 .
  • P. X. Jiang , M. Li , Y. C. Ma , and Z. P. Ren , Boundary Conditions and Wall Effect for Forced Convection Heat Transfer in Sintered Porous Plate Channels , Int. J. of Heat and Mass Transfer , vol. 47 , no. 10–11 , pp. 2073 – 2083 , 2004 .
  • G. Hetsroni , M. Gurevich , and R. Rozenblit , Sintered Porous Medium Heat Sink for Cooling of High-Power Mini-Devices , Int. J. of Heat and Fluid Flow , vol. 27 , no. 2 , pp. 259 – 266 , 2005 .
  • S. C. Tzeng , W. Y. Jywe , C. W. Lin , and Y. C. Wang , Mixed Convection Heat-Transfers in a Porous Channel with Sintered Copper Beads , Appl. Energy , vol. 81 , no. 1 , pp. 19 – 31 , 2005 .
  • G. Hetsroni , M. Gurevich , and R. Rozenblit , Sintered Porous Medium Heat Sink for Cooling of High-Power Mini-Devices , Int. J. of Heat and Fluid Flow , vol. 27 , pp. 259 – 266 , 2006 .
  • A. Haji-Sheikh , D. A. Nield , and K. Hooman , Heat Transfer in the Thermal Entrance Region for Flow Through Rectangular Porous Passages, Int. J. of Heat and Mass Transfer , vol. 49, pp. 3004–3015, 2006.
  • S. C. Tzeng and T. M. Jeng , Interstitial Heat Transfer Coefficient and Dispersion Conductivity in Compressed Metal foam Heat Sinks , ASME J. Electron. Pack. , vol. 129 , pp. 113 – 114 , 2007 .
  • K. Hooman , Heat and Fluid Flow in a Rectangular Microchannel Filled with a Porous Medium , Int. J. of Heat and Mass Transfer , vol. 51 , pp. 5804 – 5810 , 2008 .
  • N. Yucel and R. T. Guven , Numerical Study of Heat Transfer in a Rectangular Channel with Porous Covering Obstacles , Transport Porous Media , vol. 77 , pp. 41 – 58 , 2009 .
  • A. Zehforoosh and S. Hossainpour , Numerical Investigation of Pressure Drop Reduction without Surrendering Heat Transfer Enhancement in Partially Porous Channel , Int. J. of Therm. Sci. , vol. 49 , 1649e – 1662 , 2010 .
  • T. M. Jeng , S. C. Tzeng , and F. Z. Tang , Fluid Flow and Heat Transfer Characteristics of the Porous Metallic Heat Sink with a Conductive Cylinder Partially Filled in a Rectangular Channel , Int. J. of Heat and Mass Transfer , vol. 53 , pp. 4216 – 4227 , 2010 .
  • G. Venugopal , C. Balaji , and S. P. Venkateshan , Experimental Study of Mixed Convection Heat Transfer in a Vertical Duct Filled with Metallic Porous Structures , Int. J. of Therm. Sci. , vol. 49 , pp. 340 – 348 , 2010 .
  • C. G. Aguilar-Madera , F. J. Valdés-Parada , B. Goyeau , and J. A. Ochoa-Tapia , Convective Heat Transfer in a Channel Partially Filled with a Porous Medium , Int. J. of Therm. Sci. , vol. 50 , pp. 1355 – 1368 , 2011 .
  • I. A. Badruddin , A. A. Al-Rashed , N. J. Salman Ahmed , and S. Kamangar , Investigation of Heat Transfer in Square Porous-Annulus , Int. J. of Heat and Mass Transfer , vol. 55 , pp. 2184 – 2192 , 2012 .
  • Z. M. Wan , J. Liu , K.L. Su , X. H. Hu , and S.S. M. , Flow and Heat Transfer in Porous Micro Heat Sink for Thermal Management of High Power LEDs , Microelectronics J. , vol. 42 , pp. 632 – 637 , 2011 .
  • S. V. Patankar , Numerical Heat Transfer and Fluid Flow , Hemisphere , New York , 1980 .
  • R. W. Knight , D. J. Hall , J. S. Goodling , and R. C. Jaeger , Heat Sink Optimization with Application to Micro Channels , IEEE Transactions on Components Hybrids and Manufacturing Tech. , vol. 15 , pp. 832 – 842 , 1992 .
  • S. Ergun , Fluid Flow Through Packed Columns , Chem. Eng. Progress , vol. 48 , pp. 89 – 94 , 1952 .

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Order Reprints Request Corporate Permissions

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

Request Academic Permissions

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.