Single-Phase Liquid Flow in Minichannels and Microchannels

Heat Transfer and Fluid Flow in Minichannels and Microchannels

Volumn , Issue , 2006, Pages 87-136

  Kandlikar, Satish G ^a  

^a Rochester Institute of Technology   (United States)

Author keywords

[No Author keywords available]

Indexed keywords

EID: 81355145575     PISSN: None     EISSN: None     Source Type: Book    
DOI: 10.1016/B978-008044527-4/50005-0     Document Type: Chapter

References (56)

1. Adams T.M., Abdel-Khalik S.I., Jeter M., Qureshi Z.H. An experimental investigation of single-phase forced convection in microchannels. Int. J. Heat. Mass Trans. 1997, 41(6-7):851-857.
2. ASME Standard B46. 1-2002, Surface Texture (Surface Roughness, Waviness, and Lay), The American Society of Mechanical Engineers, An American National Standard, (ASME B46, 1-2002) 1-98.
3. Baviere R., Avela F. First local measurement in microchannels with integrated micromachined strain gauges. Paper No. ICMM2004-2406, Second International Conference on Microchannels and Minichannels 2004, 221-228.
4. Baviere R., Ayela F., Le Person S., Favre-Marinet M. An experimental study of water flow in smooth and rough rectangular microchannels. Paper No. ICMM2004-2338, Second International Conference on Microchannels and Minichannels 2004, 221-228.
5. Bergles A.E., Lienhard J.H., V Kendall G.E., Griffith P. Boiling and condensation in small diameter channels. Heat Transfer Eng. 2003, 24:18-40.
6. Bucci A., Celata G.P., Cumo M., Serra E., Zummo G. Water single-phase fluid flow and heat transfer in capillary tubes. International Conference on Microchannels and Minichannels. Paper # 1037 2004, 221-228. ASME.
7. Bucci A., Celata G.P., Cumo M., Serra E., Zummo G. Water single-phase fluid flow and heat transfer in capillary tubes. International Conference on Microchannels and Minichannels. Paper # 1037 2004, 319-326. ASME.
8. Celata G.P., Cumo M., Guglielmi M., Zummo G. Experimental investigation of hydraulic and single phase heat transfer in 0.130 mm capillary tube. Microscale Thermophys. Eng. 2002, 6:85-97.
9. Chen R.Y. Flow in the entranceregion at low Reynolds numbers. J. Fluid. Eng. 1972, 95:153-158.
10. Colgan E.G., Furman B., Gaynes M., Graham W., LaBianca N., Magerlein J.H., Polastre R.J., Rothwell M.B., Bezama R.J., Choudhary R., Martson K., Toy H., Wakil J., Zitz J., Schmidt R. A practical implementation of silicon microchannel coolers for high power chips. Invited Paper presented at IEEE-Semi-Therm 21 March 15-17, 2005.
11. Curr R.M., Sharma D., Tatchell D.G. Numerical predictions of some three-dimensional boundary layers in ducts. Comput. Method. Appl. Mech. Eng. 1972, 1:143-158.
12. Darcy H. Recherches experimentales relatives aumovement de L'Eau dans les Tuyaux 1857, Mallet-Bachelier, Paris, France.
13. Fanning J.T. A practical treatise on hydraulic and water supply engineering 1886, Van Nostrand, New York. revised edition of 1877.
14. Gad-el-Hak M. The fluid mechanics of microdevices. J. Fluid. Eng. 1999, 121:7-33.
15. Gamrat G., Favre-Marinet M., Asendrych D. Numerical modeling of heat transfer in rectangular microchannels. Paper No. ICMM2004-2336, ASME, Second International Conference on Microchannels and Minichannels 2004, 205-212.
16. Garimella S.V., Singhal V. Single-phase flow and heat transport and pumping considerations in micr ochannel heat sinks. Heat Trans. Eng. 2004, 25(1):15-25.
17. Gnielinski V. New equations for heat and mass transfer in turbulent pipe and channel flow. Int. Chem. Eng. 1976, 16:359-368.
18. Harpole G., Eninger J.E. Micro-channel heat exchanger optimization. Proceedings-IEEE Semiconductor Thermal and Temperature Measurement Symposium Feb, 1991, 59-63.
19. Hartnett J.P., Koh J.C.Y., McComas S.T. A comparison of predicted and measured friction factors for turbulent flow through rectangular ducts. J. Heat Trans. 1962, 84:82-88.
20. Hornbeck R.W. Laminar flow in the entrance region of a pipe. Appl. Sci. Res. 1964, 13:224-232.
21. Jones O.C. An improvement in the calculation of turbulent friction in rectangular ducts. J. Fluid. Eng. 1976, 98:173-181.
22. Judy J., Maynes D., Webb B.W. Characterization of frictional pressure drop for liquid flows through microchannels. Int. J. Heat Mass Trans. 2002, 45:3477-3489.
23. Kakac S., Shah R.K., Aung W. Handbook of Single-Phase Convective Heat Transfer 1987, John Wiley and Sons, Inc., New York.
24. Kandlikar S.G. High heat flux removal with microchannels-A roadmap of challenges and opportunities. Heat Trans. Eng. 2005, 26(8).
25. Kandlikar S.G., Grande W.J. Evaluation of single-phase flow in microchannels for high flux chip cooling-thermohydraulic performance enhancement and fabrication technology. Heat Trans. Eng. 2004, 25(8):5-16.
26. Kandlikar S.G., Joshi S., Tian S. Effect of surface roughness on heat transfer and fluid flow characteristics at low Reynolds numbers in small diameter tubes. Heat Trans. Eng. 2003, 24(3):4-16.
27. Kandlikar S.G., Upadhye H.R. Extending the heat flux limit with enhanced microchannels in direct single-phase cooling of computer chips. Invited Paper presented at IEEE-Semi-Therm March 15-17, 2005, 21. San Jose.
28. Kandlikar S.G., Schmitt D., Carrano A.L., Taylor J.B. Characterization of surface roughness effects on pressure drop in single-phase flow in minichannels. Phys. Fluid. 2005, 17. (accepted).
29. Kays W.M., London A.L. Compact Heat Exchangers 1984, McGraw-Hill, New York, NY.
30. Kishimoto T., Sasaki S. Cooling characteristics of diamond-shaped interrupted cooling fins for high power LSI devices. Electron. Letter. 1987, 23(9):456-457.
31. Knight R.W., Hall D.J., Goodling J.S., Jaeger R.C. Heat sink optimization with application to microchannels. IEEE Transactions on Components, Hybrids, and Manufacturing Technology 1992, 15(5):832-842.
32. Koo J., Kleinstreuer C. Analyses of liquid flow in micro-conduits. Paper No. ICMM2004-2334. ASME, Second International Conference on Microchannels and Minichannels 2004, 191-198.
33. Li Z.X., Du D.X., Guo Z.Y. Experimental study on flow characteristics of liquid in circular microtubes. Proceeding of the International Conference on Heat Transfer and Transport Phenomena in Microscale 2000, 162-167.
34. Mises R.v. Elemente der Technischen Hydrodynamik 1944, B. G. Teubner, Leipzig.
35. Moody L.F. Friction factors for pipe flow. ASME Transactions 1944, 66:671-683.
36. Niklas M., Favre-Marinet M. Pressure losses in a network of triangular minichannels. ASME Paper No. ICMM2003-1039, First International Conference on Microchannels and Minichannels 2003, 335-350.
37. Nikuradse J. Strommungsgesetze in Rauen Rohren, VDI-Forschungsheft 361. Belige zu Forschung auf dem Gebiete des Ingenieur wesens Ausage B July/August 1933, Band 4. English Translation.
38. Nikuradse J. Laws of flow in rough pipes. NACA Tech. Mem. 1937, 1292.
39. Phillips R.J. Forced convection, liquid cooled, microchannel heat sinks. MS Thesis 1987, Department of Mechanical Engineering, Massachusetts Institute of Technology, Cambridge, MA.
40. Phillips R.J. Microchannel heat sinks. Advances in Thermal Modeling of Electronic Components and Systems 1990, Chapter 3. Hemisphere Publishing Corporation, New York, NY.
41. Ryu J.H., Choi D.H., Kim S.J. Numerical optimization of the thermal performance of a microchannel heat sink. Int. J. Heat Mass Trans. 2002, 45:2823-2827.
42. Schmitt D.J., Kandlikar S.G. Effects of repeating microstructures on pressure drop in rectangular minichannels. Paper No. ICMM2005-75111, ASME. Third International Conference on Microchannels and Minichannels June 13-15, 2005.
43. Shah R.K., London A.L. Laminar Flow Forced Convection in Ducts, Supplement 1 to Advances in Heat Transfer 1978, Academic Press, New York.
44. Shen P., Aliabadi S.K., Abedi J. A review of single-phase liquid flow and heat transfer in microchannels. Paper ICMM2004-2337, ASME, Second International Conference on Microchannels and Minichannels 2004, 213-220.
45. Steinke M.E. Characterization of single-phase fluid flow and heat transfer in plain and enhanced silicon microchannels. PhD Thesis 2005, Microsystems Engineering, Rochester Institute of Technology, Rochester, NY.
46. Steinke M.E., Kandlikar S.G. Single-phase enhancement techniques in microchannel flows. Paper No. ICMM2004-2328, ASME, Second International Conference on Microchannels and Minichannels June 17-19, 2004.
47. Steinke M.E., Kandlikar S.G. Single-phase liquid friction factors in microchannels. Paper No. ICMM2005-75112, ASME. Third International Conference on Microchannels and Minichannels June 13-15, 2005.
48. Steinke M.E., Kandlikar S.G. Review of single-phase liquid heat transfer in microchannels. Paper No. ICMM2005-75114, ASME, Third International Conference on Microchannels and Minichannels June 13-15, 2005.
49. Steinke M.E., Kandlikar S.G. Development of an experimental facility for investigating singlephase liquid flow in microchannels. Paper No. ICMM2005-75070, ASME, Third International Conference on Microchannels and Minichannels June 13-15, 2005.
50. Tu X., Hrnjak P. Experimental investigation of single-phase flow and pressure drop through rectangular microchannels. ASME, ICMM2003-1028, First International Conference on Microchannels and Minichannels 2003, 257-267.
51. Tuckerman D.B., Pease R.F.W. High performance heat sink for VLSI. IEEE Electron Dev. Lett. EDL 1981, 2(5):126-129.
52. Tuckerman D.B. Heat transfer microstructures for integrated circuits. PhD Thesis 1984, Stanford University, Stanford, CA.
53. Webb R.L., Eckert E.R.G., Goldstein R.J. Heat transfer and friction in tubes with repeated-rib roughness. Int. J. Heat and Mass Trans. 1971, 14:601-617.
54. Wibulswas P. Laminar flow heat transfer in non-circular ducts. PhD Thesis 1966, London University, London, UK.
55. Xu B., Ooi K.T., Wong N.T., Choi W.K. Experimental investigation of flow friction for liquid flow in microchannels. Int. Com. Heat Mass Trans. 2000, 27(8):1165-1176.
56. Yu D., Warrington R., Barron R., Ameel T. An experimental investigation of fluid flow and heat transfer in microtubes. Proceedings of the ASME/JSME Thermal Engineering Conference 1995, 1:523-530. ASME.