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http://dx.doi.org/10.5916/jkosme.2011.35.6.750

Boiling Heat Transfer Characteristics of Deionized Water in Microchannel  

Lim, Tae-Woo (한국해양대학교 기관공학부)
You, Sam-Sang (한국해양대학교 기계.에너지시스템공학부)
Choi, Hyeung-Sik (한국해양대학교 기계.에너지시스템공학부)
Kim, Dong-Hyuk (한국해양대학교 기계.에너지시스템공학부)
Publication Information
Journal of Advanced Marine Engineering and Technology / v.35, no.6, 2011 , pp. 750-756 More about this Journal
Abstract
An experimental study was carried out to measure the heat transfer coefficient in flow boiling to deionized water in a microchannel having a hydraulic diameter of $500{\mu}m$. Tests were performed in the ranges of heat fluxes from 100 to 400 kW/$m^2$, vapor qualities from 0 to 0.2 and mass fluxes of 200, 400 and 600 kg/$m^2s$. From the experimental results, it is found that the measured heat transfer coefficients is independent of mass flux and quality, and is somewhat dependent of heat flux. Measured data of heat transfer are compared to a few available correlations proposed for macroscale. The previous correlations for macroscale overpredicted the flow boiling heat transfer coefficient for the test conditions considered in this work.
Keywords
Flow boiling; Heat flux; Mass flux; Microchannel; Vapor quality;
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1 A.G. Fedorov and R. Viskanta, "Three-dimensional conjugate heat transfer in the microchannel heat sink for electronic packaging", Int. J. Heat Mass Transfer vol. 43 pp. 399-15, 2000.   DOI   ScienceOn
2 W. Qu and I. Mudawar, "Analysis of three-dimensional heat transfer in microchannel heat sinks", Int. J. Heat Mass Transfer vol. 45 pp. 3973-985, 2002.   DOI   ScienceOn
3 C.Y. Zhao and T.J. Lu, "Analysis of microchannel heat sinks for electronics cooling", Int. J. Heat Mass Transfer vol. 45 pp. 4857-869, 2002.   DOI   ScienceOn
4 X.F. Peng, G.P. Peterson and B.X. Wang, "Heat transfer characteristics of water flowing through micro-channels", Experimental Heat Transfer vol. 7 pp. 265-283, 1994.   DOI   ScienceOn
5 X.F. Peng and G.P. Peterson, "Forced convection heat transfer of single-phase binary mixtures through microchannels", Experimental Thermal and Fluid Science vol. 12 pp. 98- 112, 1996.   DOI   ScienceOn
6 P.S. Lee, S.V. Garimella and D. Liu, "Investigation of heat transfer in rectangular microchannels", International Journal of Heat and Mass Transfer vol. 48 pp. 1688-1704, 2005.   DOI   ScienceOn
7 Y. Mishan, A. Mosyak, E. Pogrebnyak and G. Hetsroni, "Effect of developing flow and thermal regime on momentum and heat transfer in micro-scale heat sink", International Journal of Heat and Mass Transfer vol. 50, pp. 3100-3114, 2007.   DOI   ScienceOn
8 W. Qu andI. Mudawar, "Experimental and numerical study of pressure drop and heat transfer in a single-phase micro-channel heat sink", Int. J. Heat Mass Transfer vol. 45, pp. 2549-2565, 2002.   DOI   ScienceOn
9 Liu, D., Lee, P. -S., Garimella and S. V., "Prediction of the onset of nucleate boiling in microchannel flow". International Journal of Heat and Mass Transfer vol. 48, pp. 5134- 5149, 2005.   DOI   ScienceOn
10 Wang, G., Cheng, P., and Wu, H., "Unstable and stable flow boiling in parallel microchannels and in a single microchannel", International Journal of Heat and Mass Transfer vol. 50, pp. 4297-4310, 2007.   DOI   ScienceOn
11 S.G. Kandlikar and W.J. Grande, "Evolution of microchannel flow passages thermo-hydraulic performance and fabrication technology", Heat Transfer Eng. vol. 24, no. 1, pp. 3-17, 2003.   DOI   ScienceOn
12 S.G. Kandlikar, "Fundamental issues related to flow boiling in minichannels and microchannels", Exp. Therm. Fluid Sci. vol. 26, pp. 389-407, 2002.   DOI   ScienceOn
13 A.E. Bergles, "Boiling and evaporation in small diameter channels", Heat Transfer Engineering Microchannels-Short History and Bright Future, vol. 24, no. 1, pp. 18-40, 2003.
14 C.Y. Soong and S.H. Wang, "Theoretical analysis of electrokinetic flow and heat transfer in a microchannel under asymmetric boundary conditions", Colloid Interface Sci. vol. 265 pp. 202-13, 2003.   DOI   ScienceOn
15 X.F. Peng and B.-X. Wang, "Forced convection and flow boiling heat transfer for liquid flowing through microchannels", Int. J. Heat Mass Transfer vol. 36 no. 14, pp. 3421- 3427, 1993.   DOI   ScienceOn
16 M.W. Wambsganss et al., "Boiling heat transfer in a horizontal small-diameter tube", J. Heat Transfer Trans. ASME vol. 115 no. 4, pp. 963-972, 1993.   DOI   ScienceOn
17 Thome, J.R., "Boiling in microchannels: a review of experiment and theory". Int. J. Heat and Fluid Flow vol. 25, pp. 128-139, 2004.   DOI   ScienceOn
18 G. Hetsroni et al., "Fluid flow in microchannels", Int. J. Heat Mass Transfer vol. 48 no. 10, pp. 982-1998, 2005.
19 T.N. Tran and M.W. Wambsganss, D.M. France, "Small circular- and rectangular channel boiling with two refrigerants", Int. J. Multiphase Flow vol. 22, no. 3, pp. 485-498, 1996.   DOI   ScienceOn
20 Liu, D. and Garimella, S.V., "Flow boiling in a microchannel heat sink". In: Proceedings of ASME International Mechanical Engineering Congress and Exposition, Orlando, FL, November pp. 5-11, 2005.
21 E.W. Kreutz, N. Pirch, T. Ebert, R. Wester, B. Ollier, P. Loosen and R. Poprawe, "Simulation of micro-channel heat sinks for optoelectronic", Microsyst. Microelectron. J. vol. 31 pp. 787- 90, 2000.   DOI   ScienceOn
22 B.X. Wang and X.F. Peng, "Experimental investigation on liquid forced convection heat transfer through microchannels", International Journal of Heat and Mass Transfer vol. 37 (suppl.1) pp. 73-82, 1994.   DOI   ScienceOn
23 X.F. Peng, G.P. Peterson and B.X. "Wang, Frictional flow characteristics of water flowing through rectangular micro-channels, Experimental Heat Transfer vol. 7 pp. 249-264, 1994.   DOI   ScienceOn
24 J. Dirker, W. Liu, D. Van Wyk, J.P. Meyer and A.G. Malan, "Embedded solid state heat extraction in integrated power electronic modules", IEEE Trans. Power Electron. vol. 20, no. 3, pp. 694-703, 2005.   DOI   ScienceOn