Abstract
The subject of instability in flow boiling in microchannels is introduced in this chapter. The details of various sections are outlined.
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References
A.E. Bergles, J.H. Lienhard, G.E. Kendall, P. Griffith, Boiling and evaporation in small diameter channels. Heat Transf. Eng. 24, 1840 (2003)
M. Ozawa, H. Umekawa, K. Mishima et al., CHF in oscillatory flow boiling channels. Chem. Eng. Res. Des. 79, 389–401 (2001)
S.V. Garimella, A.S. Fleischer, J.Y. Murthy et al., Thermal challenges in next generation electronic systems. IEEE Trans. Compon. Packaging Technol. 31, 801–815 (2008)
J.A. Bour, A.E. Bergles, L.S. Tong, Review of two-phase flow instability. Nucl. Eng. Des. 25, 165–192 (1973)
M. Ishii, Study of flow instabilities in two-phase mixtures, Argonne National Laboratory Report, ANL-76-23, 1976
G. Yadigaroglu, Two-phase flow instabilities and propagation phenomena, in Thermohydraulics of Two-Phase Systems for Industrial Design and Nuclear Engineering, ed. by M. Delhaye, M. Giot, L.M. Rietmuler (Hemisphere, Washington, DC, 1981), pp. 353–403
A.E. Bergles, Review of instabilities in two-phase systems, in Two-Phase flow and Heat Transfer, ed. by S. Kakac, F. Mayinger, vol. 2 (Hemisphere, Washington, DC, 1977), pp. 382–422
M. Ledinegg, Instability of flow during natural and forced circulation. Die Warme 61, 891–898 (1938)
J. Yin, Modeling and analysis of multiphase flow instabilities, Ph.D. Thesis, Rensselaer Polytechnic Institute, 2004
T.J. Zhang, T. Tong, Y. Peles, R. Prasher et al., Ledinegg instability in microchannels. Int. J. Heat Mass Transf. 52, 5661–5674 (2009)
J. Xu, J. Zhou, Y. Gan, Static and dynamic flow instability of a parallel microchannel heat sink at high heat fluxes. Energy Convers. Manag. 46, 313–334 (2005)
S. Kakac, B. Bon, A review of two-phase flow dynamic instabilities in tube boiling systems. Int. J. Heat Mass Transf. 51, 399–433 (2008)
B.R. Fu, C. Pan, Flow pattern transition instability in a microchannel with CO2 bubbles produced by chemical reactions. Int. J. Heat Mass Transf. 48, 4397–4409 (2005)
C. Huh, J. Kim, M.H. Kim, Flow pattern transition instability during flow boiling in a single microchannel. Int. J. Heat Mass Transf. 50, 1049–1060 (2007)
M. Ozawa, S. Nakanishi, S. Ishigai, Y. Mizuta, H. Tarui, Flow instabilities in boiling channels: Part 2. Bull. JSME 22(170), 1119–1126 (1979)
Y. Ding, S. Kaka, X.J. Chen, Dynamic instabilities of boiling two-phase flow in a single horizontal channel. Exp. Therm. Fluid Sci. 11, 327–342 (1995)
J.S. Maulbetsch, P. Griffith, System-induced instabilities in forced convection flow with subcooled boiling. 3rd international heat transfer conference, Chicago, IL, vol. 4, p. 247, 1966
A.H. Stenning, T.N. Veziroglu, Flow oscillation modes in forced convection boiling, in Proceedings of the 1965 Heat Transfer and Fluid Mechanics Institute, Stanford University Press, p. 301, 1965
R.S. Thurston, J.D. Rogers, V.J. Skoglund, Pressure oscillations induced by forced convection heating of dense hydrogen. Adv. Cryogen. Eng. 12(8), 438 (1966)
A.E. Bergles, P. Goldberg, J.S. Maulbetsch, Acoustic oscillations in a high pressure single channel boiling system, in Proceedings of the Symposium Two phase Flow Dynamics, Eindhoven, vol. 1, pp. 535–550, 1967
W. Li, Z. Wu, A general correlation for evaporative heat transfer in micro/minichannels. Int. J. Heat Mass Transf. 53, 1778–1787 (2010)
W. Fritz, Maximum volume of vapor bubbles. Phys. Z 36, 379 (1935)
M.S. Plesset, S.A. Zwick, The growth of vapor bubbles in superheated liquids. J. Appl. Phys. 25(4), 493–500 (1954)
M.G. Cooper, The microlayer and bubble growth in nucleate pool boiling. Int. J. Heat Mass Transf. 12(8), 915–933 (1969)
B.B. Mikic, W.M. Rohsenow, P. Griffith, On bubble growth rates. Int. J. Heat Mass Transf. 13, 657–666 (1970)
H.K. Forster, N. Zuber, Growth of a vapor bubble in a superheated liquid. J. Appl. Phys. 25(4), 474 (1954)
D.A. Pfund, A. Shekarriz, A. Popescu, J.R. Welty, Pressure drops measurements in microchannels, in Proceedings of the MEMS, ASME DSC, vol. 66, pp. 193–198, 1998
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Saha, S.K., Celata, G.P. (2016). Introduction. In: Instability in Flow Boiling in Microchannels. SpringerBriefs in Applied Sciences and Technology(). Springer, Cham. https://doi.org/10.1007/978-3-319-23431-1_1
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DOI: https://doi.org/10.1007/978-3-319-23431-1_1
Publisher Name: Springer, Cham
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