How does surface wettability influence nucleate boiling?

[1] Fritz, W. Maximum volume of vapour bubbles, Phys. Z., Volume 36 (1935), pp. 379-384

[2] Wang, C.H.; Dhir, V.K. Effect of surface wettability on active nucleate site density during pool boiling of water on a vertical surface, Trans. ASME J. Heat Transfer, Volume 115 (1993), pp. 670-679

[3] Kandlikar, S.G. A theoretical model to predict pool boiling FC incorporating effects of contact angle and orientation, J. Heat Transfer, Volume 123 (2001), pp. 1071-1079

[4] B. Truong, L.W. Hu, J. Buongiorno, Surface modifications using nanofluids for nucleate boiling heat transfer, ICNMM2008-62085, Darmstadt, Germany, 2008

[5] Buyevich, Y.A.; Webbon, B.W. Dynamics of vapour bubbles in nucleate boiling, Int. J. Heat Mass Transfer, Volume 39 (1996), pp. 2409-2426

[6] Wen, D.S.; Wang, B.X. Effects of surface wettability on nucleate pool boiling heat transfer for surfactant solutions, Int. J. Heat Mass Transfer, Volume 45 (2002), pp. 1739-1747

[7] Griffith, P.; Wallis, J.D. The role of surface conditions in nucleate boiling, Chem. Eng. Prog. Symp. Ser., Volume 56 (1960), pp. 49-63

[8] R.F. Gaertner, Methods and means for increasing the heat transfer coefficient between a wall and boiling liquid, U.S. Patent 3,301,314 (1967)

[9] R.L. Hummel, Means for increasing the heat transfer coefficient between a wall and boiling liquid, U.S. Patent 3,207,209 (1965)

[10] Vachon, R.I.; Nix, G.H.; Tanger, G.E. Evaluation of constants for the Rohsenow pool-boiling correlation, J. Heat Transfer, Volume 90 (1968), pp. 239-247

[11] Johnathan, S.C.; Kim, J. Nanofluid boiling: The effect of surface wettability, Int. J. Heat Mass Transfer, Volume 29 (2008), pp. 1577-1585

[12] Takata, Y.; Hidaka, S.; Cao, J.M.; Nakamura, T.; Yamamoto, H.; Masuda, M.; Ito, T. Effect of surface wettability on boiling and evaporation, Energy, Volume 30 (2005), pp. 209-220

[13] Mitrovic, J. Formation of a liquid jet after detachment of a vapour bubble, Int. J. Heat Mass Transfer, Volume 40 (1997), pp. 4309-4317

[14] Bankoff, S.G. Ebullition from solid surfaces in the absence of a pre-existing gaseous phase, Trans. Am. Mech. Eng., Volume 79 (1957), pp. 735-740

[15] Kim, H.; Kim, M. Effect of nanoparticle deposition on capillary wicking that influences the critical heat flux in nanofluids, Appl. Phys. Lett., Volume 91 (2007), p. 014104