M. Rein, Interactions between drops and hot surfaces, Drop-Surface Interactions, pp.185-217, 2002.

H. Chaves, A. M. Kubitzek, and F. Obermeier, Dynamic processes occurring during the spreading of thin liquid films produced by drop impact on hot walls, Int. J. Heat Fluid Fl, vol.20, pp.470-476, 1999.

V. K. Dhir, Boiling heat transfer, Annu. Rev. Fluid Mech, vol.30, pp.365-401, 1998.

V. K. Dhir, Nucleate and transition boiling heat transfer under pool and external flow conditions, Int. J. Heat Fluid Fl, vol.12, pp.290-314, 1991.

T. Y. Xiong and M. C. Yuen, Evaporation of a liquid droplet on hot plate, Int. J. Heat Mass Tran, vol.34, pp.1881-1894, 1991.

Z. Tamura and Y. Tanasawa, Evaporation and Combustion of a drop contacting with a hot surface, Symp. Combust, pp.509-522, 1959.

T. Takano, T. Fujita, and K. Kobayasi, Vaporization Behavior of a Sigle Droplet Impinging on hot Surface with a Flame-Sprayed Ceramic Coating and a Pressurized Atmosphere, Heat Transfer-Jap. Res, vol.24, pp.80-97, 1995.

P. O'rourke and A. Amsden, A Spray/wall Interaction Submodel for the KIVA-3 Wall Film Model, 2000.

G. Desoutter, C. Habchi, B. Cuenot, and T. Poinsot, Single-component Liquid film evaporation model development and validation using Direct Numerical Simulation, 2006.

G. Desoutter, C. Habchi, B. Cuenot, and T. Poinsot, DNS and modeling of the turbulent boundary layer over an evaporating liquid film, Int. J. Heat Mass Tran, 2009.

Y. Iida and K. Kobayasi, Distribution of void fraction above a horizontal heating surface in pool boiling, Bull. JSME, vol.12, pp.283-290, 1969.

S. Nishio and H. Tanaka, Simplified Model Predicting Contact-Line-Length Density at Critical Heat Flux Based on Direct Observation of Boiling Structure, JSME Int. J. B-Fluid T, vol.50, pp.72-78, 2002.

V. K. Dhir and S. P. Liaw, Framework for a Unified Model for Nucleate and Transition Pool Boiling, J. Heat Trans.-T. ASME, vol.111, pp.739-746, 1989.
DOI : 10.1115/1.3250745

B. I. Nigmatulin, N. I. Vasiliev, and V. V. Guguchkin, Interaction between liquid droplets and heated surface, Warme Stoffubertragung, vol.28, pp.313-319, 1993.
DOI : 10.1007/bf01539528

R. W. Temple-pediani, Fuel drop vaporization under pressure on a hot surface, Proc. Inst. Mech. Eng, vol.184, issue.1, pp.677-696, 1969.
DOI : 10.1243/pime_proc_1969_184_053_02

P. Spiegler, J. Hopenfeld, M. Silberberg, J. Bumpus, and A. Norman, Onset of stable film boiling and the foam limit, Int. J. Heat Mass Tran, vol.6, pp.987-989, 1963.

J. H. Lienhard, Correlation for the limiting liquid superheat, Chem. Eng. Sci, vol.31, pp.847-849, 1976.
DOI : 10.1016/0009-2509(76)80063-2

G. S. Emmerson and C. W. Snoek, The effect of pressure on the leidenfrost point of discrete drops of water and freon on a brass surface, Int. J. Heat Mass Tran, vol.21, pp.1081-1086, 1978.

A. Breuer, M. Klingsporn, G. A. Schneemann, N. Wruck, and U. Renz, Experimental and Theoritical Investigation of the Phase Transition of Multicomponent Sprays and the Influence of the wall heat flux, 1993.

R. H. Chen, S. L. Chiu, and T. F. Lin, On the collision behaviors of a diesel drop impinging on a hot surface, Exp. Therm. Fluid Sci, vol.32, pp.587-595, 2207.

S. G. Kandlikar and M. E. Steinke, Contact angles of droplets during spread and recoil after impinging on a heated surface, Chem. Eng. Res. Des, vol.79, pp.491-498, 2001.

M. Nagaoka, H. Kawazoe, and N. Nomura, Modeling Fuel Spray Impingement on a Hot Wall for Gasoline Engines, 1994.
DOI : 10.4271/940525

S. G. Kandlikar and M. E. Steinke, Contact angles and interface behavior during rapid evaporation of liquid on a heated surface, Int. J. Heat Mass Tran, vol.45, pp.3771-3780, 2002.

G. E. Yang and L. Fan, Three-dimensional simulation of impingement of a liquid droplet on a flat surface in the Leidenfrost regime, Phys. Fluids, vol.17, pp.1-20, 2005.

S. Chandra and S. D. Aziz, Leidenfrost Evaporation of Liquid Nitrgen Droplets, J. Heat Trans.-T. ASME, vol.116, pp.999-1006, 1994.

J. Kistemaker, The spheroidal state of waterdrop, Physica, vol.29, pp.96-104, 1963.