Identyfikatory
Warianty tytułu
Języki publikacji
Abstrakty
The paper presents a short description of the model of the phenomenon of droplet spreading in presence of a liquid film, as well as the experimental facility, calculations methodology and results of experimental research concerning determination of the boundary angle at which droplet begins to slide on the horizontal or inclined surface of the plate. Values of boundary angle have been applied to estimate the microscopic dynamic advanced angle of the droplet on the flat surface in presence of a liquid film.
Czasopismo
Rocznik
Tom
Strony
107--121
Opis fizyczny
Bibliogr. 23 poz., il.
Twórcy
autor
- West Pomeranian University of Technology, Faculty of Mechanical Engineering and Mechatronics, Department of Heat Engineering, 70-310 Szczecin, Poland, zbigniew.zapalowicz@zut.edu.pl
Bibliografia
- [1] AJAEV V.: Spreading of thin volatile liquid droplets on uniformly heated surfaces. J. Fluid Mech. 528(2005), 279–296.
- [2] BLAKE T.D., CLARKE A., DE CONINCK J., DE RUIJTER M. VOUE M.: Droplet spreading a microscopic approach. Colloids and Surfaces. A.: Physicochemical and Engineering Aspects 149(1999), 123–130.
- [3] DUSZAN E.B.: On the spreading of liquids on solid surfaces: static and dynamic contact lines, Annu. Rev. Fluid Mech. 11(1979), 371–400.
- [4] GREGORY J.: The Calculation of Hamaker constants. Adv. Colloid Interface Sci. 2(1969), 396–417.
- [5] HALEY P., MIKSIS M.J.: The effect of the contact line on droplet spreading. J. Fluid Mech. 223(1991), 57–81.
- [6] ISRAELACHVILLI J.N.: Intermolecular and Surface Forces. Academic Press, London 1991.
- [7] MAJUMDAR A., MEZIC I.: Instability of ultra-thin water films and the mechanism of droplet formation on hydrophilic surfaces. Trans. ASME J. Heat Transfer 121(1999), 3, 965–970.
- [8] MARMUR A.: Equilibrium contact angles theory and measurement. Colloids and Surface A. Physiochemical and Engineering Aspects 116(1996), 55–61.
- [9] MARMUR A.: Contact-angle hysteresis on heterogeneous smooth surface theoretical comparison of the captive bubble and drop methods. Colloids and Surface A. Physiochemical and Engineering Aspects 136(1999), 209–215.
- [10] RIVKIN S.L., ALEKSANDROV A.A.: Thermophysical Properties of Water and Steam. Energia. Moscow 1980 (in Russian).
- [11] RYBNIK R., TRELA M.: Influence of substrate materials and surface roughness on the contact angle of sessile drops. In: Tagungsmaterialen VII Internationales SymposiumWärmeaustausch und Erneuerbare Energiequellen, Szczecin-Świnoujście 7-9.09.1999, 315–324.
- [12] SCIFFER S.: A phenomenological model of dynamic contact angle, Chem. Eng. Sci. 55(2000), 5933–5936.
- [13] STEPHAN K.: Influence of dispersion forces on phase equilibria between thin liquid films and their vapour. Int. J. Heat Mass Transfer, 45(2002), 4715–4725.
- [14] VAN CAREY P.: Liquid-Vapor Phase-Change Phenomena. Hemisphere Publishing Corporation, Taylor&Francis, Bristol 1992.
- [15] WAYNER P.C. JR., KAO Y.K., LACROIX L.V.: The interline heat-transfer coefficient of an evaporating wetting film. Int. J. Heat Mass Transfer, 19(1976), 487–492.
- [16] WAYNER P.C. Jr.: Intermolecular forces in phase-change heat transfer: 1998 Kern Award review. AIChE J. 45(1999), 10, 2055–2068.
- [17] WOLANSKY G., MARMUR A.: Apparent contact angles on rough surface the Wenzel equation revisited. Colloids and Surface A. Physiochemical and Engineering Aspects 156(1999), 381–388.
- [18] YEH E.K., NEWMAN J., RADKE C.J.: Equilibrium configuration of liquid droplets on solid surfaces under the influence of thin-film forces, Part II. Shape calculations. Colloids and Surfaces. A.: Physicochemical and Engineering Aspects 156(1999), 525–546.
- [19] ZAPAŁOWICZ Z.: Conditions for appearance of droplet structure and a liquid film on a horizontal heated wall surface for selected liquids. Arch. Thermodynamics 21(2000), 1-2, 73–85.
- [20] ZAPAŁOWICZ Z.: Macroscopic model of droplet spreading over a horizontal surface. Arch. Thermodynamics 24(2003), 3, 55–68.
- [21] ZAPAŁOWICZ Z.: Effect of a droplet stream and air on the surface of a solid body. Technical University of Szczecin Publishers, Szczecin 2007 (in Polish).
- [22] ZAPAŁOWICZ Z.: Evaluation of dynamic microscopic advanced angle for droplet on flat surface. In: Proc.. of the 6th International Conference on Transport Phenomena in Multiphase Systems, HEAT 2011. June 28 – July 2, 2011, Ryn, Poland (M.E. Poniewski, S. Alabrudziński, Eds.), ISBN 978-83-62081-53-0, 415–418, 2011.
- [23] ZAPAŁOWICZ Z.: Initial verification of the model of droplet’s spreading on the solid body surface in presence of liquid microfilm. The Scientific Proceedings of Riga Technical University, Ser. 12, Heat and Power and Thermal Physics, Riga, RTU (accepted for publication).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BGPK-3624-3947