Keywords and phrases: heterogeneous media, modeling, elementary physical phenomena, nonlinear dependence, emulsion.
Received: February 2, 2022; Accepted: February 26, 2022; Published: March 15, 2022
How to cite this article: Alexander Rozentsvaig, Hybrid modeling of complex physical processes in dispersed liquid systems, JP Journal of Heat and Mass Transfer 26 (2022), 53-59. http://dx.doi.org/10.17654/0973576322012
This Open Access Article is Licensed under Creative Commons Attribution 4.0 International License
References:
[1] A. Rozentsvaig and C. Strashinskii, Modeling of complex processes in turbulent flow of unstable emulsions of immiscible liquids, Periodica Polytechnica: Chemical Engineering 61(3) (2017), 216-226. [2] A. Rozentsvaig and Ch. Strashinskii, Identification of models of transfer processes in complex disperse systems, Appl. Math. Sci. 10(21-24) (2016), 1151-1161. [3] M. L. Pezo and V. D. Stevanovic, Numerical prediction of critical heat flux in pool boiling with the two-fluid model, International Journal of Heat and Mass Transfer 54(15) (2011), 3296-3303. [4] A. Rozentsvaig, Resonance interaction of boiling drops and of turbulent flow in unstable emulsion, JP Journal of Heat and Mass Transfer 21(1) (2020), 75-81. [5] D. M. Himmelblau, Process Analysis by Statistical Methods, John Wiley and Sons, Inc., New York, 1970. [6] A. Rozentsvaig, Turbulent pipe flow of concentrated emulsions with a nonequilibrium disperse phase, Journal of Engineering Physics 42(3) (1982), 254-259. [7] A. Rozentsvaig, Breakup of droplets in turbulent shear flow of dilute liquid-liquid dispersions, J. Appl. Mech. Tech. Phys. 22(6) (1981), 797-802. [8] A. Rozentsvaig, Features of turbulent flow of emulsion with boiling drops, JP Journal of Heat Mass Transfer 21(2) (2020), 283-289.
|