Liquid emulsion, heat transfer in emulsions, hydrodynamics, dispersed phase, fragmentation, coalescence, sedimentation, boiling
Subject:
Energy-saving structure of the transport phenomena in complex disperse systems
Mathematical modeling
Systematic analysis of complex physical phenomena
Main publications:
Rozentsvaig A. K., Strashinskii C. S. Model of the heat exchange in boiling emulsions with low-boiling disperse phase at the solid wall // Contemporary Engineering Sciences. 2014 - Vol. 7, no. 20.- P. 965 - 971
Rozentsvaig A. K., Strashinskii C. S. The Growth of Vapor Bubbles in the Volume of Superheated Drops Dispersed in High-Boiling Liquid // Applied Mathematical Sciences. 2014 - Vol. 8, no. 151.- P. 7519 - 7528
Rozentsvaig A.K. and Strashinskii Ch.S. Mechanisms of boiling of an emulsion with a low-boiling disperse phase in a turbulent flow of a homogeneous emulsion // Journal of Engineering Physics and Thermophysics, 2010. Vol. 83, No. 3, P. 486 - 495. DOI: 10.1007/s10891-010-0369-4
Rosentsvaig A.K., Strashinskii Ch.S. Fragmentation of low-boiling disperse phase in turbulent flow of cooling emulsion // Russian Journal of Applied Chemistry. 2009.- Vol. 82. No.8.- P. 1413-1419. DOI: 10.1134/ S1070427209080175
Rozentsvaig A.K., Strashinskii Ch.S. Ñoalescence of the low-boiling dispersed phase in a turbulent flow of a cooling emulsion// Russian Journal of Applied Chemistry. 2008.- Vol. 81. ¹ 9.- P. 1642-1644. DOI: 10.1134/S1070427208090322
A. K. Rozentsvaig, Ch. S. Strashinskiy, “Hydrodynamic Aspects of Boiling Up of a Disperse Phase in a Homogeneous Turbulent Flow of an Emulsion”, TVT, 49:1 (2011), 139–142; High Temperature, 49:1 (2011), 143–146
A. K. Rozentsvaig, “Breakup of droplets in turbulent shear flow of dilute liquid-liquid dispersions”, Prikl. Mekh. Tekh. Fiz., 22:6 (1981), 71–78; J. Appl. Mech. Tech. Phys., 22:6 (1981), 797–802
L. P. Pergushev, A. K. Rozentsvaig, “Effect of inhomogeneity of the disperse phase on coalescence and mass-transfer processes in liquid emulsions”, Prikl. Mekh. Tekh. Fiz., 21:4 (1980), 74–81; J. Appl. Mech. Tech. Phys., 21:4 (1980), 495–501