Oleg Kabov mainly focuses on Mechanics, Thermodynamics, Flow, Heat flux and Evaporation. His study in Convection, Marangoni effect and Instability is done as part of Mechanics. Oleg Kabov combines subjects such as Substrate and Flux with his study of Thermodynamics.
His Flow research integrates issues from Marangoni number, Compressed fluid, Volumetric flow rate and Inertia. His Heat flux research is multidisciplinary, relying on both Film temperature, Heat transfer coefficient and Optics. His Evaporation research is multidisciplinary, incorporating perspectives in Phase transition, Composite material and Temperature jump.
His primary scientific interests are in Mechanics, Thermodynamics, Evaporation, Flow and Heat transfer. His work carried out in the field of Mechanics brings together such families of science as Surface tension and Optics. In his study, Dynamics is inextricably linked to Composite material, which falls within the broad field of Evaporation.
His Flow study also includes
Mechanics, Evaporation, Composite material, Levitation and Flow are his primary areas of study. His research in Mechanics intersects with topics in Contact line and Surface tension. His research on Evaporation also deals with topics like
His Composite material research includes themes of Thermal resistance, Heat flux and Dynamics. His Heat flux study combines topics in areas such as Heat transfer coefficient and Heat pipe. His study looks at the relationship between Flow and topics such as Heat transfer, which overlap with Mass transfer.
Oleg Kabov mostly deals with Mechanics, Evaporation, Range, Volumetric flow rate and Surface tension. Mechanics connects with themes related to Contact line in his study. His Evaporation study is concerned with Thermodynamics in general.
His Volumetric flow rate research incorporates elements of Heat transfer coefficient, Liquid viscosity, Capillary action and Constant. His biological study spans a wide range of topics, including Rayleigh scattering, Heat transfer, Instability and Convection cell. His Flow study incorporates themes from Wetting, Schlieren, Phase, Microchannel and Engineering physics.
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Locally heated shear-driven liquid films in microchannels and minichannels
Oleg Kabov;Yuriy Lyulin;I. V. Marchuk;D.V. Zaitsev.
International Journal of Heat and Fluid Flow (2007)
Evaporation of a sessile water drop on a heated surface with controlled wettability
Elizaveta Ya. Gatapova;Elizaveta Ya. Gatapova;Andrey A. Semenov;Dmitry V. Zaitsev;Oleg A. Kabov;Oleg A. Kabov.
Colloids and Surfaces A: Physicochemical and Engineering Aspects (2014)
Evaporation and flow dynamics of thin, shear-driven liquid films in microgap channels
Oleg Kabov;Oleg Kabov;D.V. Zaitsev;D.V. Zaitsev;Vyacheslav Cheverda;A. Bar-Cohen.
Experimental Thermal and Fluid Science (2011)
Validity domain of the Benney equation including the Marangoni effect for closed and open flows
Benoît Scheid;Christian Ruyer-Quil;Uwe Thiele;Oleg Kabov.
Journal of Fluid Mechanics (2005)
Thermocapillary structure formation in a falling film: Experiment and calculations
Alexander Frank;Oleg Kabov.
Physics of Fluids (2006)
Heat transfer and rivulet structures formation in a falling thin liquid film locally heated
Oleg A. Kabov;Benoit Scheid;Irina A. Sharina;Jean-Claude Legros.
International Journal of Thermal Sciences (2002)
Shear-driven flows of locally heated liquid films
Elizaveta Ya. Gatapova;Oleg A. Kabov;Oleg A. Kabov.
International Journal of Heat and Mass Transfer (2008)
HEAT TRANSFER FROM A LOCAL HEAT SOURCE TO A SUBCOOLED FALLING LIQUID FILM EVAPORATING IN A VAPOR-GAS MEDIUM
O. A. Kabov;E. A. Chinnov.
Evaporative convection in a horizontal liquid layer under shear–stress gas flow
Yuriy Lyulin;Yuriy Lyulin;Oleg Kabov;Oleg Kabov.
International Journal of Heat and Mass Transfer (2014)
Measurement of Locally Heated Liquid Film Thickness by a Double-Fiber Optical Probe
D.V. Zaitsev;Oleg Kabov;A.R. Evseev.
Experiments in Fluids (2003)
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