Her main research concerns Thermodynamics, Convection, Mechanics, Interferometry and Thermal. Thermodynamics and Field are frequently intertwined in her study. She interconnects Navier–Stokes equations and Buoyancy in the investigation of issues within Convection.
Her work deals with themes such as Particle and Classical mechanics, which intersect with Mechanics. Her study in Interferometry is interdisciplinary in nature, drawing from both Molecular diffusion, Thermal diffusivity and Refractive index. She has researched Prandtl number in several fields, including Instability and Reynolds number.
Her primary areas of investigation include Mechanics, Thermodynamics, Convection, Instability and Classical mechanics. Her Mechanics research focuses on subjects like Vibration, which are linked to Amplitude and Gravity. Her Convection research includes themes of Thermal diffusivity, Thermal, Flow and Optics.
Her work carried out in the field of Thermal diffusivity brings together such families of science as Interferometry and Analytical chemistry. Her research on Instability frequently links to adjacent areas such as Wavenumber. Her Classical mechanics study combines topics from a wide range of disciplines, such as Particle and Bifurcation.
Valentina Shevtsova focuses on Thermodynamics, Mechanics, Instability, Taylor dispersion and Diffusion. Her Thermodynamics research incorporates elements of Kinetic energy and Molecular dynamics. She studies Mechanics, focusing on Convection in particular.
Her research in Convection tackles topics such as Thermal which are related to areas like Density gradient. The concepts of her Instability study are interwoven with issues in Excited state, Heat transfer and Wavenumber. Her Diffusion study also includes fields such as
Valentina Shevtsova mainly investigates Thermodynamics, Mechanics, Instability, Convection and Classical mechanics. In her study, Thermal expansion, Refractive index, Parameter space, Viton and Ternary numeral system is inextricably linked to Spinodal decomposition, which falls within the broad field of Thermodynamics. Her Mechanics study incorporates themes from Vibration and Mixing.
The various areas that she examines in her Instability study include Excited state and Optics. Valentina Shevtsova frequently studies issues relating to Flow and Convection. As part of one scientific family, Valentina Shevtsova deals mainly with the area of Classical mechanics, narrowing it down to issues related to the Amplitude, and often Forcing, Nonlinear system, Transient, Perturbation and Temperature gradient.
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Convective instability mechanisms in thermocapillary liquid bridges
M Wanschura;Valentina Shevtsova;H.C. Kuhlmann;H.J Rath.
Physics of Fluids (1995)
Development of optical digital interferometry technique for measurement of thermodiffusion coefficients
Aliaksndr Mialdun;Valentina Shevtsova.
International Journal of Heat and Mass Transfer (2008)
Measurement of the Soret and diffusion coefficients for benchmark binary mixtures by means of digital interferometry.
Aliaksndr Mialdun;Valentina Shevtsova.
Journal of Chemical Physics (2011)
A comprehensive study of diffusion, thermodiffusion, and Soret coefficients of water-isopropanol mixtures
A. Mialdun;V. Yasnou;V. Shevtsova;A. Königer.
Journal of Chemical Physics (2012)
Benchmark values for the Soret, thermodiffusion and molecular diffusion coefficients of the ternary mixture tetralin+isobutylbenzene+n-dodecane with 0.8-0.1-0.1 mass fraction.
M. M. Bou-Ali;A. Ahadi;D. Alonso de Mezquia;Q. Galand.
European Physical Journal E (2015)
Thermocapillary-buoyancy convection in a shallow cavity heated from the side.
V. M. Shevtsova;A. A. Nepomnyashchy;J. C. Legros.
Physical Review E (2003)
Onset of convection in Soret-driven instability.
Valentina Shevtsova;Denis Melnikov;Jean Claude Legros.
Physical Review E (2006)
Experimental evidence of thermal vibrational convection in a nonuniformly heated fluid in a reduced gravity environment.
Aliaksndr Mialdun;I.I. Ryzhkov;Denis Melnikov;Valentina Shevtsova.
Physical Review Letters (2008)
The loss of stability in ground based experiments in liquid bridges
Valentina Shevtsova;Mohamed Mojahed;Jean Claude Legros.
Acta Astronautica (1999)
On thermal diffusion and convection in multicomponent mixtures with application to the thermogravitational column
Ilya I. Ryzhkov;Valentina M. Shevtsova.
Physics of Fluids (2007)
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