His primary scientific interests are in Thermodynamics, Evaporation, Diesel fuel, Mechanics and Combustion. His Thermodynamics study which covers Boundary value problem that intersects with Lennard-Jones potential, Torsion and Liquid vapor. Sergei Sazhin has included themes like Thermal conductivity and Computational fluid dynamics in his Evaporation study.
Sergei Sazhin usually deals with Diesel fuel and limits it to topics linked to Boiling and Diffusion. His Mechanics research is multidisciplinary, relying on both Dispersity and Gasoline. His biological study spans a wide range of topics, including Nusselt number and Ignition system.
His primary areas of investigation include Evaporation, Mechanics, Thermodynamics, Diesel fuel and Combustion. The Evaporation study combines topics in areas such as Thermal conductivity, Heat equation, Kinetic energy and Gasoline. His study looks at the relationship between Mechanics and topics such as Classical mechanics, which overlap with Wave propagation, Quantum electrodynamics, Whistler and Electron.
In the subject of general Thermodynamics, his work in Thermal radiation, Heat transfer and Diesel engine is often linked to Diffusion equation, thereby combining diverse domains of study. His work is dedicated to discovering how Thermal radiation, Convection are connected with Heat transfer coefficient and other disciplines. His research integrates issues of Droplet evaporation, Penetration and Ignition system, Autoignition temperature in his study of Diesel fuel.
The scientist’s investigation covers issues in Evaporation, Mechanics, Diesel fuel, Thermodynamics and Combustion. His Evaporation research includes themes of Thermal conductivity, Temperature gradient, Electronic component, Gasoline and Chemical engineering. His research on Mechanics frequently connects to adjacent areas such as Classical mechanics.
The concepts of his Diesel fuel study are interwoven with issues in Fuel mass fraction, Boiling and Phenanthrene. His Thermodynamics research incorporates themes from Kinetic energy and Physical chemistry. His study in Combustion is interdisciplinary in nature, drawing from both Ignition system, Computational fluid dynamics and Kerosene.
Sergei Sazhin mainly focuses on Evaporation, Thermodynamics, Mechanics, Diesel fuel and Combustion. His Evaporation research includes elements of Mass transfer, Boiling point, Mass fraction, Gasoline and Heat transfer. His Thermodynamics study combines topics in areas such as Kinetic energy and Physical chemistry.
His studies in Mechanics integrate themes in fields like Composite number and Heat equation. His Diesel fuel research is multidisciplinary, incorporating elements of Droplet evaporation, Boiling, Diesel engine and Distribution function. His Combustion research is multidisciplinary, incorporating perspectives in Ignition system, Differential equation, Thermal radiation and Temperature gradient.
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Advanced models of fuel droplet heating and evaporation
Sergei S. Sazhin.
Progress in Energy and Combustion Science (2006)
Droplets and Sprays
Modelling of fuel droplet heating and evaporation: Recent results and unsolved problems
Sergei S. Sazhin.
MAGNETOSPHERIC CHORUS EMISSIONS : A REVIEW
S.S. Sazhin;M. Hayakawa.
Planetary and Space Science (1992)
A simplified model for bi-component droplet heating and evaporation
Sergei Sazhin;A.E. Elwardany;P.A. Krutitskii;G. Castanet.
International Journal of Heat and Mass Transfer (2010)
Models for fuel droplet heating and evaporation: Comparative analysis
Sergei Sazhin;T. Kristyadi;W.A. Abdelghaffar;Morgan Heikal.
Convective vaporization of a fuel droplet with thermal radiation absorption
B. Abramzon;Sergei Sazhin.
Multi-component droplet heating and evaporation: Numerical simulation versus experimental data
Sergei S. Sazhin;A Elwardany;P.A. Krutitskii;Valérie Deprédurand.
International Journal of Thermal Sciences (2011)
Models for droplet transient heating: effects on droplet evaporation, ignition, and break-up
Sergei Sazhin;W.A. Abdelghaffar;Elena Sazhina;Morgan Heikal.
International Journal of Thermal Sciences (2005)
The P-1 model for thermal radiation transfer: advantages and limitations
S.S. Sazhin;E.M. Sazhina;O. Faltsi-Saravelou;P. Wild.
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