1965–1971: Undergraduate (graduated with
honors), Moscow Institute of Physics and Technology (MIPT),
Moscow region, Russia
(PhD student), MIPT, Dolgoprudny, Moscow region, Russia
1974: Candidate of Phys.
and Math. Sciences (PhD, Mech. of Fluids, Gases and Plasma)
1984: Senior Researcher
(Mechanics of Fluids, Gases and Plasma)
1989: Doctor of Science
(Theoretical Fundamentals of Heat Transfer)
of work: Joint Institute for High
Temperatures of the Russian Academy of Science
address: 17A, Krasnokazarmennaya, NCHMT, 111116, Moscow, Russia
visible, infrared, and microwave properties of particles and fibers
- radiation heat transfer in disperse systems of different nature
- radiative properties of porous materials, composite coatings, and thermal
- combined heat transfer problems in power engineering, biomedicine, and other
Consulting and visiting appointments:
1997–1998: Siemens KWU, Erlangen, Germany
2001–2003: University of
Brighton, Brighton, UK
2003–2004: Harbin Institute of Technology, Harbin, China
2004–2006: The Thermal Science Centre of
Lyon (CETHIL), INSA, Lyon, France
2005–2008: Royal Institute of
Technology (KTH), Stockholm,
Swiss Federal Institute of Technology (ETH), Zürich, Switzerland
The Thermal Science Centre of Lyon
(CETHIL), INSA, Lyon, France
Lab. Extreme Conditions and
Materials: High Temperature and Irradiation (CEMHTI), Univ. Orleans, France
2011–2015: School of
Mechanical & Manufacturing Engineering, University of New South Wales
(UNSW), Sydney, Australia
Department of Mechanical Engineering,
University of Minnesota, Minneapolis, USA
2012–2013: Laboratory of Thermal Kinetics
(LTN), School of Engineering, University of Nantes, France
of Science, Engineering and Computing, Kingston University, London, UK
Scientific Council of the International
Centre for Heat and Mass Transfer (ICHMT);
Elected member of the ICHMT Executive Committee;
National Committee for Heat and Mass
Delegate to the Assembly for International Heat
The Optical Society of America; Scientific
Council on Thermophysics and Thermal Engineering
(Russ. Acad. Sci.);
American Nano Society,
Member of the
Editorial boards: Int. J. Heat Mass Transfer, Int. Comm. Heat
Mass Transfer, Computational Thermal Sciences, Thermal Processes in Engineering,
Thermopedia, J. Spectr.
Refereeing: High Temperature, Thermal Engineering, Heat Mass Transfer, Int. J.
J. Quant. Spectr.
Radiat. Transfer, Int. J. Thermophysics,
Int. J. Heat Mass Transfer, Numerical
Heat Transfer, ASME J. Heat Transfer, ASME J. Solar Energy Engineering,
Temperatures –High Pressures, J. Alloys
Compounds, J. Composite Materials, J. Amer. Ceramic
Society, Thermal Processes in Engineering,
Heat Transfer, Computational Thermal Sciences, Frontiers in Heat and Mass Transfer,
Computers in Biology and Medicine, Optics Express, Energy and
Nucl. Energy, Infrared Phys.
J. Nanotechnology in Engineering and Medicine, AIAA J. Thermophys. Heat
Transfer, Surface and
Coating Technology, Acta Bioengineering and Biomechanics, Chemical
Engineering Journal, Int.
J. Fluid Mech. Res., Physics in Medicine and Biology, Applied
J. Hydrogen Energy, Inverse Probl. Sci. Engineering, Materials and
Some parameters of the research activity:
citations – 1066, h-index – 21 (since 1996)
Google Scholar: citations – 1864, h-index – 26
publications in period since 1996
Radiation in Disperse Systems: An Engineering Approach, Begell House, New York and Redding (CT),
On-line monograph “Topics in Particle and
Dispersion Science” (edited by Miroslaw Jonasz).
Thermal Radiation Modeling in Multiphase Flows Typical of Melt-Coolant
Chapter 4 in the book “Advances in Multiphase Flow and Heat Transfer”, edited
by L. Cheng and D. Mewes, Bentham Sci. Publ., 2009, vol. 1 http://www.bentham.org/ebooks/9781608050802/contents.htm
Radiative Properties of Particles and Fibers. ThermalHUB publication. http://thermalhub.org/contributors/1050.
Heat Transfer in Disperse Systems, Begell House, New York, 1996.
optical properties of a porous alumina ceramics produced by hydrothermal
oxidation of aluminum, Infrared
use of infrared irradiation to stabilize levitating clusters of water droplets,
Infrared Phys. Technology.
simplified model for the shielding of fire radiation by water mists, Int.
J. Heat Mass Transfer.
A new method to retrieve spectral absorption coefficient
of highly-scattering and weakly-absorbing materials, J. Quant. Spectr. Radiat. Transfer.
heat transfer from supersonic flow with suspended particles to a blunt body, Int. J. Heat Mass Transfer.
heat transfer from supersonic flow with suspended polydisperse
particles to a blunt body: Effect of collisions between particles, Comput. Thermal
of repeating freezing of biological tissues and analysis of possible microwave
monitoring of volumetric phase changes, Int.
J. Heat Mass Transfer.
use of near-infrared self-emission measurements to retrieve surface temperature
of levitating water droplets, Infrared
heating of superficial human tissues with the use of water-filtered infrared-A
radiation: A computational modeling, Int. J. Heat Mass Transfer.
Laser induced hyperthermia of superficial
tumors: Computational models for radiative transfer, combined heat transfer,
and degradation of biological tissues, Therm.
Proc. Eng. (in Russian).
of short-pulsed laser radiation on transient heating of superficial human
tissues, Int. J. Heat Mass
transfer in vacuum thermal insulation of space vehicles, Comput.
diagnostics of morphological changes arising in thermal processing of
approaches to radiative transfer simulations in laser induced hyperthermia of
superficial tumors, Comput.
of optical constants of ceria by combined analytical and experimental
approaches, The Journal of Minerals, Metals & Materials Society.
“pump-probe” method to study semi-transparent nanofluids, Applied Optics.
radiation properties of
highly porous cellular foams, Special Topics & Reviews in Porous Media – An
and near-infrared optical properties of ceria ceramics, Infrared Phys. Technology.
hyperthermia of superficial tumors: A transient thermal model for indirect
heating strategy, Comput.
two-flux approximation and Monte Carlo model for identification of radiative
properties of highly scattering dispersed materials, Comput.
use of transport approximation and diffusion-based models in radiative transfer
heating strategy of laser induced hyperthermia: An advanced thermal model, Int. J. Heat Mass
combined transient thermal model for laser hyperthermia of tumors with embedded
gold nanoshells, Int. J. Heat Mass
physical models used to identify and analyze infrared radiative properties of
semi-transparent dispersed materials, J. Spectr. Dynamics
temperature infrared properties of YSZ electrolyte ceramics for SOFCs:
Experimental determination and theoretical modeling, J. Amer. Ceramic Society
analytical solution to normal emittance of semi-transparent layer of an
absorbing, scattering, and refracting medium, J. Quant. Spectr. Radiat.
of solar radiation by water mist and sprays from the ultraviolet to the
infrared range, J. Quant. Spectr. Radiat.
combined P1 and Monte Carlo model for multi-dimensional radiative
transfer problems in scattering media, Comput.
radiation from the zone of melt-water interaction, Comput.
An effect of
“scattering by absorption” observed in near-infrared properties of nanoporous
silica, J. Appl. Physics.
An effect of turbulent clustering on scattering of microwave
radiation by small particles in the atmosphere, J. Quant. Spectr. Radiat. Transfer.
An extension of
the large-cell radiation model for the case of semi-transparent nonisothermal
particles, ASME J. of Heat Transfer. http://dx.doi.org/10.1115/1.4000181
radiation modeling in numerical simulation of melt-coolant interaction, Comput.
model for solid bubbles formation in melt-coolant interaction, Int. J. Heat Mass Transfer.
model for break-up of solidifying melt particles due to thermal stresses in
surface crust layer, Int. J. Heat Mass
- The effect of thermal radiation on the
solidification dynamics of metal oxide melt droplets, Nuclear Eng. Design
- A diffusion-based approximate model for radiation heat
transfer in a solar thermochemical reactor, J.
Quant. Spectr. Radiat. Transfer.
- Infrared radiative properties of polymer coatings containing
hollow microspheres, Int. J. Heat Mass
- Near-infrared radiative properties of
porous zirconia ceramics, Infrared Phys. Technology.
- Large-cell model of radiation heat transfer in multiphase flows
typical for fuel–coolant interaction, Int.
J. Heat Mass Transfer.
A modified two-flux approximation for identification of
radiative properties of absorbing and scattering media from
directional-hemispherical measurements, J.
Optical Soc. Am. A.
Use of Mie theory to analyze experimental data to identify
infrared properties of fused quartz containing bubbles, Applied Optics.
Modeling of thermal radiation of polymer coating containing
hollow microspheres, High Temperature.
Absorption of thermal radiation in large semi-transparent
particles at arbitrary illumination of the polydisperse system, Int. J. Heat Mass Transfer.
of radiation scattering in hollow-microsphere ceramics, High Temperature.
The propagation of infrared
radiation in a semitransparent liquid containing gas bubbles, High Temperature.
transfer through a vapour gap under conditions of film boiling of liquid, High
simplified non-isothermal model for droplet heating and evaporation, Int. Comm. Heat Mass Transfer.
An estimate of the
temperature of semitransparent oxide particles in thermal spraying, Heat Transfer Engineering.
Spectral properties of
diesel fuel droplets, Fuel.
A spectral model of
absorption and scattering of thermal radiation by droplets of diesel fuel, High Temperature.
A modified differential approximation for thermal radiation
of semitransparent nonisothermal particles: application for optical diagnostics
of plasma spraying, J. Quant. Spectr.
evaporation of semi-transparent diesel fuel droplets in the presence of thermal
of radiation heat transfer in a volume above the surface of a corium pool, Thermal Engineering.
thermal explosion of a radiating gas with polydisperse liquid fuel, High Temperature.
The dynamics of
vapor void under conditions of thermal interaction of a hot spherical particle
with ambient water, High
Radiation heat transfer from a hot particle to ambient water
through the vapor layer, Int. J. Heat
Thermal radiation from
nonisothermal spherical particles of a semitransparent material, Int. J. Heat Mass Transfer.
and microwave radiative properties of metal coated microfibers, Revue Generale de Thermique.
simulation of the stratified-corium temperature field and melting of the
reactor vessel for a severe accident in a nuclear power station, Thermal Engineering.
of the Mie theory to the microwave characteristics of metal powder in
dielectric matrix, J. Commun. Technol.
thermal insulation: infrared radiative properties and calculation of
radiative-conductive heat transfer, ASME J. Heat Transfer.
investigation of heat transfer under conditions of two-phase flow in a
supersonic nozzle, High Temperature.
methods for calculating radiation heat transfer in dispersed systems, Thermal Engineering.
The complete list of
publications can be found here.
The extended current CV can
be found here.