Index A-Z
Kryukov, Alexei P.
National Research University, Moscow Power Engineering Institute, Moscow 111250, Russia
Krasnokazarmennaya14, Moscow, 11120, Russia Moscow Moscow RUSSIA
Non-equilibrium effects
Articles :
SIMPLE KINETIC MODEL FOR EVAPORATION OF WATER DROPLETS IN AMBIENT AIR(ouvrir dans un nouvel onglet)
KINETIC APPROACH TO HOMOGENEOUS NUCLEATION AT INTENSIVE EVAPORATION(ouvrir dans un nouvel onglet)
Articles:
Evolution of a Vapor Cavity in Boiling of a Superfluid Helium(ouvrir dans un nouvel onglet) - Vol. 32 '2001(ouvrir dans un nouvel onglet) - Heat Transfer Research(ouvrir dans un nouvel onglet)
Description of Heat and Mass Transfer in Film Boiling of Superfluid Helium in Microgravity in a Capillary-Porous Body(ouvrir dans un nouvel onglet) - Vol. 34 '2003(ouvrir dans un nouvel onglet) - Heat Transfer Research(ouvrir dans un nouvel onglet)
Growth of a Vapor Film on the Heater Immersed into a Highly Conducting Liquid(ouvrir dans un nouvel onglet) - Vol. 34 '2003(ouvrir dans un nouvel onglet) - Heat Transfer Research(ouvrir dans un nouvel onglet)
Study of Unsteady Evaporation-Condensation Processes on the Surface by the Methods of the Molecular-Kinetic Theory(ouvrir dans un nouvel onglet) - Vol. 34 '2003(ouvrir dans un nouvel onglet) - Heat Transfer Research(ouvrir dans un nouvel onglet)
Special Features of Heat and Mass Transfer During Growth of a Vapor Film in a Porous Shell Filled with Helium II(ouvrir dans un nouvel onglet) - Vol. 38 '2007(ouvrir dans un nouvel onglet) - Heat Transfer Research(ouvrir dans un nouvel onglet)
Distribution of Temperatures over a Spherical Heater Placed in He-II(ouvrir dans un nouvel onglet) - Vol. 39 '2008(ouvrir dans un nouvel onglet) - Heat Transfer Research(ouvrir dans un nouvel onglet)
A NEW CONCEPT OF A SOLAR PROBE SHIELDING FROM INTENSE THERMAL RADIATION OF THE SUN(ouvrir dans un nouvel onglet) - Vol. 0 '2017(ouvrir dans un nouvel onglet) - ICHMT DIGITAL LIBRARY ONLINE(ouvrir dans un nouvel onglet)
INFLUENCE OF NON−CONDENSABLE COMPONENT IN VAPOR-GAS MIXTURE ON THE INTENSITY OF LIQUID DROPLETS EVAPORATION(ouvrir dans un nouvel onglet) - Vol. 4 '2018(ouvrir dans un nouvel onglet) - International Heat Transfer Conference 16(ouvrir dans un nouvel onglet)
THE INFLUENCE OF HOMOGENEOUS NUCLEATION ON THE FLOW OF VAPOR NEAR THE EVAPORATION SURFACE(ouvrir dans un nouvel onglet) - Vol. 6 '2023(ouvrir dans un nouvel onglet) - International Heat Transfer Conference 17(ouvrir dans un nouvel onglet)
Mednikov, A. F.
Distribution of Temperatures over a Spherical Heater Placed in He-II
Reviznikov, Dmitry L.
A NEW CONCEPT OF A SOLAR PROBE SHIELDING FROM INTENSE THERMAL RADIATION OF THE SUN
Yastrebov, Arseniy K.
Study of Unsteady Evaporation-Condensation Processes on the Surface by the Methods of the Molecular-Kinetic Theory
Dergunov, I. M.
Evolution of a Vapor Cavity in Boiling of a Superfluid Helium
Growth of a Vapor Film on the Heater Immersed into a Highly Conducting Liquid
Selyaninova, Yu. Yu.
Special Features of Heat and Mass Transfer During Growth of a Vapor Film in a Porous Shell Filled with Helium II
Levashov, Vladimir Yu.
INFLUENCE OF NON−CONDENSABLE COMPONENT IN VAPOR-GAS MIXTURE ON THE INTENSITY OF LIQUID DROPLETS EVAPORATION
A NEW CONCEPT OF A SOLAR PROBE SHIELDING FROM INTENSE THERMAL RADIATION OF THE SUN
SIMPLE KINETIC MODEL FOR EVAPORATION OF WATER DROPLETS IN AMBIENT AIR
KINETIC APPROACH TO HOMOGENEOUS NUCLEATION AT INTENSIVE EVAPORATION
THE INFLUENCE OF HOMOGENEOUS NUCLEATION ON THE FLOW OF VAPOR NEAR THE EVAPORATION SURFACE
Khurtin, P. V.
Description of Heat and Mass Transfer in Film Boiling of Superfluid Helium in Microgravity in a Capillary-Porous Body
Gorbunov, A. A.
Evolution of a Vapor Cavity in Boiling of a Superfluid Helium
Growth of a Vapor Film on the Heater Immersed into a Highly Conducting Liquid
Mayorov , V.O.
THE INFLUENCE OF HOMOGENEOUS NUCLEATION ON THE FLOW OF VAPOR NEAR THE EVAPORATION SURFACE
Dombrovsky, Leonid A.
A NEW CONCEPT OF A SOLAR PROBE SHIELDING FROM INTENSE THERMAL RADIATION OF THE SUN
Shishkova, Irina N.
INFLUENCE OF NON−CONDENSABLE COMPONENT IN VAPOR-GAS MIXTURE ON THE INTENSITY OF LIQUID DROPLETS EVAPORATION
SIMPLE KINETIC MODEL FOR EVAPORATION OF WATER DROPLETS IN AMBIENT AIR
Study of Unsteady Evaporation-Condensation Processes on the Surface by the Methods of the Molecular-Kinetic Theory