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Polezhaev, Yury V.

Department of Heat Transfer, Institute for High Temperatures, Russian Academy of Sciences, Izhorskaya 13/19, Moscow 127412, Russia

Porous Media

Artikel:

Ablation(in neuem tab öffnen)

Accommodation coefficient(in neuem tab öffnen)

Aerodynamics(in neuem tab öffnen)

Nozzles(in neuem tab öffnen)

POROUS MEDIUM(in neuem tab öffnen)

SUBLIMATION(in neuem tab öffnen)

THERMAL CONDUCTIVITY(in neuem tab öffnen)

TRANSPIRATION COOLING(in neuem tab öffnen)

Drag Coefficient(in neuem tab öffnen)

EROSION(in neuem tab öffnen)

EVAPORATIVE COOLING(in neuem tab öffnen)

WIND TUNNELS(in neuem tab öffnen)

Jets(in neuem tab öffnen)

Inviscid Flow(in neuem tab öffnen)

HEAT PROTECTION(in neuem tab öffnen)

External Flows: Overview(in neuem tab öffnen)

GAS TURBINE(in neuem tab öffnen)

MELTING(in neuem tab öffnen)

Articles:

ON A POSSIBILITY OF OPTIMIZATION OF STRUCTURAL PARAMETERS AND OPERATING CONDITIONS OF TRANSPIRATION COOLING SYSTEM EMPLOYED IN THE THERMO-STRESSED GAS TURBINE BLADES(in neuem tab öffnen) - Vol. 1 '2003(in neuem tab öffnen) - Advances in Heat Transfer Engineering(in neuem tab öffnen)

Intensification of Heat Transfer at the Critical Point of a Hemisphere in a Supersonic Heterogeneous Flow(in neuem tab öffnen) - Vol. 31 '2000(in neuem tab öffnen) - Heat Transfer Research(in neuem tab öffnen)

Parameters of Thermoerosion Destruction of Different Materials in Heterogeneous Flows(in neuem tab öffnen) - Vol. 31 '2000(in neuem tab öffnen) - Heat Transfer Research(in neuem tab öffnen)

Experimental Study of Pulse Characteristics of Turbulent Tube Flow of a Gas with Solid Particles(in neuem tab öffnen) - Vol. 32 '2001(in neuem tab öffnen) - Heat Transfer Research(in neuem tab öffnen)

Ratio of the Thermal and Erosion Components in Heat-Erosion Destruction of Materials in a Supersonic Heterogeneous Flow(in neuem tab öffnen) - Vol. 38 '2007(in neuem tab öffnen) - Heat Transfer Research(in neuem tab öffnen)

Thermophysical Problems of Transpiration Cooling(in neuem tab öffnen) - Vol. 11 '1998(in neuem tab öffnen) - International Heat Transfer Conference 11(in neuem tab öffnen)

Universal Heat Transfer Model in Porous Media(in neuem tab öffnen) - Vol. 26 '2002(in neuem tab öffnen) - International Heat Transfer Conference 12(in neuem tab öffnen)

Heat Transfer in a Heterogeneous Supersonic Flow(in neuem tab öffnen) - Vol. 32 '2002(in neuem tab öffnen) - International Heat Transfer Conference 12(in neuem tab öffnen)

EFFECT OF THE PARTICLES CONCENTRATION ON FLUCTUATING VELOCITY OF THE DISPERSE PHASE FOR TURBULENT PIPE FLOW(in neuem tab öffnen) - Vol. 1 '1999(in neuem tab öffnen) - TSFP DIGITAL LIBRARY ONLINE(in neuem tab öffnen)

EFFECT OF THE PARTICLES CONCENTRATION ON FLUCTUATING VELOCITY OF THE DISPERSE PHASE FOR TURBULENT PIPE FLOW(in neuem tab öffnen) - Vol. 0 '1999(in neuem tab öffnen) - Turbulence and Shear Flow Phenomena -1 First International Symposium(in neuem tab öffnen)

Chircov, I.V.

Drag Coefficient

Inviscid Flow

Nozzles

Golub, V.V.

Jets

Repin, I. V.

Intensification of Heat Transfer at the Critical Point of a Hemisphere in a Supersonic Heterogeneous Flow

Parameters of Thermoerosion Destruction of Different Materials in Heterogeneous Flows

Manushin, E.A.

GAS TURBINE

Pavlyukevich, N. V.

Accommodation coefficient

SUBLIMATION

TRANSPIRATION COOLING

Seliverstov, Eugene M.

Universal Heat Transfer Model in Porous Media

ON A POSSIBILITY OF OPTIMIZATION OF STRUCTURAL PARAMETERS AND OPERATING CONDITIONS OF TRANSPIRATION COOLING SYSTEM EMPLOYED IN THE THERMO-STRESSED GAS TURBINE BLADES

Varaksin, Aleksey Yur'evich

EFFECT OF THE PARTICLES CONCENTRATION ON FLUCTUATING VELOCITY OF THE DISPERSE PHASE FOR TURBULENT PIPE FLOW

EFFECT OF THE PARTICLES CONCENTRATION ON FLUCTUATING VELOCITY OF THE DISPERSE PHASE FOR TURBULENT PIPE FLOW

Experimental Study of Pulse Characteristics of Turbulent Tube Flow of a Gas with Solid Particles

Dombrovsky, Leonid A.

Heat Transfer in a Heterogeneous Supersonic Flow

Polyakov, Anatoly F.

EFFECT OF THE PARTICLES CONCENTRATION ON FLUCTUATING VELOCITY OF THE DISPERSE PHASE FOR TURBULENT PIPE FLOW

EFFECT OF THE PARTICLES CONCENTRATION ON FLUCTUATING VELOCITY OF THE DISPERSE PHASE FOR TURBULENT PIPE FLOW

Experimental Study of Pulse Characteristics of Turbulent Tube Flow of a Gas with Solid Particles

Thermophysical Problems of Transpiration Cooling

Vasilevskii, Eduard Borisovich

Heat Transfer in a Heterogeneous Supersonic Flow

Mikhatulin, D. S.

Intensification of Heat Transfer at the Critical Point of a Hemisphere in a Supersonic Heterogeneous Flow

Parameters of Thermoerosion Destruction of Different Materials in Heterogeneous Flows

Heat Transfer in a Heterogeneous Supersonic Flow

Ratio of the Thermal and Erosion Components in Heat-Erosion Destruction of Materials in a Supersonic Heterogeneous Flow