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Strizhak, Pavel A.
National Research Tomsk Polytechnic University, Institute of Power Engineering, 30 Lenin
Avenue, Tomsk, 634050, Russia
30, Lenin Avenue Tomsk Tomsk region RUSSIA
Drops, Fire suppression, Experimental techniques, Heat Transfer
Articles:
DISINTEGRATION OF LARGE BALLS OF WATER-BASED LIQUIDS IN FREE FALL THROUGH HIGH-TEMPERATURE GASES(abrir em uma nova aba) - Vol. 27 '2017(abrir em uma nova aba) - Atomization and Sprays(abrir em uma nova aba)
SECONDARY ATOMIZATION OF FIREFIGHTING LIQUID DROPLETS BY THEIR COLLISIONS(abrir em uma nova aba) - Vol. 29 '2019(abrir em uma nova aba) - Atomization and Sprays(abrir em uma nova aba)
EFFECTS OF TARGET AND PROJECTILE PARAMETERS ON COLLISION CHARACTERISTICS OF WATER DROPLETS(abrir em uma nova aba) - Vol. 30 '2020(abrir em uma nova aba) - Atomization and Sprays(abrir em uma nova aba)
EFFECT OF CONCENTRATION OF DROPLETS IN AN AEROSOL CLOUD ON THE NUMBER AND OUTCOMES OF THEIR COLLISIONS IN A GAS MEDIUM(abrir em uma nova aba) - Vol. 31 '2021(abrir em uma nova aba) - Atomization and Sprays(abrir em uma nova aba)
A COMBINED ANALYTICAL/NUMERICAL APPROACH TO THE MODELING OF THE PROCESSES LEADING TO PUFFING AND MICRO-EXPLOSION IN A COMPOSITE MULTI-COMPONENT FUEL/WATER DROPLET(abrir em uma nova aba) - Vol. 34 '2024(abrir em uma nova aba) - Atomization and Sprays(abrir em uma nova aba)
EFFECT OF GAS PRESSURE AND TEMPERATURE ON THE REGIMES OF LIQUID DROPLET COLLISIONS(abrir em uma nova aba) - Vol. 10 '2022(abrir em uma nova aba) - Interfacial Phenomena and Heat Transfer(abrir em uma nova aba)
TWO-DIMENSIONAL SIMULATION OF COLLISION BETWEEN LIQUID DROPLET: DETERMINING THE CONDITIONS OF INTENSE SECONDARY ATOMIZATION(abrir em uma nova aba) - Vol. 10 '2022(abrir em uma nova aba) - Interfacial Phenomena and Heat Transfer(abrir em uma nova aba)
USING PLANAR LASER-INDUCED FLUORESCENCE TO STUDY THE PHASE TRANSFORMATIONS OF TWO-COMPONENT LIQUID AND SUSPENSION DROPLETS(abrir em uma nova aba) - Vol. 6 '2018(abrir em uma nova aba) - Interfacial Phenomena and Heat Transfer(abrir em uma nova aba)
USING PLANAR LASER-INDUCED FLUORESCENCE TO STUDY THE PHASE TRANSFORMATIONS OF TWO-COMPONENT LIQUID AND SUSPENSION DROPLETS(abrir em uma nova aba) - Vol. 4 '2018(abrir em uma nova aba) - International Heat Transfer Conference 16(abrir em uma nova aba)
HEAT TRANSFER DURING IGNITION OF THE GAS HYDRATE POWDER FLOW IN THE REACTOR(abrir em uma nova aba) - Vol. 4 '2023(abrir em uma nova aba) - International Heat Transfer Conference 17(abrir em uma nova aba)
INTERACTION OF DROPS AND PARTICLES OF COMPOSITE FUELS IN A GAS ENVIRONMENT FOR THEIR AGGLOMERATION AND SECONDARY GRINDING(abrir em uma nova aba) - Vol. 41 '2023(abrir em uma nova aba) - International Heat Transfer Conference 17(abrir em uma nova aba)
Antonov, Dmitrii
A COMBINED ANALYTICAL/NUMERICAL APPROACH TO THE MODELING OF THE PROCESSES LEADING TO PUFFING AND MICRO-EXPLOSION IN A COMPOSITE MULTI-COMPONENT FUEL/WATER DROPLET
HEAT TRANSFER DURING IGNITION OF THE GAS HYDRATE POWDER FLOW IN THE REACTOR
TWO-DIMENSIONAL SIMULATION OF COLLISION BETWEEN LIQUID DROPLET: DETERMINING THE CONDITIONS OF INTENSE SECONDARY ATOMIZATION
Islamova, Anastasia G.
INTERACTION OF DROPS AND PARTICLES OF COMPOSITE FUELS IN A GAS ENVIRONMENT FOR THEIR AGGLOMERATION AND SECONDARY GRINDING
EFFECT OF GAS PRESSURE AND TEMPERATURE ON THE REGIMES OF LIQUID DROPLET COLLISIONS
Solomatin, Yaroslav
SECONDARY ATOMIZATION OF FIREFIGHTING LIQUID DROPLETS BY THEIR COLLISIONS
Shlegel, Nikita E.
EFFECTS OF TARGET AND PROJECTILE PARAMETERS ON COLLISION CHARACTERISTICS OF WATER DROPLETS
INTERACTION OF DROPS AND PARTICLES OF COMPOSITE FUELS IN A GAS ENVIRONMENT FOR THEIR AGGLOMERATION AND SECONDARY GRINDING
SECONDARY ATOMIZATION OF FIREFIGHTING LIQUID DROPLETS BY THEIR COLLISIONS
EFFECT OF GAS PRESSURE AND TEMPERATURE ON THE REGIMES OF LIQUID DROPLET COLLISIONS
Shchepakina, E. A.
A COMBINED ANALYTICAL/NUMERICAL APPROACH TO THE MODELING OF THE PROCESSES LEADING TO PUFFING AND MICRO-EXPLOSION IN A COMPOSITE MULTI-COMPONENT FUEL/WATER DROPLET
Volkov, Roman S.
DISINTEGRATION OF LARGE BALLS OF WATER-BASED LIQUIDS IN FREE FALL THROUGH HIGH-TEMPERATURE GASES
USING PLANAR LASER-INDUCED FLUORESCENCE TO STUDY THE PHASE TRANSFORMATIONS OF TWO-COMPONENT LIQUID AND SUSPENSION DROPLETS
USING PLANAR LASER-INDUCED FLUORESCENCE TO STUDY THE PHASE TRANSFORMATIONS OF TWO-COMPONENT LIQUID AND SUSPENSION DROPLETS
Gaidukova, O.
HEAT TRANSFER DURING IGNITION OF THE GAS HYDRATE POWDER FLOW IN THE REACTOR
Fedorenko, Roman M.
TWO-DIMENSIONAL SIMULATION OF COLLISION BETWEEN LIQUID DROPLET: DETERMINING THE CONDITIONS OF INTENSE SECONDARY ATOMIZATION
Sobolev, V. A.
A COMBINED ANALYTICAL/NUMERICAL APPROACH TO THE MODELING OF THE PROCESSES LEADING TO PUFFING AND MICRO-EXPLOSION IN A COMPOSITE MULTI-COMPONENT FUEL/WATER DROPLET
Kuznetsov, Genii V.
USING PLANAR LASER-INDUCED FLUORESCENCE TO STUDY THE PHASE TRANSFORMATIONS OF TWO-COMPONENT LIQUID AND SUSPENSION DROPLETS
Vysokomornaya, Olga V.
INTERACTION OF DROPS AND PARTICLES OF COMPOSITE FUELS IN A GAS ENVIRONMENT FOR THEIR AGGLOMERATION AND SECONDARY GRINDING
EFFECT OF CONCENTRATION OF DROPLETS IN AN AEROSOL CLOUD ON THE NUMBER AND OUTCOMES OF THEIR COLLISIONS IN A GAS MEDIUM
Sazhin, Sergei S.
A COMBINED ANALYTICAL/NUMERICAL APPROACH TO THE MODELING OF THE PROCESSES LEADING TO PUFFING AND MICRO-EXPLOSION IN A COMPOSITE MULTI-COMPONENT FUEL/WATER DROPLET
Piskunov, Maxim V.
DISINTEGRATION OF LARGE BALLS OF WATER-BASED LIQUIDS IN FREE FALL THROUGH HIGH-TEMPERATURE GASES
USING PLANAR LASER-INDUCED FLUORESCENCE TO STUDY THE PHASE TRANSFORMATIONS OF TWO-COMPONENT LIQUID AND SUSPENSION DROPLETS
EFFECTS OF TARGET AND PROJECTILE PARAMETERS ON COLLISION CHARACTERISTICS OF WATER DROPLETS
USING PLANAR LASER-INDUCED FLUORESCENCE TO STUDY THE PHASE TRANSFORMATIONS OF TWO-COMPONENT LIQUID AND SUSPENSION DROPLETS
Zabelin, M. V.
DISINTEGRATION OF LARGE BALLS OF WATER-BASED LIQUIDS IN FREE FALL THROUGH HIGH-TEMPERATURE GASES
Tkachenko, Pavel P.
INTERACTION OF DROPS AND PARTICLES OF COMPOSITE FUELS IN A GAS ENVIRONMENT FOR THEIR AGGLOMERATION AND SECONDARY GRINDING
EFFECT OF CONCENTRATION OF DROPLETS IN AN AEROSOL CLOUD ON THE NUMBER AND OUTCOMES OF THEIR COLLISIONS IN A GAS MEDIUM
EFFECT OF GAS PRESSURE AND TEMPERATURE ON THE REGIMES OF LIQUID DROPLET COLLISIONS