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Publications

  • Gaydukova (Yashutina) O. S., Misyura S. Y., Strizhak P. A. Investigating regularities of gas hydrate ignition on a heated surface: Experiments and modelling // Combustion and Flame. 2021. V. 228. P. 78-88.
  • Glushkov D. O. , Egorov R. I. , Klepikov D. M. High-speed contactless measurements of temperature evolution during ignition and combustion of coal-based fuel pellets // Combustion and Flame. 2021. V. 175. P. 1-12.
  • Glushkov D. O., Kosintsev A. G., Kuznetsov G. V., Vysokomorniy V. S. Experimental research and numerical simulation of gel fuel ignition by a hot particle // Fuel. 2021. V. 291. P. 1-16.
  • Glushkov D. O. , Kosintsev A. G. , Kuznetsov G. V. , Vysokomorniy V. S. Numerical simulation of ignition of a typical gel fuel particle, based on organic polymer thickener, in a high-temperature air medium // Fuel. 2021. V. 178. P. 272-284.
  • Glushkov D. O. , Kosintsev A. G. , Kuznetsov G. V. , Vysokomorniy V. S. Numerical simulation of ignition of a typical gel fuel particle, based on organic polymer thickener, in a high-temperature air medium // Acta Astronautica. 2021. V. 178. P. 272-284.
  • Dorokhov V. V. , Kuznetsov G. V. , Nyashina G. S. , Strizhak P. A. Composition of a gas and ash mixture formed during the pyrolysis and combustion of coal-water slurries containing petrochemicals // Environmental Pollution. 2021. V. 285. 117390.
  • Dorokhov V. V., Kuznetsov G. V., Vershinina K. Y., Strizhak P. A. Relative energy efficiency indicators calculated for high-moisture waste-based fuel blends using multiple-criteria decision-making // Energy. 2021. V. 234. 121257.
  • Egorov R. I., Misyura S. Y., Morozov V. S., Zaytsev A. S. Self-organization of TiO2 microparticles on the surface of a thin liquid layer due to local heating and the formation of convective cellsn // Journal of Molecular Liquids. 2021. V. 324. p. 1-10.
  • Glushkov D. O. , Matyushenko A. I. , Nurpeyis A. E. , Zhuykov A. V. An experimental investigation into the fuel oil-free start-up of a coal-fired boiler by the main solid fossil fuel with additives of brown coal, biomass and charcoal for ignition enhancement // Fuel Processing Technology. 2021. V. 223. p. 1-15.
  • Glushkov D. O., Nyashina G. S., Anand R., Strizhak P. A. Composition of gas produced from the direct combustion and pyrolysis of biomass// Process Safety and Environmental Protection. 2021. V. 156. p. 43-56.
  • Kuznetsov G. V., Romanov D. S., Vershinina K. Y., Strizhak P. A. Rheological characteristics and stability of fuel slurries based on coal processing waste, biomass and used oil // Fuel. 2021. V. 302. p. 1-11.
  • Misyura S. Y., Donskoy I. G., Manakov A. Y., Morozov V. S., Strizhak P. A., Skiba S. S., Sagidullin A. K. Studying the influence of key parameters on the methane hydrate dissociation in order to improve the storage efficiency // Journal of Energy Storage. 2021. V. 44. p. 1-12.
  • Misyura S. Y., Egorov R. I., Morozov V. S., Zaytsev A. S. Emergence and breakup of a cluster of ordered microparticles during the interaction of thermocapillary and thermogravitational convection // Powder Technology. 2021. V. 379. p. 165-173.
  • Nikitin A. D. , Nyashina G. S. , Ryzhkov A. F. , Strizhak P. A. Anthropogenic emissions from the combustion of composite coal-based fuels // Science of the Total Environment. 2021. V. 772. p. 1-12.
  • Antonov D. V. , Fedorenko R. M. , Strizhak P. A., Castanet G., Sazhin S. S. Puffing/micro-explosion of two closely spaced composite droplets in tandem: Experimental results and modelling // International Journal of Heat and Mass Transfer. 2021. V. 176. P. 1-17.
  • Antonov D. V. , Fedorenko R. M. , Strizhak P. A. , Nissar Z., Sazhin S. S. Puffing/micro-explosion in composite fuel/water droplets heated in flames // Combustion and Flame. 2021. V. 233. P. 1-33.
  • Antonov D. V. , Kuznetsov G. V. , Fedorenko R. M. , Strizhak P. A. Micro-explosion of a two-component droplet: How the initial temperature of the water core affects the breakup conditions and outcomes // Powder Technology. 2021. V. 382. P. 378-387.
  • Antonov D. V. , Kuznetsov G. V. , Strizhak P. A. Fragmentation of heated droplets of coal-water slurries containing petrochemicals // Applied Thermal Engineering. 2021. V. 195. P. 1-12.
  • Antonov D. V. , Nyashina G. S. , Strizhak P. A. , Romanov D. S. Micro-explosive droplet fragmentation of environmentally promising coalwater slurries containing petrochemicals // Fuel. 2021. V. 283. P. 1-12.
  • Antonov D. V. , Strizhak P. A. , Fedorenko R. M. , Nissar Z., Sazhin S. S. Puffing/micro-explosion in rapeseed oil/water droplets: The effects of coal micro-particles in water // Fuel. 2021. V. 289. P. 1-14.
  • Antonov D. V., Volkov R. S., Fedorenko R. M., Strizhak P. A., Castanet G., Sazhin S. S. Temperature measurements in a string of three closely spaced droplets before the start of puffing/micro-explosion: Experimental results and modelling // International Journal of Heat and Mass Transfer. 2021. V. 181. P. 1-11.
  • Khomutov N. A. , Misyura S. Y., Piskunov M. V., Semyonova A. E., Strizhak P. A., Volkov R. S. Convective heat transfer in droplets of fuel microemulsions during conductive heating // Experimental Thermal and Fluid Science. 2021. V. 120. P. 1-12.
  • Kuznetsov G. V., Piskunov M. V., Shlegel N. E., Strizhak P. A. Experimental research of the vapor zone between two coalescing droplets of heated water // Experimental Thermal and Fluid Science. 2021. V. 126. P. 1-11.
  • Piskunov M. V., Breitenbach J., Schmidt J. B., Strizhak P. A., Tropea C., Roisman I. V. Secondary atomization of water-in-oil emulsion drops impinging on a heated surface in the film boiling regime // International Journal of Heat and Mass Transfer. 2021. V. 165. P. 1-10.
  • Piskunov M. V., Semyonova A. E., Khomutov N. A., Ashikhmin A. E., Yanovsky V. A. Effect of rheology and interfacial tension on spreading of emulsion drops impacting a solid surface // Physics of Fluids. 2021. V. 33. P. 1-15.
  • Strizhak P. A., Volkov R. S., Moussa O., Tarlet D., Bellettre J. Child droplets from micro-explosion of emulsion and immiscible two-component droplets // International Journal of Heat and Mass Transfer. 2021. V. 169. P. 1-20.
  • Strizhak P. A., Volkov R. S., Moussa O., Tarlet D., Bellettre J. Comparison of micro-explosive fragmentation regimes and characteristics of two- and three component droplets on a heated substrate // International Journal of Heat and Mass Transfer. 2021. V. 179. P. 1-29.
  • Tkachenko P. P., Shlegel N. E., Strizhak P. A. Interaction between droplets of solutions in a heated gaseous medium // Powder Technology. 2021. V. 390. P. 86-96.
  • Voytkov I. S. , Kuznetsov G. V. , Strizhak P. A. The critical atomization conditions of high-potential fire suppressant droplets in an air flow // Powder Technology. 2021. V. 384. P. 505–521.
  • Voytkov I. S. , Kuznetsov G. V. , Strizhak P. A. Impact of scattered radiation on thermal radiation shielding by water curtains // Process Safety and Environmental Protection. 2021. V. 154. P. 278–290.
  • Egorov R.I., Zaitsev A.S., Li H., Gao X., Strizhak P.A. Intensity dependent features of the light-induced gasification of the waste-derived coal-water compositions // Renewable Energy. 2020. V. 146. P. 1667–1675.
  • Glushkov D.O., Kuznetsov G.V., Strizhak P.A., Taburchinov R. Numerical simulation of gel fuel gas-phase ignition by a local source of limited heat content // Acta Astronautica. Article in press.
  • Glushkov D. O., Kuznetsov G. V., Tabakaev R. B., Altynbaeva D. B., Nigay A. G. Kinetic properties of gas-phase combustion of gel fuels based on oil-filled cryogels // Thermochimica Acta. 2020. V. 686. P. 178553.
  • Egorov R.I., Tkachenko P.P., Taburchinov R.I., Chulcov A.O. The propagation and ingnition of the finely dispersed coal-water aerosol // Fuel. 2020. V. 263. 116767.
  • Egorov R.I., Taburchinov R.I., Ozerova I.P. Allothermal Gasification of Peat and Lignite by a Focused Light Flow // Applied Sciences. 2020. V. 10 (8). 2640.
  • Glushkov D. O., Feoktistov D. V., Kuznetsov G. V., Batishcheva K. A., Kudelova (Brozhova) T., Paushkina K. K. Conditions and characteristics of droplets breakup for industrial waste-derived fuel suspensions ignited in high-temperature air // Fuel. 2020. V. 265. 116915.
  • Glushkov D. O., Nyashina G. S., Medvedev V. V., Vershinina K. Y. Relative Environmental, Economic, and Energy Performance Indicators of Fuel Compositions with Biomass // Applied Sciences. 2020. V. 10. 1-17.
  • Glushkov D. O., Paushkina K. K., Shabardin D. P. Co-combustion of coal processing waste, oil refining waste and municipal solid waste: Mechanism, characteristics, emissions // Chemospere. 2020. V. 240. 124892.
  • Antonov D.V., Fedorenko R.M., Kuznetsov G.V., Strizhak P.A. Modeling the micro-explosion of miscible and immiscible liquid droplets // Microgravity Actra Astronautica. 2020. V. 171. P. 69-82.
  • Antonov D.V., Fedorenko R.M., Strizhak P.A. Child droplets produced by micro-explosion and puffing of two-component droplets // Applied Thermal Engineering. 2020. V. 164. P. 114501.
  • Antonov D. V., Piskunov M. V., Strizhak P. A., Tarlet D., Bellettre J. Dispersed phase structure and micro-explosion behavior under different schemes of water-fuel droplets heating // Fuel. 2020. V. 2020. P. 116241.
  • Ashikhmin A. E., Khomutov N. A., Piskunov M. V., Yanovsky V. A. Secondary Atomization of a Biodiesel Micro-Emulsion Fuel Droplet Colliding with a Heated Wall // Applied Sciences. 2020. V. 10. P. 1-21.
  • Ashikhmin A. E., Piskunov M. V., Yanovsky V. A., Yan W. M. Properties and Phase Behavior of Water-in-Diesel Microemulsion Fuels Stabilized by Nonionic Surfactants in Combination with Aliphatic Alcohol // Energy and Fuels. 2020. V. 34. P. 2135-2142.
  • Demidovich A. V., Kropotova (Kralinova) S. S., Piskunov M. V., Shlegel N. E., Vysokomornaya (Fomina) O. V. The Impact of Single- and Multicomponent Liquid Drops on a Heated Wall: Child Droplets // Applied Sciences. 2020. V. 10. P. 1-19.
  • Shlegel N. E., Tkachenko P., Strizhak P. A. Collision of water droplets with different initial temperatures // Powder Technology. 2020. V. 367. P. 820-830.
  • Vershinina K.Yu., Shlegel N.E., Strizhak P.A. Impact of environmentally attractive additives on the ignition delay times of slurry fuels: Experimental study // Fuel. 2019. V. 238. P. 275-288.
  • Antonov D.V., Kuznetsov G.V., Strizhak P.A. Comparison of the characteristics of micro-explosion and ignition of two-fluid water-based droplets, emulsions and suspensions, moving in the high-temperature oxidizer medium // Acta Astronautica. 2019. V. 160. P. 258–269.
  • Antonov D.V., Strizhak P.A. Heating, evaporation, fragmentation, and breakup of multi-component liquid droplets when heated in air flow // Chemical Engineering Research and Design. 2019. V. 146. P. 22–35.
  • Vershinina K.Yu., Shlegel N.E., Strizhak P.A. A comparison of ignition characteristics of slurry fuels prepared using coal processing waste and finely divided coal // Journal of the Energy Institute. 2019. V. 92. P. 1167–1177.
  • Vershinina K.Yu., Nyashina G.S., Shlegel N.E., Strizhak P.A. Effective incineration of fuel-waste slurries from several related industries // Environmental Research. 2019. V. 176. P. 108559.
  • Kurgankina M.A., Nyashina G.S., Strizhak P.A. Prospects of thermal power plants switching from traditional fuels to coal-water slurries containing petrochemicals // Science of the Total Environment. 2019. V. 671. P. 568–577.
  • Glushkov D., Paushkina K., Shabardin D., Strizhak P., Gutareva N. Municipal solid waste recycling by burning it as part of composite fuel with energy generation // Journal of Environmental Management. 2019. V. 231. P. 896–904.
  • Kurgankina M.A., Nyashina G.S., Strizhak P.A. Advantages of switching coal-burning power plants to coal-water slurries containing petrochemicals // Applied Thermal Engineering. 2019. V. 147. P. 998–1008.
  • Vershinina K.Yu., Shlegel N.E., Strizhak P.A. Impact of environmentally attractive additives on the ignition delay times of slurry fuels: Experimental study // Fuel. 2019. V. 238. P. 275–288.
  • Vershinina K.Yu., Shabardin D.P., Strizhak P.A. Burnout rates of fuel slurries containing petrochemicals, coals and coal processing waste // Powder Technology. 2019. V. 343. P. 204–214.
  • Vershinina K.Yu., Shlegel N.E., Strizhak P.A. Relative combustion efficiency of composite fuels based on of wood processing and oil production wastes // Energy. 2019. V. 169. P. 18–28.
  • Antonov D.V., Piskunov M.V., Strizhak P.A. Explosive disintegration of two-component drops under intense conductive, convective, and radiant heating // Applied Thermal Engineering. 2019. V. 152. P. 409–419.
  • Nyashina G.S., Vershinina K.Yu., Shlegel N.E., Strizhak P.A. Effective incineration of fuel-waste slurries from several related industries // Environmental Research. 2019. V. 176. 108559.
  • Egorov R.I., Taburchinov R.I., Zaitsev A.S. Efficiency of Different Heat Exchanger Mechanisms for Ignition of Coal-Water Composition // Energy Fuels . 2019. V. 33 (8). 7830-7834.
  • Antonov D.V., Kuznetsov G.V., Misyura S.Ya., Strizhak P.A. Temperature and convection velocities in two-component liquid droplet until microexplosion // Experimental Thermal and Fluid Science. 2019. V. 109. 109862.
  • Antonov D.V., Volkov R.S., Strizhak P.A. Gas-Vapor Mixture Temperature in the Near-Surface Layer of a Rapidly-Evaporating Water Droplet // Entropy. 2019, 21, 803. P. 1–20.
  • Piskunov M.V., Shlegel N.E., Strizhak P.A., Volkov R.S. Experimental research into collisions of homogeneous and multi-component liquid droplets // Chemical Engineering Research and Design. 2019. V. 150. P. 84–88.
  • Piskunov M.V., Shlegel N.E., Strizhak P.A. Disruption of colliding liquid droplets with different surface geometries // Powder Technology. 2019. V. 355. P. 526–534.
  • Antonov D.V., Piskunov M.V., Strizhak P.A. Breakup and explosion of droplets of two immiscible fluids and emulsions // International Journal of Thermal Science. 2019. V. 142. P. 30–41.
  • Solomatin Ya., Shlegel N.E., Strizhak P.A. Atomization of promising multicomponent fuel droplets by their collisions // Fuel. 2019. V. 255. P. 115751.
  • Shlegel N.E., Strizhak P.A., Volkov R.S. Collision Behavior of Heterogeneous Liquid Droplets // Microgravity Science and Technology. 2019. Article in press.
  • Antonov D.V., Piskunov M.V., Strizhak P.A. Characteristics of the child-droplets emerged by micro-explosion of the heterogeneous droplets exposed to conductive, convective and radiative heating // Microgravity Science and Technology. 2019. Article in press.
  • Antonov D.V., Piskunov M.V., Strizhak P.A. Explosive disintegration of two-component drops under intense conductive, convective, and radiant heating // Applied Thermal Engineering. 2019. V. 152. P. 409–419.
  • Antonov D.V., Vysokomornaya O.V., Piskunov M.V., Fedorenko R.M., Yan W.M. Influence of solid nontransparent inclusion shape on the breakup time of heterogeneous water drops // International Communications in Heat and Mass Transfer. 2019. V. 101. P. 21–25.
  • Kuznetsov G. V., Kropotova (Kralinova) S. S., Voytkov I. S., Islamova A. G. Rates of high-temperature evaporation of promising fire-extinguishing liquid droplets // Applied Science. 2019. V. 9. P. 1–21.
  • Glushkov D.O., Kuznetsov G.V., Strizhak P.A. Experimental and numerical study of coal dust ignition by a hot particle // Applied Thermal Engineering. 2018. V. 133. P. 774-784.
  • Egorov R.I., Antonov D.V., Valiullin T.R., Strizhak P.A. The ignition dynamics of the water-filled fuel compositions // Fuel Processing Technology. 2018. V. 174. P. 26-32.
  • Glushkov D.O., Kuznetsov G.V., Strizhak P.A., Syrodoy S.V. Mathematical model simulating the ignition of a droplet of coal water slurry containing petrochemicals // Energy. 2018. V. 150. P. 262-275.
  • Egorov R.I., Valiullin T.R., Strizhak P.A. Energetic and ecological effect of small amount of metalline powders used for doping waste-derived fuels // Combustion and Flame. 2018. V. 193. P. 335-343.
  • Vershinina K.Yu., Shlegel N.E., Strizhak P.A. Influence of the initial temperature of coal water slurries containing petrochemicals on their ignition characteristics // Applied Thermal Engineering. 2018. V. 138. P. 591-602.
  • Glushkov D.O., Kuznetsov G.V., Chebochakova D.A., Lyakhovskaya O.E., Shlegel N.E., Anufriev I.S., Shadrin E.Yu. Experimental study of coal dust ignition characteristics at oil-free start-up of coal-fired boilers // Applied Thermal Engineering. 2018. V. 142. P. 371-379.
  • Kuznetsov G.V., Vershinina K.Yu., Valiullin T.R., Strizhak P.A. Differences in ignition and combustion characteristics of waste-derived oil-water emulsions and coal-water slurries containing petrochemicals // Fuel Processing Technology. 2018. V. 179. P. 407-421.
  • Dmitrienko M.A., Strizhak P.A. Coal-water slurries containing petrochemicals to solve problems of air pollution by coal thermal power stations and boiler plants: An introductory review // Science of the Total Environment. 2018. V. 613–614. P. 1117–1129.
  • Zaitsev A.S., Egorov R.I., Strizhak P.A. Light-induced gasification of the coal-processing waste: Possible products and regimes // Fuel. 2018. V. 212. P. 347–352.
  • Dmitrienko M.A., Legros J.C., Strizhak P.A. Experimental evaluation of main emissions during coal processing waste combustion // Environmental Pollution. 2018. V. 233. P. 299–305.
  • Nyashina G.S., Kuznetsov G.V., Strizhak P.A. Energy efficiency and environmental aspects of the combustion of coal-water slurries with and without petrochemicals // Journal of Cleaner Production. 2018. V. 172. P. 1730-1738.
  • Dmitrienko M.A., Nyashina G.S., Strizhak P.A. Major gas emissions from combustion of slurry fuels based on coal, coal waste, and coal derivatives // Journal of Cleaner Production. 2018. V. 177. P. 284-301.
  • Nyashina G.S., Vershinina K.Yu., Dmitrienko M.A., Strizhak P.A. Environmental benefits and drawbacks of composite fuels based on industrial wastes and different ranks of coal // Journal of Hazardous Materials. 2018. V. 347. P. 359-370.
  • Chernetskiy M.Yu., Vershinina K.Yu., Strizhak P.A. Computational modeling of the combustion of coal water slurries containing petrochemicals // Fuel. 2018. V. 220. P. 109-119.
  • Vershinina K.Yu., Lyrschicov S.Yu., Strizhak P.A. Thermal decomposition and oxidation of coal processing waste // Thermal science. 2018. V. 22. P. 1099–1110.
  • Vershinina K.Yu., Shlegel N.E., Strizhak P.A. A comparison of ignition characteristics of slurry fuels prepared using coal processing waste and finely divided coal // Journal of the Energy Institute. 2018.
  • Nyashina G.S., Strizhak P.A. The influence of liquid plant additives on the anthropogenic gas emissions from the combustion of coal-water slurries // Environmental Pollution. 2018. V. 242, Part A. P. 31-41.
  • Nyashina G.S., Kurgankina M.A., Strizhak P.A. Environmental, economic and energetic benefits of using coal and oil processing waste instead of coal to produce the same amount of energy // Energy Conversion and Management. 2018. V. 174. P. 175-187.
  • Egorov R.I., Zaitsev A.s., Salgansky E. Activation of the Fuels with Low Reactivity Using the High-Power Laser Pulses // Energies. 2018. V. 11 (11). 3167.
  • Piskunov M.V., Strizhak P.A. Using planar laser-induced fluorescence to explain the mechanism of heterogeneous water droplet boiling and explosive breakup // Experimental Thermal and Fluid Science. 2018. V. 91. P. 103–116.
  • G.V. Kuznetsov, M.V. Piskunov, R.S. Volkov, P.A. Strizhak. Unsteady temperature fields of evaporating water droplets exposed to conductive, convective and radiative heating // Applied Thermal Engineering. 2018. V. 131. P. 340–355.
  • Legros J.C., Lutoshkina O.S., Piskunov M.V., Voytkov I.S. Water drops with graphite particles triggering the explosive liquid breakup // Experimental Thermal and Fluid Science. 2018. V. 96. P. 154-161.
  • Volkov R.S., Strizhak P.A. Research of temperature fields and convection velocities in evaporating water droplets using Planar Laser-Induced Fluorescence and Particle Image Velocimetry // Experimental Thermal and Fluid Science. 2018. V. 97. P. 392-407.
  • Voytkov I.S., Volkov R.S., Lutoshkina O.S., Kuznetsov G.V.  Temperature traces of water aerosols, water-based emulsions, solutions and slurries moving in a reversed flow of high-temperature gases // Experimental Thermal and Fluid Science. 2018. V. 98. P. 20-29.
  • Vysokomornaya O.V., Voytkov I.S., Kuznetsov G.V., Abramova A.V.  High-temperature evaporation of water emulsion droplets used in thermal fluid treatment // International Journal of Heat and Mass Transfer. 2018. V. 126. P. 1043-1048.
  • Strizhak P.A., Volkov R.S., Castanet G., Lemoine F., Rybdylova O., Sazhin S.S.  Heating and evaporation of suspended water droplets: Experimental studies and modelling // International Journal of Heat and Mass Transfer. 2018. V. 127. P. 92-106.
  • Volkov R.S., Strizhak P.A., Misyura S.Y., Lezhnin S.I., Morozov V.S.  The influence of key factors on the heat and mass transfer of a sessile droplet // Experimental Thermal and Fluid Science. 2018. V. 99. P. 59–70.
  • Volkov R.S., Kuznetsov G.V., Strizhak P.A.  Temperature and velocity fields of the gas-vapor flow near evaporating water droplets // International Journal of Thermal Sciences. 2018. V. 134. P. 337–354.
  • Strizhak P.A., Volkov R.S., Misyura S.Y., Lezhnin S.I., Morozov V.S.  The role of convection in gas and liquid phases at droplet evaporation // International Journal of Thermal Sciences. 2018. V. 134. P. 421-439.
  • Volkov R.S., Vysokomornaya O.V., Strizhak P.A. Fire extinction of forest fuels by droplets and water film // Thermal Science.Year 2017, Vol. 21, No. 6B, pp. 3005-3016.
  • Legros J.C., Lutoshkina O.S., Piskunov M.V. Vaporization of water droplets with non-metallic inclusions of different sizes in a high-temperature gas // International Journal of Thermal Sciences. 2018. V. 127. P. 360-372.
  • Legros J.C., Lutoshkina O.S., Piskunov M.V., Voytkov I.S. Water drops with graphite particles triggering the explosive liquid breakup // Experimental Thermal and Fluid Science. 2018. V. 96. P. 154-161.
  • Zhdanova A.O., Volkov R.S., Voytkov I.S., Osipov K.Yu., Kuznetsov G.V. Suppression of forest fuel thermolysis by water mist // International Journal of Heat and Mass Transfer. 2018. V. 126. P. 703-714.
  • Volkov R.S., Kuznetsov G.V., Strizhak P.A. Movement of water drops in a forest fuel layer in the course of its thermal decomposition // Thermal Science. 2018. V. 22. P. 301–312.
  • Antonov D.V., Valiullin T.R., Iegorov R.I., Strizhak P.A. Effect of macroscopic porosity onto the ignition of the waste-derived fuel droplets // Energy. 2017. V. 119. P. 1152–1158.
  • Glushkov D.O., Kuznetsov G.V., Strizhak P.A. Ignition of a polymer propellant of hybrid rocket motor by a hot particle // Acta Astronautica. 2017. V. 133. P. 387–396.
  • Valiullin T.R., Strizhak P.A. Influence of the shape of soaring particle based on coal-water slurry containing petrochemicals on ignition characteristics // Thermal Science. 2017. V. 21, No 3. P. 1399–1408.
  • Glushkov D.O., Strizhak P.A. Ignition of composite liquid fuel droplets based on coal and oil processing waste by heated air flow // Journal of Cleaner Production. 2017. V. 165. P. 1445–1461.
  • Vershinina K.Yu., Kuznetsov G.V., Strizhak P.A. Sawdust as ignition intensifier of coal water slurries containing petrochemicals // Energy. 2017. V. 140. P. 69–77.
  • Iegorov R.I., Valiullin T.R., Strizhak P.A. Combustion of the coal-water slurry doped by combustible and non-combustible micro-particles // Applied Thermal Engineering. 2017. V. 113. P. 1021–1023.
  • Kuznetsov G.V., Lyrschikov S.Yu., Shevyrev S.A., Strizhak P.A. Ignition of the Coal−Water Slurry Containing Petrochemicals and Charcoal // Energy&Fuels. 2017. V. 30. P. 10886–10892.
  • Strizhak P.A., Vershinina K.Yu. Maximum combustion temperature for coal-water slurry containing petrochemicals // Energy. 2017. V. 120. P. 34–46.
  • Kuznetsov G.V., Strizhak P.A. Coagulation and splitting of droplets of coal-water slurry containing petrochemicals and their effect on ignition characteristics // Applied Thermal Engineering. 2017. V. 116. P. 266–277.
  • Egorov R.I., Strizhak P.A. The light-induced gasification of waste-derived fuel // Fuel. 2017. V. 197. P. 28–30.
  • Nyashina G., Legros J.C., Strizhak P. Environmental Potential of Using Coal-Processing Waste as the Primary and Secondary Fuel for Energy Providers // Energies. 2017. 10 (3), 405.
  • Valiullin T.R., Egorov R.I., Strizhak P.A. Effect of Small Amount of Aluminum Powder on the Combustion of the Waste-Derived Coal-Water Slurry // Energy&Fuels. 2017. V. 31. P. 1044–1046.
  • Valiullin T.R., Strizhak P.A., Shevyrev S.A. Low temperature combustion of organic coal-water fuel droplets containing petrochemicals while soaring in a combustion chamber model // Thermal Science. 2017. V. 21, No 2. P. 1057–1066.
  • Dmitrienko M.A., Strizhak P.A. Environmentally and economically efficient utilization of coal processing waste // Science of the Total Environment. 2017. V. 598. P. 21–27.
  • Egorov R.I., Valiullin T.R., Strizhak P.A. Combustion of metalized by aluminum waste-derived fuel compositions // Combustion and Flame. 2017. V. 182. P. 14–19.
  • Dmitrienko M.A., Nyashina G.S., Strizhak P.A. Environmental indicators of the combustion of prospective coal water slurry containing petrochemicals // Journal of Hazardous Materials. 2017. V. 338. P. 148–159.
  • Strizhak P.A., Piskunov M.V., Volkov R.S., Legros J.C. Evaporation, boiling and explosive breakup of oil-water emulsion drops under intense radiant heating // Chemical Engineering Research and Design. 2017. V. 127. P. 72–80.
  • Valiullin T.R., Egorov R.I., Strizhak P.A. Perspectives of usage of the rapeseed oil for doping of the waste-based industrial fuel // Energy&Fuels. 2017. V. 31, No 9. P. 10116–10120.
  • Kuznetsov G.V., Strizhak P.A., Volkov R.S. Temperature measurement in the trace of water droplet when heating by hot air // Experimental Thermal and Fluid Science. 2017. V. 81. P. 256–264.
  • Kuznetsov G.V., Strizhak P.A., Volkov R.S., Voytkov I.S. Gas temperature in the trace of water droplets streamlined by hot air flow // International Journal of Multiphase Flow. 2017. V. 91. P. 184–193.
  • Legros J.C., Miadlin A., Strizhak P., Shevtsova V. Permeation of supercritical CO2 through perfluoroelastomers // The Journal of Supercritical Fluids. 2017. V. 126. P. 1–13.
  • Voytkov I.S., Volkov R.S., Strizhak P.A. Reducing the flue gases temperature by individual droplets, aerosol, and large water batches // Experimental Thermal and Fluid Science. 2017. V. 88. P. 301–316.
  • Volkov R.S., Strizhak P.A. Planar laser-induced fluorescence diagnostics of water droplets heating and evaporation at high-temperature // Applied Thermal Engineering. 2017. V. 127. P. 141–156.
  • Kuznetsov G.V., Piskunov M.V., Strizhak P.A. How to improve efficiency of using water when extinguishing fires through the explosive breakup of drops in a flame: Laboratory and field tests // International Journal of Thermal Sciences. 2017. V. 121. P. 398–409.
  • Vysokomornaya O.V., Piskunov M.V., Strizhak P.A. Breakup of heterogeneous water drop immersed in high-temperature air // Applied Thermal Engineering. 2017. V. 127. P. 1340–1345.
  • Volkov R.S., Strizhak P.A. Motion of water droplets in the counter flow of high-temperature combustion products // Heat Mass Transfer. 2017. P. 1–15. 10.1007/s00231-017-2121-5.
  • Strizhak P.A., Volkov R.S., Piskunov M.V., Zabelin M.V. Transformation of water ball falling in high-temperature gases // Atomization and Sprays. 2017. V. 27. No 10. P. 893–911.
  • Voitkov I.S., Volkov R.S., Strizhak P.A. Temperature of gases in a trace of water droplets during their motion in a flame // Thermal Science. Year 2017, Vol. 21, No. 6B, pp. 2993-3004.
  • Piskunov M.V., Strizhak P.A., Volkov R.S., Zhdanova A.O. The features of heterogeneous water droplet evaporation in high-temperature combustion products of typical flammable liquids // Thermal Science. 2017. V. 21, No 2. P. 1043–1055.
  • Zhdanova A.O., Kuznetsov G.V., Legros J.C., Strizhak P.A. Thermal conditions for stopping pyrolysis of forest combustible material and applications to firefighting // Thermal Science. 2017. V. 21, No 6A. P. 2559–2571.
  • Glushkov D.O., Legros J.C., Strizhak P.A., Volkov R.S. Heat and mass transfer at the ignition of vapors of volatile liquid fuels by hot metal core: Experimental study and modelling // International Journal of Heat and Mass Transfer. 2016. V. 92. 1182–1190.
  • Glushkov D.O., Legros J.-C., Strizhak P.A., Zakharevich A.V. Experimental and numerical study of heat transfer and oxidation reaction during ignition of diesel fuel by a hot particle // Fuel. 2016. V. 175. P. 105–115.
  • Glushkov D.O., Syrodoy S.V., Zakharevich A.V., Strizhak P.A. Ignition of promising coal-water slurry containing petrochemicals: Analysis of key aspects // Fuel Processing Technology. 2016. V. 148. P. 224–235.
  • Vershinina K.Yu., Kuznetsov G.V., Strizhak P.A. Ignition Characteristics of Coal–Water Slurry Containing Petrochemicals Based on Coal of Varying Degrees of Metamorphism // Energy&Fuels. 2016. V. 30, № 8. P. 6808–6816.
  • Glushkov D.O., Shabardin D.P., Strizhak P.A., Vershinina K.Yu. Influence of organic coal-water fuel composition on the characteristics of sustainable droplet ignition // Fuel Processing Technology. 2016. V. 143. P. 60–68.
  • Glushkov D.O., Strizhak P.A., Vershinina K.Yu. Minimum temperatures for sustainable ignition of coal water slurry containing petrochemicals // Applied Thermal Engineering. 2016. V. 96. P. 534–546.
  • Glushkov D.O., Lyrschikov S.Yu., Shevyrev S.A., Strizhak P.A. Burning Properties of Slurry Based on Coal and Oil Processing Waste // Energy&Fuels. 2016. V. 30, No 4. P. 3441–3450.
  • Glushkov D.O., Kuznetsov G.V., Strizhak P.A. Simultaneous ignition of several droplets of coal–water slurry containing petrochemicals in oxidizer flow // Fuel Processing Technology. 2016. V. 152. P. 22–33.
  • Iegorov R., Valliulin T., Strizhak P. The effect of the petrochemicals at the ignition of the coal-water slurry droplet // Applied Thermal Engineering. 2016. V. 106. P. 351–353.
  • Vershinina K.Yu., Egorov R.I., Strizhak P.A. The ignition parameters of the coal-water slurry droplets at the different methods of injection into the hot oxidant flow // Applied Thermal Engineering. 2016. V. 107. P. 10–20.
  • Kuznetsov G.V., Piskunov M.V., Strizhak P.A. Evaporation, boiling and explosive breakup of heterogeneous droplet in a high-temperature gas // International Journal of Heat and Mass Transfer. 2016. V. 92. P. 360–369.
  • Volkov R.S., Piskunov M.V., Kuznetsov G.V., Strizhak P.A. Water Droplet With Carbon Particles Moving Through High Temperature Gases // Journal of Heat Transfer. 2016. V. 138, № 1. 014502. P. 1–5.
  • Volkov R.S., Kuznetsov G.V., Legros J.C., Strizhak P.A. Experimental investigation of consecutive water droplets falling down through high-temperature gas zone // International Journal of Heat and Mass Transfer. 2016. V. 95. P. 184–197.
  • Volkov R.S., Kuznetsov G.V., Strizhak P.A. Influence of droplet concentration on evaporation in a high-temperature gas // International Journal of Heat and Mass Transfer. 2016. V. 96. P. 20–28.
  • Strizhak P.A., Volkov R.S. The integral characteristics of the deceleration and entrainment of water droplets by the counter flow of high-temperature combustion products // Experimental Thermal and Fluid Science. 2016. V. 75. P. 54–65.
  • Glushkov D.O., Kuznetsov G.V., Strizhak P.A., Volkov R.S. Experimental investigation of evaporation enhancement for water droplet containing solid particles in flaming combustion area // Thermal Science. 2016. V. 20, № 1. P. 131–141.
  • Piskunov M.V., Strizhak P.A., Shcherbinina A.A. Intensive evaporation and boiling of a heterogeneous liquid droplet with an explosive disintegration in high-temperature gas area // Thermal Science. 2016. V. 20, № 2. P. 541–553.
  • Kuznetsov G.V., Strizhak P.A., Volkov R.S., Vysokomornaya O.V. Integral characteristics of water droplet evaporation in high temperature combustion products of typical flammable liquids using SP and IPI methods // International Journal of Thermal Sciences. 2016. V. 108. P. 218–234.
  • Volkov R.S., Kuznetsov G.V., Kuibin P.A., Strizhak P.A. Features of Water Droplet Deformation during Motion in a Gaseous Medium under Conditions of Moderate and High Temperatures // High Temperature. 2016. V. 54, № 5. P. 722–730.
  • Glushkov D.O., Strizhak P.A., Vysokomornaya O.V. Numerical research of heat and mass transfer during low-temperature ignition of a coal particle // Thermal Science. 2015. V. 19. № 1. P. 285–294.
  • Glushkov D.O., Strizhak P.A. Mathematical Modeling of Heat and Mass Transfer Processes with Chemical Reaction at Polymeric Material Ignition by Several Small-Size Hot Particles // Mathematical Problems in Engineering. 2015. V. 2015, Article ID 614143, 8 p.
  • Volkov R.S., Kuznetsov G.V., Strizhak P.A. Experimental investigation of mixtures and foreign inclusions in water droplets influence on integral characteristics of their evaporation during motion through high-temperature gas area // International Journal of Thermal Sciences. 2015. V. 88. P. 193–200.
  • Volkov R.S., Kuznetsov G.V., Strizhak P.A. Water droplet deformation in gas stream: Impact of temperature difference between liquid and gas // International Journal of Heat and Mass Transfer. 2015. V. 85. P. 1–11.
  • Kuznetsov G.V., Kuibin P.A., Strizhak P.A. Estimation of the Numerical Values of the Evaporation Constants of the Water Drops Moving in the High Temperature Gas Flow // High Temperature. 2015. V. 53, № 2. P. 254–258.
  • Kostornov A.G., Moroz A.L., Shapoval A.A., Kabov O., Strizhak P., Legros J.C. Composite structures with gradient of permeability to be used in heat pipes under microgravity // Acta Astronautica. 2015. V. 115. P. 52–57.
  • Vysokomornaya O.V., Kuznetsov G.V., Strizhak P.A. Numerical Analysis of Integral Characteristics for the Condenser Setups of Independent Power-Supply Sources with the Closed-Looped Thermodynamic Cycle // Mathematical Problems in Engineering. 2015. V. 2015, Article ID 535747, 7 p.
  • Glushkov D.O., Kuznetsov G.V., Strizhak P.A. Influence of radiative heat and mass transfer mechanism in system water droplet – high-temperature gases on integral characteristics of liquid evaporation // Thermal Science. 2015. V. 19, № 5. P. 1541–1552.

  • Glushkov D.O., Strizhak P.A. Transient Heat and Mass Transfer of Liquid Droplet Ignition at the Spreading over the Heated Substrate // Advances in Mechanical Engineering, 2014. Volume 2014, Article ID 269321.
  • Glushkov D.O., Kuznetsov G.V., Strizhak P.A. Research of Macroscopic Regularities of Heat and Mass Transfer at the Ignition Condition of a Liquid High-Energy Material by an Immersed Source with a Limited Energy Capacity // Advances in Mechanical Engineering, 2014. Volume 2014, Article ID 764537.
  • Glushkov D.O., Kuznetsov G.V., Strizhak P.A. Numerical and Experimental Research of Heat and Mass Transfer at the Heterogeneous System Ignition by Local Energy Source with Limited Heat Content // Mathematical Problems in Engineering. Volume 2014, Article ID 281527.
  • Vysokomornaya O.V.,  Kuznetsov G.V., Strizhak P.A. Mathematical Simulation of Heat and Mass Transfer Processes at the Ignition of Liquid Fuel by Concentrated Flux of Radiation // Mathematical Problems in Engineering. Volume 2014 (2014), Article ID 156150.
  • Glushkov D.O., Strizhak P.A. Transient Heat and Mass Transfer of Liquid Droplet Ignition at the Spreading over the Heated Substrate // Advances in Mechanical Engineering, 2014. Volume 2014, Article ID 269321.
  • Antonov D.V., Kuznetsov G.V., Strizhak P.A. Comparison of the characteristics of micro-explosion and ignition of two-fluid water-based droplets, emulsions and suspensions, moving in the high-temperature oxidizer medium // Acta Astronautica. 2019. V. 160. P. 258–269.
  • Kuznetsov G.V., Strizhak P.A. Evaporation of Single Droplets and Dispersed Liquid Flow in Motion through High Temperature Combustion Products // High Temperature, 2014, V. 52, № 4, P. 568–575.
  • Glushkov D.O., Kuznetsov G.V., Strizhak P.A. Numerical Investigation of Water Droplets Shape Influence on Mathematical Modeling Results of Its Evaporation in Motion through a High-Temperature Gas // Mathematical Problems in Engineering. Volume 2014 (2014), Article ID 920480.
  • Volkov R.S., Vysokomornaya O.V.,  Kuznetsov G.V., Strizhak P.A. Investigation of Regularities of Heat and Mass Transfer and Phase Transitions during Water Droplets Motion through High-Temperature Gases // Advances in Mechanical Engineering. Volume 2014 (2014), Article ID 865856.
  • Volkov R.S., Kuznetsov G.V., Strizhak P.A. The influence of initial sizes and velocities of water droplets on transfer characteristics at high-temperature gas flow // International Journal of Heat and Mass Transfer. 2014. V. 79. P. 838–845.
  • Vysokomornaya O.V.,  Kuznetsov G.V., Strizhak P.A. Experimental investigation of atomized water droplet initial parameters influence on evaporation intensity in flaming combustion zone // Fire Safety Journal. 2014. V. 70. P. 61–70.