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Kuznetsov G.V., Strizhak P.A. Transient heat and mass transfer at the ignition of vapor and gas mixture by a moving hot particle // International Journal of Heat and Mass Transfer. 2010. V. 53, Issues 5–6. P. 923–930.
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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.
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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.
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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.
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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.
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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.
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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.
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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.
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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.
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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.
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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.
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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.
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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.
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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.
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Strizhak P.A., Vershinina K.Yu. Maximum combustion temperature for coal-water slurry containing petrochemicals // Energy. 2017. V. 120. P. 34–46.
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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.
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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.
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Egorov R.I., Strizhak P.A. The light-induced gasification of waste-derived fuel // Fuel. 2017. V. 197. P. 28–30.
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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.
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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.
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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.
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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.
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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.
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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.
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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.
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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.
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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.
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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.
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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.
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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.
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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.
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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.
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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.
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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.
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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.
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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.
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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.
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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.
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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.
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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.
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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.
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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.
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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.
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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.
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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.