Abstract
The problem of particle ignition of coal–water fuel has been solved. The simultaneous processes of water vaporization and thermal decomposition of the solid fuel are taken into account. The conditions and characteristics of particle ignition of coal–water fuel under typical furnace conditions were determined by numerical simulation. The obtained values of the ignition delay time are in good agreement with published experimental data.
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References
G. N. Delyagin, “Problems in the Theory of Combustion of Coal–Water Slurry in a Stream of Air,” in Problems in the Theory of Combustion of Highly Watered Fuel (Nauka, Moscow, 1967), pp. 45–55 [in Russian].
V. M. Tret’yakov, “Ignition of Fossil Coal Particles Suspended in Air,” Izv. Vseros. Teplotekh. Inst., No. 8, 11–17 (1951).
G. N. Delyagin, “Problems in the Theory of Ignition and Combustion of Coal–Water Slurry Spray,” in The Kinetics and Aerodynamics of Fuel Combustion Processes (Nauka, Moscow, 1969), pp. 111–127 [in Russian].
V. V. Salomatov and I. V. Kravchenko, “Theoretical Study of the Combustion of Coal–Water Fuel Droplets. Part I: Heating Step,” Gorenie Plasmokhim. 3, 178–188 (2007).
V. V. Salomatov and I. V. Kravchenko, “Theoretical Study of the Combustion of Coal–Water Fuel Droplet. Part II: Vaporization Step,” Gorenie Plasmokhim. 5 (3), 189–197 (2007).
V. V. Salomatov and I. V. Kravchenko, “Theoretical Study of the Combustion of Coal–Water Fuel Droplets. Part III,” Gorenie Plasmokhim. 6 (1), 56–59 (2008).
V. V. Salomatov and I. V. Kravchenko, “Theoretical Study of the Combustion of Coal–Water Fuel Droplets. Part IV,” Gorenie Plasmokhim. 6 (4), 178–187 (2008).
Z. Huang et al., “Theoretical Analysis on CWM Drop Combustion History,” in Proc. 8th Int. Symp. Coal Slurry Fuels Preparation and Utilization (USA, Orlando, 1986), Part 1, pp. 343–358.
K. J. Matthews and A. R. Jones, “The Effect of Coal Composition on Coal–Water Slurry Combustion and Ash Deposition Characteristics,” in Proc. 8th Int. Symp. Coal Slurry Fuels Preparation and Utilization (USA, Orlando, 1986), Part 1, pp. 388–407.
G. N. Delyagin, V. I. Kirsanov, and A. D. Onishchenko, “Cmbustion of an Anthracite Culm in the Form of Coal–Water Suspensions in a Furnace Boiler,” in The Combustion of Dispersed Fuel Systems (Nauka, Moscow, 1969),pp. 33–39 [in Russian].
G. N. Delyagin, “On the Conditions of Simultaneous Processes of Water Vaporization and Combustion of a Coal–Water Slurry Droplet,” in Combustion of Highly Watered Fuel in the Form of Coal–Water Slurry (Nauka, Moscow, 1967),pp. 55–67 [in Russian].
L. N. Khitrin, Combustion and Explosion Physics (Moscow State Univ., Moscow, 1957) [in Russian].
I. S. Reshetnikov, A. V. Antonov, and N. A. Khalturinskii, “Mathematical Description of the Combustion Intumescent Polymer Systems (Review),” Fiz. Goreniya Vzryva 33 (6), 48–67 (1997)
I. S. Reshetnikov, A. V. Antonov, and N. A. Khalturinskii, Combust., Expl., Shock Waves 33 (6), 669–684 (1997).
V. L. Strakhov, A. N. Garashchenko, G. V. Kuznetsov, V. P. Rudzinskii, “Mathematical Simulation of Thermophysical and Thermochemical Processes during Combustion of Intumescent Fire Protective Coatings,” Fiz. Goreniya Vzryva 37 (2), 63–73 (2001)
V. L. Strakhov, A. N. Garashchenko, G. V. Kuznetsov, V. P. Rudzinskii, Combust., Expl., Shock Waves 37 (2), 178–186 (2001).
T. V. Vilenskii, “Calculation of the Combustion of Coal–Water Slurry,” Energetika, No. 7, 90–93 (1988).
V. N. Vilyunov, Theory of Condensed-Material Ignition (Nauka, Novosibirsk, 1984) [in Russian].
K. S. Basniev and I. N. Kochina, Underground Hydrodynamics (Nedra, Moscow, 2009) [in Russian].
V. M. Gremyachkin, “On the Interaction of a Porous Carbon Particle with Steam,” Khim. Fiz. 26 (5), 26–33 (2007).
D. A. Frank-Kamenetskii, Diffusion and Heat Transfer in Chemical Kinetics (Nauka, Moscow, 1987; Plenum, New York, 1969).
V. V. Pomerantsev, Fundamentals of Practical Combustion Theory: A Textbook for High Schools (Energoatomizdat, Leningrad, 1986) [in Russian].
Ya. I. Frenkel’, Kinetic Theory of Liquids (Nauka, Leningrad, 1975) [in Russian].
N. S. Bakhvalov, Numerical Methods (Nauka, Moscow 1975) [in Russian].
A. A. Samarskii, Theory of Difference Schemes (Nauka, Moscow, 1983) [in Russian].
G. B. Kuznetsov, G. Ya. Mamontov, and G. V. Taratushkina, “Numerical Simulation of the Ignition of a Condensed Matter Particle Heated to High Temperatures,” Khim. Fiz. 23 (3), 67–73 (2004).
G. V. Kuznetsov, G. Ya. Mamontov, and G. V. Taratushkina, “Numerical Simulation of Ignition of a Condensed Substance by a Particle Heated to High Temperatures,” Fiz. Goreniya Vzryva 40 (1), 78–85 (2004)
G. V. Kuznetsov, G. Ya. Mamontov, and G. V. Taratushkina, Combust., Expl., Shock Waves 40 (1), 70–76 (2004).
A. A. Agroskin and V. B. Gleibman, Thermal Physics of Solid Fuels (Nedra, Moscow, 1980) [in Russian].
V. I. Babii, V. M. Barabash, A. M. Khidiyatov, and V. A. Stepashina, “Ignition and Combustion of Coal–Water Slurry Droplets,” in Proc. 9 All-Russian Symposium on Combustion and Explosion (Chernogolovka, 1989),pp. 56–59.
A. V. Lykov, Theory of Drying (Energiya, Moscow, 1968) [in Russian].
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Original Russian Text © G.V. Kuznetsov, V.V. Salomatov, S.V. Syrodoy.
Published in Fizika Goreniya i Vzryva, Vol. 51, No. 4, pp. 11–19, July–August, 2015.
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Kuznetsov, G.V., Salomatov, V.V. & Syrodoy, S.V. Numerical simulation of ignition of particles of a coal–water fuel. Combust Explos Shock Waves 51, 409–415 (2015). https://doi.org/10.1134/S0010508215040024
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DOI: https://doi.org/10.1134/S0010508215040024