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A. Kijo-Kleczkowska (2011)
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H. Tian, Yan Wang, Z. Xue, Yiping Qu, F. Chai, J. Hao (2011)
Atmospheric emissions estimation of Hg, As, and Se from coal-fired power plants in China, 2007.The Science of the total environment, 409 16
D. Glushkov, P. Strizhak, M. Chernetskii (2016)
Organic coal-water fuel: Problems and advances (Review)Thermal Engineering, 63
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(2011)
Ignition of solid fuels and artificial composite liquid fuel
G.N. Delyagin, A.I. Kulinich, V.I. Kirsanov (1969)
Gorenie dispersnykh toplivnykh sistem
K. Osintsev (2012)
Studying flame combustion of coal-water slurries in the furnaces of power-generating boilersThermal Engineering, 59
(2012)
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(2011)
Analysis of combustion of artificial composite liquid fuel in the cyclone primary furnaces
(1969)
Experimental analysis of the combustion of a drop of an aqueous suspension from lignite and gas coal, in Gorenie dispersnykh toplivnykh sistem (Combustion of Dispersed Fuel Systems)
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P. Strizhak, K. Vershinina (2017)
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T.A. Sharabura, V.A. Pinchuk, N. Devčić (2012)
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T. Valiullin, P. Strizhak, S. Shevyrev, A. Bogomolov (2017)
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(2006)
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S. Guttikunda, P. Jawahar (2014)
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Xiumin Jiang, Xiangxin Han, Z. Cui (2007)
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A. Burdukov, V. Popov, V. Tomilov, V. Fedosenko (2002)
The rheodynamics and combustion of coal–water mixturesFuel, 81
The requirements for stable ignition (and subsequent combustion) of fuel suspensions prepared from typical coal- and oil-processing wastes are studied experimentally. Attention focuses on the differences between the ignition characteristics of coal–water slurries (containing petrochemicals) obtained on the basis of filter cakes containing T, K, SS, Zh, D, and G coal. To eliminate the influence of the droplet holder (traditionally, thermocouple junctions, ceramic rods, or metal wire) on the ignition characteristics of the fuel droplet, the experiments employ a special model combustion chamber and a device for introducing a single drop of suspension. The ignition time and the minimum temperature of stable ignition of a droplet of coal–water slurries suspended in an oxidant flux are established. The influence of the following factors on the initiation of fuel combustion is determined: the oxidant temperature, the droplet size, the size of the coal dust, and the properties and concentrations of the components. The compositions of the coal–water slurries corresponding to optimal ignition (minimum inertia) are identified.
Coke and Chemistry – Springer Journals
Published: Sep 3, 2017
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