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V.P. Bezlepkin (1997)
Parogazovye i paroturbinnye ustanovki elektrostantsii
ISSN 1068-364X, Coke and Chemistry, 2007, Vol. 50, No. 10, pp. 315–316. © Allerton Press, Inc., 2007. Original Russian Text © S.V. Fedulov, 2007, published in Koks i Khimiya, 2007, No. 10, pp. 43–44. EQUIPMENT. ENERGETICS S. V. Fedulov ZAO NPK Promenergomet DOI: 10.3103/S1068364X07100080 Many coke plants have yet to make productive use of furnace shutdown, the whole exhaust-gas flux from of the heat in the gas that leaves the coke furnace, which the turbine is sent to the waste-heat boiler. To maintain accounts for around 17% of the heat expenditures in constant gas temperature ahead of the waste-heat boiler coking. in the event of coke-furnace shutdown, an attractive option is to install a prefurnace unit at that point, oper- This heat may be put to good use, with correspond- ating on the basis of coke-oven gas and the turbine ing decrease in the overall resource costs of ferrous exhaust as the oxidant. The installation of such a unit metallurgy, by creating a special system consisting of a may be economically justified by its proximity to the steam–gas power unit and a coke battery. generation of coke-oven gas and by the high steam Combining the production of electric power
Coke and Chemistry – Springer Journals
Published: Feb 1, 2007
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