Abstract
We consider criteria used to select the optimal operating conditions for firing fuel in boilers with moderate controlled incomplete combustion, the fulfillment of which makes it possible to reduce the emissions of nitrogen oxides by 20–40% and cut the overall operational costs of a power station for fuel and payment for harmful emissions into the atmosphere.
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References
A. P. Kovalev, N. S. Leleev, and T. V. Vilenskii, Steam Generators: A Handbook for Higher Schools, Ed. by A. P. Kovalev (Energoatomizdat, Moscow, 1985) [in Russian].
V. R. Kotler, Nitrogen Oxides in Flue Gases from Boilers (Energoatomizdat, Moscow, 1987) [in Russian].
V. L. Shulman, Methodical Recommendations. Technological Methods for Reducing Nitrogen Oxide Emissions and Their Application in the Industry Branch (Uraltekhenergo, Sverdlovsk, 1989) [in Russian].
P. V. Roslyakov, Methods for Protecting the Environment (MEI, Moscow, 2007) [in Russian].
GOST (State Standard) R 50831-95: Boiler Installations. Heat-Generating and Mechanical Equipment. General Technical Requirements (Izd. Standartov, Moscow, 1996).
Environment Protection Technologies at Thermal Power Stations, Ed. by G. G. Ol’khovskii, A. G. Tumanovskii, and V. P. Glebov (VTI, Moscow, 1996) [in Russian].
V. R. Kotler and Yu. P. Enyakin, “The Implementation and Efficiency of Technological Methods for Suppressing Nitrogen Oxides at Thermal Power Stations,” Teploenergetika, No. 6, 2–9 (1994) [Therm. Eng., No. 6 (1994)].
RF Government Decree No. 344 of June 12, 2003 “On the Rates of Charge for Atmospheric Emissions of Polluting Substances from Stationary and Movable Sources, for Discharges of Polluting Substances into Surface and Underground Water Bodies, and Disposal of Production and Consumption Wastes (with Amendment of July 1, 2005).”
P. V. Roslyakov, I. A. Zakirov, I. L. Ionkin, and L. E. Egorova, “Assessment of the Overall Harmfulness of the Flue Gases from a Boiler Unit,” Teploenergetika, No. 9, 30–34 (2005) [Therm. Eng., No. 9 (2005)].
P. V. Roslyakov, I. L. Ionkin, and L. E. Egorova, “Firing Natural Gas with Controlled Incomplete Combustion as an Efficient Means for Reducing Nitrogen Oxide Emissions,” Novoe v Ross. Elektroenerg., No. 12, 23–35 (2006).
P. V. Roslyakov, I. L. Ionkin, and K. A. Pleshanov, “Efficient Combustion of Fuels with Controlled Chemical Underburning,” Teploenergetika, No. 1, 20–23 (2009) [Therm. Eng., No. 1 (2009)].
SO (Industry Branch Standard) 34.02.320-2003: Methodical Guidelines. Making Arrangements for Monitoring Gas Composition of Combustion Products from Stationary Steam and Hot-Water Boilers (SPO ORGRES, Moscow, 2003) [in Russian].
Energy Strategy of Russia for the Period Up to the Year 2020 (RF Ministry of Energy, Moscow, 2000) [in Russian].
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Original Russian Text © P.V. Roslyakov, K.A. Pleshanov, I.L. Ionkin, 2010, published in Teploenergetika.
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Roslyakov, P.V., Pleshanov, K.A. & Ionkin, I.L. The optimal conditions for firing fuel with controlled incomplete combustion. Therm. Eng. 57, 290–295 (2010). https://doi.org/10.1134/S0040601510040038
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DOI: https://doi.org/10.1134/S0040601510040038