Abstract
Proposals for adapting the equipment of cogeneration stations to a new kind of fuel differing from the design one are given, and recommendations are suggested on using multifunctional burners making possible to conduct a low-temperature slagging-free furnace process.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
V. V. Osintsev, A. K. Dzhundubaev, V. Ya. Gigin, et al., “Shifting a BKZ-160 Boiler for the Technology of Staged Fuel Combustion,” Elektr. Stn., No. 3, 25–29 (1993).
Thermal Design of Boilers: A Standard Method, a revised and extended 3rd ed. (NPO TsKTI, St. Petersburg, 1998) [in Russian].
V. V. Mitor and Yu. L. Marshak, Designing Furnaces with Dry-Ash Removal (a Supplement to the Standard Method for Thermal Design of Boiler Units). Guidelines, Issue 42 (NPO TsKTI, Leningrad, 1981) [in Russian].
V. V. Osintsev, M. P. Sukharev, E. V. Toropov, and K. V. Osintsev, “Controlling the Thermal Structure of the Flame in the Furnaces of BKZ-210-140F Boilers with Single-Tier Frontal Arrangement of Multifunctional Burners when Burning Various Kinds of Fuel,” Therm. Eng., No. 9, 678 (2005).
K. V. Osintsev, V. V. Osintsev, M. P. Sukharev, and E. V. Toropov, “Improving the Fuel Combustion Process in BKZ-210-140F Boilers,” Elektr. Stn., No. 11, 13–19 (2006).
V. V. Osintsev, G. F. Kuznetsov, V. V. Petrov, and M. P. Sukharev, “Specific Features and Organization of the Flame Process in a Furnace Equipped with Multifunctional Burners,” Elektr. Stn., No. 11, 14–19 (2002).
K. V. Osintsev, “Calculating the Parameters Characterizing the Initial Part of a Polydispersed Flame with Reagents Admitted into the Furnace in a Frontal Direct-Flow Manner,” Tepl. Prots. v Tekhn. 1(9), 379–382 (2009).
V. V. Osintsev, G. F. Kuznetsov, V. V. Petrov, and M. P. Sukharev, “An Analysis of the Results of the Pilot Firing of Highly Reactive Brown Coal in a BKZ-210-140F Boiler,” Therm. Eng., No. 8, 639 (2003).
K. V. Osintsev and V. V. Osintsev, “Taking into Account the Nonuniform and Unstable Thermal Structure of a Furnace Fireball when Using Multifunctional Burners,” Therm. Eng., No. 6, 492 (2007).
K. V. Osintsev, “A Method for Decreasing Heat Flux toward the Burner Throats,” Elektr. Stn., No. 11, 13–17 (2009).
V. V. Osintsev, K. V. Osintsev, A. M. Khidiyatov, et al., “Improvement of Methods for Reducing Temperature Nonuniformities in Furnaces with Frontal Arrangement of Burners,” Therm. Eng., No. 4 (1990).
K. V. Osintsev, “Organizing Low-Temperature Flame Combustion of Pulverized Coal in Boilers,” Tyazh. Mashinostr., No. 12, 15–19 (2010).
V. V. Osintsev, A. K. Dzhundubaev, V. Ya. Gigin, et al., “Shifting a BKZ-220 Boiler for the Technology of Staged Fuel Combustion,” Elektr. Stn., No. 11, 17–22 (1991).
M. A. Mikheev and M. V. Kirpichev, Simulation of Thermal Devices (Akad. Nauk SSSR, Moscow, Leningrad, 1936) [in Russian].
S. S. Kutateladze, D. N. Lyakhovskii, and V. A. Permyakov, Simulation of Thermal Power Equipment (Energiya, Moscow, Leningrad, 1966) [in Russian].
V. V. Osintsev, “Aerodynamics and Temperature Fields in the Gas Conduits of Pulverized-Coal Boilers,” Therm. Eng., No. 11 (1989).
Author information
Authors and Affiliations
Additional information
Original Russian Text © K.V. Osintsev, 2012, published in Teploenergetika.
Rights and permissions
About this article
Cite this article
Osintsev, K.V. Changeover to low-temperature combustion of fuel in the boilers at cogeneration stations in Bishkek. Therm. Eng. 59, 598–603 (2012). https://doi.org/10.1134/S0040601512080113
Published:
Issue Date:
DOI: https://doi.org/10.1134/S0040601512080113