The results of the development and study of the start-up sequence for an E-240-13.8-560KT steam boiler are presented. Criteria of reliable operation of boiler components during start-up are proposed. The change in the main operating conditions of the boiler during start-up is described. The use of emergency start-up injection is justified. The effect of the wall thickness of the drum on the start-up of the boiler is analyzed.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
V. A. Dvoinishnikov and E. A. Popov, “Specific features of the stressed state arising in the high-pressure drum of a combinedcycle plant’s heat-recovery boiler during its startup,” Therm. Eng., 58(8), 634 – 640 (2011).
K. A. Pleshanov, I. L. Ionkin, P. V. Roslyakov, R. S. Maslov, A. V. Ragutkin, and O. E. Kondrat’eva, “Combustion of bark and wood waste in the fluidized bed boiler,” Therm. Eng., 63(11), 813 – 818 (2016).
RD 34.20.501–95. Operating Rules and Regulations for Power Plants and Grids of the Russian Federation [in Russian], order No. 229 of the Ministry for the Power Generating Industry of Russia of 6/19/2003, DEAN, St. Petersburg (2012).
V. I. Trembovlya and I. M. Meksin (eds.), Experience of Starting up and Operating 150 MW Units of the Pridneprovskaya TPP in 1960 and 1961 [in Russian], ORGRÉS, Moscow (1962).
RD 34.25.511. Typical Instructions on Start-up from Different Thermal States and Shutdown of a 200 MW Power Unit with a Turbine and a TP-100 Boiler (for Control of Power System Load) [in Russian], SPO ORGRÉS, Moscow (1977).
TI 34-70-048–85. Typical Instructions on Start-up from Different Thermal States and Shutdown of a 110 MW Power Unit with a T-110/120-130 Turbine and a Gas-and-Oil-Fired Boiler [in Russian], SPO Soyuztekhenergo, Moscow (1986).
RD 34.25.102–87. Typical Start-Up Sequence for a District-Heating Unit with a T-110/120-130 Turbine and a Drum Boiler [in Russian], SPO Soyuztekhenergo, Moscow (1988).
RD 34.26.514–94. Typical Instructions on Start-up from Different Thermal States and Shutdown of a Steam Boiler at Cross-Connection Thermal Power Plants [in Russian], SPO ORGRÉS, Moscow (1995).
T. S. Kontorovich and Yu. A. Radin, “Calculation of low-cycle fatigue in accordance with the national standard and strength codes,” Therm. Eng., 64(8), 610 – 616 (2017).
K. A. Pleshanov, K. A. Pleshanov, K. V. Sterkhov, and M. N. Zaichenko, “Calculating the dynamic characteristics of a boiler-utilizer at the Novogor’kovskaya heat and electric power plant,” Power Technol. Eng., 49(3), 206 – 211 (2015).
K. A. Pleshanov, K. V. Sterkhov, and P. V. Roslyakov, “Stability of natural circulation in a vertical boiler-utilizer loop with horizontal evaporator pipes during startup,” Power Technol. Eng., 50(4), 407 – 412 (2016).
O. M. Baldin, V. A. Lokshin (ed.), D. F. Peterson, et al., Hydraulic Design of Boiler Units (Standard Method) [in Russian], Énergiya, Moscow (1978).
D. M. Khzmalyan and Ya. A. Kagan, Theory of Combustion and Furnaces [in Russian], Énergiya, Moscow (1976).
V. Roslyakov, Raivo Attikas, M. N. Zaichenko, K. A. Pleshanov, and I. L. Ionkin, “Studying the possibility of separate and joint combustion of Estonian shales and oil shale retort gas at thermal power plants,” Therm. Eng., 62(10), 691 – 702 (2015).
Author information
Authors and Affiliations
Corresponding author
Additional information
Translated from Élektricheskie Stantsii, No. 4, April 2018, pp. 15 – 23.
Rights and permissions
About this article
Cite this article
Pleshanov, K.A., Sterkhov, K.V., Knyaz’kov, V.P. et al. Development and Study of the Start-Up Sequence for E-240-13.8-560 Solid-Fuel-Fired Boiler by the Zio Company. Power Technol Eng 52, 328–335 (2018). https://doi.org/10.1007/s10749-018-0954-9
Published:
Issue Date:
DOI: https://doi.org/10.1007/s10749-018-0954-9