Application of the zone-by-zone optimization method and a simplified numerical model for the efficient solid fuel combustion schemes development using direct-flow burners and nozzles
Автор: Fomenko M.V., Fomenko N.E., Prokhorov V.B.
Журнал: Журнал Сибирского федерального университета. Серия: Техника и технологии @technologies-sfu
Рубрика: Математическое моделирование. Численный эксперимент
Статья в выпуске: 8 т.16, 2023 года.
Бесплатный доступ
The article considers the application of two approaches to optimizing the direct-flow burners and nozzles location using numerical simulation. The study objects are two furnaces of the traditional and invert type with solid slag removal for boilers for supercritical and ultra- supercritical steam parameters, respectively. The lean hard Kuznetsk coal was used for both cases, somewhat different in characteristics in the cases under consideration. This coal type is currently burned mainly in furnaces with liquid slag removal. The use of the zone-by-zone optimization method implies a sequential each pre-selected zones optimization of the furnace in the direction of flue gas movement with modeling of the solid fuel combustion process with different burner and nozzle layouts. A dimensionless scheme for burning coal dust in a traditional furnace with an upward flue gases movement has been developed. The use of a simplified numerical model (SNM) due to certain settings made it possible to approximate the results of furnace aerodynamics modeling without taking into account the chemical reactions to the results with combustion simulation, which significantly reduced the conducting research time. As a result of modeling the invert furnace aerodynamics, the optimal arrangement of direct-flow burners and nozzles was selected. The article discusses the main features of each research method use, optimization criteria, research objects, initial combustion schemes, design parameters of combustion schemes that are changed during optimization, as well as the main results of the optimization. The solid fuel combustion schemes obtained using two approaches to conducting research using direct-flow burners and nozzles ensure the operation of the considered furnaces with better values of efficiency and environmental indicators than traditional combustion of similar fuel in furnaces with liquid slag removal. The obtained values are at a level acceptable for the Russian Federation.
Furnace, direct-flow burners, step-by-step combustion, numerical simulation, kuznetsk lean hard coal, numerical simulation of furnace walls slagging
Короткий адрес: https://sciup.org/146282761
IDR: 146282761
Список литературы Application of the zone-by-zone optimization method and a simplified numerical model for the efficient solid fuel combustion schemes development using direct-flow burners and nozzles
- Kiselev E. A. et al. State report on the state and use of mineral resources of the Russian Federation in 2019, Ministry of Natural Resources and Environment of the Russian Federation, 2020. 494 (in Rus.)
- Petrenko I. E. Results of the Russian coal industry in 2021, Coal, 2022, 1152(3), 3-24 (in Rus.)
- Decree of the Government of the Russian Federation No. 1523-r of June 9, 2020 On the Energy Strategy of the Russian Federation for the Period up to 2035 (in Rus.)
- ITS 38-2022. Fuel combustion at large installations for energy production, NDTBureau, 2022, 318 (in Rus.)
- Arkhipov A. M., Lipov Yu. M., Prokhorov V. B. The use of direct-flow burners and nozzles in boiler furnaces: innovative experience of MPEI, Moscow, Publishing House of MPEI, 2013, 240 (in Rus.)
- Arkhipov A. M., Kanunnikov A. A., Kirichkov V. S. et al. Efficiency of using direct-flow burners and nozzles in implementation of dry-bottom ash removal at the TPP-210A boiler furnace, Thermal Engineering, 2017, 64(2), 134-141
- Arkhipov A. M., Zroychikov N. A., Kaverin A. A. et al. Improving the efficiency of burning Kuznetsk coal in a direct-flow vortex torch, Reliability and safety of energy, 2015, 30(3), 50-55 (in Rus.)
- Fomenko M. V., Prokhorov V. B., Fomenko N. E. Optimization of the Kuznetsk lean coal combustion scheme using direct-flow burners and nozzles with solid slag removal, Bulletin of the Moscow Power Engineering Institute. Bulletin of the MPEI, 2023, (4), 72-79 (in Rus.)
- Prokhorov V. B., Fomenko M. V., Fomenko N. E. Solid fuel combustion processes modelling in the furnace in terms of the boiler K-50-14-250. J. of Phys.; Conf. Ser, 2020. 1683, 042050
- Fomenko M. V., Prokhorov V. B., Fomenko N. E. Investigation of the direct-flow burners and nozzles arrangement at the direct-flow-vortex coal combustion in a furnace with solid slag removal, J. of Phys.; Conf. Ser, 2021, 2088, 012015
- Ansys I. N. C. ANSYS FLUENT user's guide, Canonsburg, PA, 2012
- Ansys fluent theory guide, USA, 2011
- Warnatz J., Maas U., Dibble R. W. Combustion, Berlin, Springer, 2001, 309
- Ranade V. V., Gupta D. F. Computational modeling of pulverized coal fired boilers, USA, CRC Press, 2014
- V. B. Prokhorov, M. V. Fomenko, N. E. Fomenko Development of a simplified methodology for furnace aerodynamics with vortex combustion of organic fuel modeling, J. of Phys.; Conf. Ser., 2021, 2088, 012016
- V. B. Prokhorov, N. E. Fomenko, M. V. Fomenko Using a simplified numerical model for the primary evaluation of furnace aerodynamics on the example of an invert boiler furnace for advanced ultra-supercritical steam parameters, Thermal processes in engineering, 2022, 14(9), 422-431 (in Rus.)
- Prokhorov, V. B. et al. Numerical variational study of the M-shaped boiler invert furnace, J. of Phys.; Conf. Ser, 2020. 1683, 042033
