Research of low quality fuel ignition methods in low-temperature fluidized bed

Authors

  • Валерій Олександрович Логвин National Technical University of Ukraine “Kyiv Polytechnic Institute”, Ukraine
  • Юрій Олександрович Безносик National Technical University of Ukraine “Kyiv Polytechnic Institute”, Ukraine
  • Катерина Олексіївна Корінчук Institute of Engineering Thermophysics NASU, Ukraine
  • Дмитро Авраaмович Кіржнер Institute of Engineering Thermophysics NASU, Ukraine

DOI:

https://doi.org/10.15587/2312-8372.2013.14896

Keywords:

Low-temperature fluidized bed (NTKSH), ignition, fluidized bed, coal D, anthracite breeze (AL)

Abstract

Technology of burning low-grade fuel in the furnace of low temperature fluidized bed is environmentally attractive and can allow the transition to a cheap solid fuel local utility companies and industrial sectors. However, this technology is a complex process that requires additional research, including problems associated with low-grade coal ignition in low-temperature fluidized bed. In this paper, a review of existing methods is given ignition of coal in a fluidized bed. The experimental results of fueling the Ukrainian coal and anthracite D wing in a laboratory setting by heating the layer of natural gas and heated by charcoal are set in this study. The results were used to create technologies ignition of coal in furnaces firing patterns of NTKSH boiler with a heat output 18kVt

Author Biographies

Валерій Олександрович Логвин, National Technical University of Ukraine “Kyiv Polytechnic Institute”

graduate student
Department of Cybernetics of Chemical Technology Processes

Юрій Олександрович Безносик, National Technical University of Ukraine “Kyiv Polytechnic Institute”

Ph.D., associate professor
Department of Cybernetics of Chemical Technology Processes

Катерина Олексіївна Корінчук, Institute of Engineering Thermophysics NASU

graduate student


Division of thermal processes in boilers

Дмитро Авраaмович Кіржнер, Institute of Engineering Thermophysics NASU

engineer
Division of thermal processes in boilers

References

  1. Постанова Кабінету міністрів України № 1216 «Про затвердження Державної цільової економічної програми модернізації комунальної теплоенергетики на 2010-2014 роки».
  2. Пузырев, Е.Н. Исследование топочных процессов и разработка котлов для низкотемпературного сжигания горючих отходов и местных топлив [Текст] : дис. доктора технич. наук / Е.Н. Пузырев. — Барнаул, АлтГТУ, 2003. — 332 с.
  3. Кучин, Г.П. Сжигание низкосортных топлив в псевдоожиженном слое [Текст] / Г.П. Кучин, В.Я. Скрипко, Н.Н. Урда. – Техника, 1987 – 144 с.
  4. Howe, W.C. Control variables in fluidized bed steam generation [Text] / W.C. Howe, C. Aulisio, E. Pope, A. Robbins // J. Chemical Engineering Prog. – 1977. –
  5. pp. 69-73.
  6. Highley, J. Development of Fluidized-Bed Combustion for Industry [Tekst] / J. Highley // 1st International Symposium of Fluid Combustion and Applied Technology. - McGraw-Hill: New York, 1984. – pp. I/21-I/61.
  7. Радованович, М. Сжигание топлива в псевдоожиженном слое [Текст] / М. Радованович. Пер. с англ. под ред. Э. Э. Шпильрайна. - М. Энергоатомиздат, 1990 г. – 246 с.
  8. А. с. № 1474380 СССР, МПК F23 С11/02. Способ розжига топки с кипящим слоем [Текст] / Кучин Г.П., Скрипко В.Я., Пикошво В.С. (СССР). 4190497/24-06; заявл. 15.12.87, опубл. 23.04.89, Бюл. № 15. — 2 с.
  9. А. с. № 1490381 СССР, МПК F23 С11/02. Способ розжига топки с кипящим слоем [Текст] / Ильенко Б.К., Морднсок В.З., Рябчук В.С. (СССР). 4229556/24-06, заявл. 23.03.87, опубл. 30.03.89, Бюл. № 24 – 2 с.
  10. Бородуля, В.Α. Сжигание твердого топлива в псевдоожиженном слое. [Текст] / В.Α. Бородуля, Л.М. Виноградов — Минск: Наука и техника, 1980.— 190 с.
  11. Расчеты аппаратов кипящего слоя [Текст] : Справочник / Под ред. И.П. Мухленова, Б.С. Сажина, В.Ф. Фролова. – Л.: Химия, 1986. – 352 с.
  12. Тодос, О.М. Аппараты с кипящим зернистым слоем: Гидравлические и теплове основы работы. [Текст] / О.М. Тодос, О.Б. Титович – Л.: Химия, 1981. – 296 с.
  13. Bugaeva, L.N. An application of expert system to choice, simulation and development of gases purification processes [Text] / L.N. Bugaeva, Yu.A. Beznosik, G.A. Statjukha, A.A. Kvitka // J. Computers Chem. Engng. – 1996. –Vol. 20, Suppl. – pp. 401 – 402.
  14. Beznosik, Y. An intelligent system for designing waste gas purification processes from nitrogen oxides [Text] / Y. Beznosik, L. Bugaeva, E. Kenig, A. Gorak, A. Kraslawski, I. Astrelin // 2-nd Conference on Process Integration, Modelling and Optimisation for Energy Saving and Pollution Reduction (Proceedings of PRESS'99), Hungarian Chemical Society. - May 31-June 2, 1999, Budapest, Hungary, 1999. - pp. 169 – 174.
  15. Order of the Cabinet of Ministers of Ukraine № 1216 «About confirmation of State goal economical program for modernization of municipal heat-power engineering for 2010–2014».
  16. Puzyrev, E.N. (2003). Investigation of furnace processes and development of boilers for low-temperature burning of combustible waste and local fuels. Doctoral thesis. Barnaul, AltSTU. 332 p.
  17. Kuchin, G.P., Skripko, V.Ya., Urda, N.N. (1987). Burning low-quality fuels in fluidized bed. M : Technics. 144 p.
  18. Howe, W.C., Aulisio, C., Pope, E. and Robbins, A. (1977). Control variables in fluidized bed steam generation. Chemical Engineering Prog. 1, pp. 69-73.
  19. Highley, J. (1984). Development of Fluidized-Bed Combustion for Industry. 1st International Symposium of Fluid Combustion and Applied Technology. McGraw-Hill: New York, 1984. pp. I/21-I/61.
  20. Radovanovich, M. (1990). Firing in fluidized bed. M : Energoatom publishing house. 246 p.
  21. USSR certificate of authorship № 1474380 МПК F 23 С 11/02, Kuchin G.P., Skripko V.Ya., Pikoshvo V.S. (1987). A method to ignite the furnace with a boiling bed. 4190497/24-06; stated 15.12.87, published 23.04.89, bulletin № 15. 2 p
  22. USSR certificate of authorship № 1490381 МПК F 23 С 11/02, Ilienko B.K., Mordnsok V.Z., Ryabchuk V.S. (1987) A method to ignite the furnace with a boiling bed. 4229556/24-06, stated 23.03.87, published 30.03.89, bulletin № 24. 2 p.
  23. Borodulya, V.A., Vinogradov, L.M. (1980). Burning solid fuel in a fluidized bed. Minsk: Science and technics, 190 p.
  24. Mukhlenov, I.P., Sazhin, B.S., Frolov, V.F. (1986) Calculating of boiling bed apparatuses: Reference book. L.: Chemistry. 352 p.
  25. Todos, O.M., Titovich, O.B. (1981) Apparatus with boiling granular bed: Hydraulic and heat basics of functioning. L.: Chemistry. 296 p.
  26. Bugaeva, L.N., Beznosik, Yu.A., Statjukha, G.A., Kvitka, A.A. (1996). An application of expert system to choice, simulation and development of gases purification processes. J. Computers Chem. Engng, Vol. 20, Suppl. pp. 401 – 402.
  27. Beznosik, Y., Bugaeva, L., Kenig, E., Gorak, A., Kraslawski, A., Astrelin, I. (1999). An intelligent system for designing waste gas purification processes from nitrogen oxides. 2-nd Conference on Process Integration, Modelling and Optimisation for Energy Saving and Pollution Reduction (Proceedings of PRESS'99). Hungarian Chemical Society. May 31-June 2, 1999, Budapest, Hungary. pp. 169 – 174.

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Published

2013-06-20

How to Cite

Логвин, В. О., Безносик, Ю. О., Корінчук, К. О., & Кіржнер, Д. А. (2013). Research of low quality fuel ignition methods in low-temperature fluidized bed. Technology Audit and Production Reserves, 3(1(11), 28–32. https://doi.org/10.15587/2312-8372.2013.14896

Issue

Vol. 3 No. 1(11) (2013): Technology audit and production reserves

Section

Technology audit

License

Copyright (c) 2016 Валерій Олександрович Логвин, Юрій Олександрович Безносик, Катерина Олексіївна Корінчук, Дмитро Авраaмович Кіржнер

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