1. bookVolume 115 (2018): Issue 4 (April 2018)
Journal Details
License
Format
Journal
eISSN
2353-737X
First Published
20 May 2020
Publication timeframe
1 time per year
Languages
English
access type Open Access

Application of Circulating Fluidized Bed Boilers in the Fuel Combustion Process

Published Online: 21 May 2020
Volume & Issue: Volume 115 (2018) - Issue 4 (April 2018)
Page range: 83 - 96
Received: 04 Apr 2018
Journal Details
License
Format
Journal
eISSN
2353-737X
First Published
20 May 2020
Publication timeframe
1 time per year
Languages
English
Abstract

The combustion of fuels plays an important role in the field of industry and power engineering. Nowadays, a lot is being done to reduce the industry’s interference in the environment, due to ecological considerations. Not only is the fluid technology environmentally friendly, but also it is a convenient method of energy production from wide range of fuels. The article presents a summary of the most significant events in the history of fluidized bed boilers, there is also a description of construction and operation of a circulating fluidized bed boiler and its comparison with technologically similar bubbling fluidized bed boiler. The usage of diverse types of fuels is discussed and compared. Special emphasis is placed on the application of fluidized bed boilers in Polish industry.

Keywords

[1] Politechnika Wrocławska, http://docplayer.pl/30344456-Dwie-podstawowe-konstrukcje-kotlow-z-cyrkulujacym-zlozem-cyklony-zewnetrzne-konstrukcja-compact.html (access: 10.12.2017).Search in Google Scholar

[2] Basu P., Circulating Fluidized Bed Boilers: Design, Operation and Maintenance, Canada 2015.10.1007/978-3-319-06173-3Search in Google Scholar

[3] Politechnika Wrocławska, http://wme.pwr.edu.pl/, http://webcache.googleusercontent.com/search?q=cache:PTTU6o7kjfkJ:fluid.wme.pwr.wroc.pl/~spalanie/dydaktyka/spalanie_wyklad_energetyka/URZADZENIA/Spalanie_fluidalne.PDF+&cd=1&hl=pl&ct=clnk&gl=pl (access: 28.11.2017).Search in Google Scholar

[4] Engström F., Fluidized bed boilers, Finlandia 2017.Search in Google Scholar

[5] Eia, www.eia.gov/todayinenergy/detail.php?id=10151 (access: 27.02.2013).Search in Google Scholar

[6] Hanfei Z.,Caixia L.,Jun L.,Wu Q.,Yukun H.,Changqing D., Solid Waste Mixtures Combustion in a Circulating Fluidized Bed: Emission Properties of NOx, Dioxin, and Heavy Metals, Energy Procedia, Vol. 75, 2015, 987–992.10.1016/j.egypro.2015.07.322Search in Google Scholar

[7] Trybuś T., Fluidalne spalanie paliw jako metoda ograniczenia emisji dwutlenków siarki i tlenków azotu, Wrocław 1995.Search in Google Scholar

[8] Energia, https://energia.wortale.net/kotly-kotlownie,ac99/kociol-fluidalny, 1597 (access: 10.12.2017).Search in Google Scholar

[9] Ekotechnologie, www.ekotechnologie.org/5-sf.html (access: 10.12.2017).Search in Google Scholar

[10] Jihui Ch., Xiaofeng L., Progress of petroleum coke combusting in circulating fluidized bed boilers – A review and future perspectives, Resources Conservation & Recycling, Vol. 49, 2006, 203–216. Thanet U., Suneerat F., Co-firing of coal and rice straw pellet in a circulating-fluized-bed reactor, Energy Procedia, Vol. 138, 2017, 766–771.10.1016/j.egypro.2017.10.051Search in Google Scholar

[11] Buhre B.J.P., Elliott L.K. C.D., Sheng Gupta R.P., Wall T.F., Oxy-fuel combustion technology for coal-fired power generation, Progress in Energy and Combustion Science, Vol. 31, 2005, 283–307.10.1016/j.pecs.2005.07.001Search in Google Scholar

[12] Srivastava R.K., Miller C.A., C. Erickson & R. Jambhekar, Emissions of Sulfur Trioxide from Coal-Fired Power Plants, Journal of the Air & Waste Management Association, Vol. 127, 2014, 47–51.Search in Google Scholar

[13] Casagrande D.J., Sulphur in peat and coal, Geological Society, Special Publications, Vol. 32, 1987, 87–105.10.1144/GSL.SP.1987.032.01.07Search in Google Scholar

[14] Lunbo D., Haicheng S., Changsui Z., Wu Z., Xiaoping Ch., Coal combustion characteristics on an oxy-fuel circulating fluidized bed combustor with warm flue gas recycle, Fuel, Vol. 127, 2014, 47–51.10.1016/j.fuel.2013.06.016Search in Google Scholar

[15] Neisler J., Rozwój palenisk fluidalnych w energetyce, Energetyka, Vol. 4, 2011, 33–36.Search in Google Scholar

[16] Jarema-Suchorowska S., Kurczak B., Właściwości popiołów z kotłów fluidalnych w energetyce w aspekcie warunków gospodarczego wykorzystania tych odpadów, Energetyka, Vol. 1, 2010, 39–43.Search in Google Scholar

[17] F-W, Kotły z cyrkulacyjnym złożem fluidalnym na parametry nadkrytyczne, FosterWheeler, 2011.Search in Google Scholar

[18] F-W, Opis projektu Kotła fluidalnego na parametry nadkrytyczne dla Elektrowni Łagisza, Foster Wheeler, 2011.Search in Google Scholar

[19] Ochrona środowiska, Informacje i opracowania statystyczne Głównego Urzędu Statystycznego, Warszawa 2016.Search in Google Scholar

[20] Hycnar J.J., Paleniska fluidalne przykładem racjonalnego rozwiązywania problemów odpadów, Polityka Energetyczna, Vol. 9, Zeszyt specjalny, 2006, 365–375.Search in Google Scholar

[21] Góralczyk S., Baic I., Odpady z górnictwa węgla kamiennego i możliwości ich gospodarczego wykorzystania, Polityka Energetyczna, Vol. 12, Iss. 2/2, 2009, 145–156.Search in Google Scholar

[22] Tomasz Cukiernik, http://tomaszcukiernik.pl/artykuly/artykuly-wolnorynkowe/parametry-nadkrytyczne-w-technologii-fluidalnej (access: 14.01.2018).Search in Google Scholar

Recommended articles from Trend MD

Plan your remote conference with Sciendo