TitleA comparison of fuzzy logic and cluster renewal approaches for heat transfer modeling in a 1296 t/h CFB boiler with low level of flue gas recirculation
Journal titleArchives of Thermodynamics
Divisions of PASNauki Techniczne
PublisherThe Committee on Thermodynamics and Combustion of the Polish Academy of Sciences
IdentifierISSN 1231-0956 ; eISSN 2083-6023
ReferencesWen (1961), Heat transfer in solid - gas transport lines, Ind Eng Chem Res, 53, 1. ; Yin (2011), Optimization of main steam pressure control system in circulating fluidized bed boiler Guangdong Electr, Power, 24, 58. ; Blaszczuk (2016), Simulation of mass balance behavior in a large - scale circulating fluidized bed reactor, Particuology, 25, 51. ; Jaronen (2008), Advanced controls - fuzzy logic for fluidized bed boiler AT PLUS, Journal, 2, 28. ; Luan (2000), Suspensionto - membrane - wall heat transfer in a circulating fluidized bed combustor, Int J Heat Mass Tran, 4, 1173. ; Basu (2000), An experimental and theoretical investigation into the heat transfer of a finned water wall tube in a circulating fluidized bed boiler, Int J Energ Res, 24, 291. ; Johansson (2007), Solids back - mixing in CFB boilers, Chem Eng Sci, 62, 1. ; Cheng (2007), Heat transfer in a largescale circulating fluidized bed boiler, Front Energ Power Eng China, 1, 477. ; Blaszczuk (2015), Heat transfer behavior inside a furnace chamber of large - scale supercritical CFB reactor, Int J Heat Mass Tran, 87, 464. ; Blaszczuk (2013), Simulation model of the mass balance in a supercritical circulating fluidized bed combustor, Powder Technol, 246, 317. ; Yang (2005), Analysis and design of control system of circulating fluidized bed boilers Chinese J, Power Eng, 25, 517. ; Karimipour (2007), Evaluation of heat transfer coefficient in gas - solid fluidized beds using cluster - based approach, Powder Technol, 172, 1. ; Blaszczuk (2014), Bed - to - wall heat transfer in a supercritical circulating fluidised bed boiler, Chem Process Eng, 35, 191. ; Gupta (2005), Bed - to - wall heat transfer modeling in the top region of a CFB riser column with abrupt riser exit geometries, Int J Heat Mass Tran, 25, 4307. ; Andersson (1994), Local lateral distribution of heat transfer on tube surface of membrane walls in CFB boilers th Circulating Fluidized Beds Hidden Valley, Proc Int Conf, 60. ; Basu (1996), Heat transfer in a pressurized circulating fluidized bed, Int J Heat Mass Tran, 44, 2711. ; Andersson (1996), Effects of bed particle size on heat transfer in circulating fluidized bed boilers, Powder Technol, 66, 239. ; Chinsuwan (2009), An experimental investigation of the effect of longitudinal fin orientation on heat transfer in membrane water wall tubes in a circulating fluidized bed, Int J Heat Mass Tran, 1, 1552. ; Chen (2005), Heat transfer in fluidized beds : Design methods, Powder Technol, 26, 123. ; Breitholtz (2001), Wall average heat transfer in CFB boilers, Powder Technol, 65, 1. ; Gopal (2009), Digital control and state variable methods : conventional and intelligent control system nd Edn, Tata, 53. ; Andersson (1992), Experimental methods of estimating heat transfer in circulating fluidized bed boilers, Int J Heat Mass Tran, 35, 3353, doi.org/10.1016/0017-9310(92)90222- ; Zhang (1995), Fluid - dynamic boundary layers in CFB boilers, Chem Eng Sci, 50, 201. ; Krzywanski (2012), Modeling of heat transfer coefficient in the furnace of CFB boilers by artificial neural network approach, Int J Heat Mass Tran, 55, 4246. ; Błaszczuk (2015), Effect of flue gas recirculation on heat transfer in a supercritical circulating fluidized bed combustor, Arch Thermodyn, 57, 61. ; Breitholz (2000), Wall average heat transfer in CFB boilers rd European Conf on Fluidization, Proc, 69. ; Haider (1989), Drag coefficient and terminal velocity of spherical and nonspherical particles, Powder Technol, 45, 63. ; Lockhart (1995), Local heat transfer , solids concentration and erosion around membrane tubes in a cold model circulating fluidized bed, Int J Heat Mass Tran, 38, 2403. ; Adamczyk (2015), Numerical simulations of the industrial circulating fluidized bed boiler under air - and oxy - fuel combustion, Appl Therm Eng, 63, 127. ; Patil (2011), Parametric studies and effect of scale - up on wall - to - bed heat transfer characteristics of circulating fluidized bed risers, Exp Therm Fluid Sci, 67, 485. ; Dutta (2002), Overall heat transfer to water walls and wing walls of commercial circulating fluidized bed boilers, Energy Inst, 75, 504. ; Kolar (2002), Heat transfer characteristic at an axial tube in a circulating fluidized bed riser, Int J Therm Sci, 68, 673. ; Basu (1990), Heat transfer in high temperature fast fluidized beds, Chem Eng Sci, 49, 3123. ; Divilio (1994), Practical implications of the effect of solid suspension density on heat transfer in large - scale CFB boilers th Circulating Fluidized Beds Hidden, Proc Int Conf, 61. ; Krzywanski (2016), Modeling of bed - to - wall heat transfer coefficient in a large - scale CFBC by fuzzy logic approach, Int J Heat Mass Tran, 94, 327. ; Di Natale (2008), A single particle model for surface - to - bed heat transfer in fluidized beds, Powder Technol, 187, 68. ; Hua (2004), Modeling of axial and radial solid segregation in a CFB boiler, Chem Eng Process, 43, 971. ; Mahalingam (1991), Emulsion layer model for wall heat transfer in a circulating fluidized bed, AIChE, 37, 1139. ; Basu (1996), Heat transfer to walls of a circulating fluidized - bed furnace, Chem Eng Sci, 51, 1. ; Han (1999), Radiative heat transfer in a circulating fluidized bed coal combustor, Powder Technol, 64, 266. ; LuanW (1999), Experimental and theoretical study of total and radiative heat transfer in circulating fluidized beds, Chem Eng Sci, 59, 3749. ; Vijay (2005), Effect of dilute and dense phase operating conditions on bed - to - wall heat transfer mechanism in a circulating fluidized bed combustor, Int J Heat Mass Tran, 48, 3276. ; Blaszczuk (2016), The impact of bed temperature on heat transfer characteristic between fluidized bed and vertical riffled tubes, Therm Sci, 25, 476. ; Golriz (1995), An experimental correlation for temperature distribution at the membrane wall of CFB boilers th on Fluidized Bed Combustion, Proc Int Conf, 46. ; Nag (1995), A mathematical model for the predicted of heat transfer from finned surfaces in a circulating fluidized bed, Int J Heat Mass Tran, 38, 1675. ; Baskakov (2001), Complex heat transfer furnaces with a circulating fluidized bed, Heat Trans Res, 62, 343. ; Blaszczuk (2014), Bed - to - wall heat transfer coefficient in a supercritical CFB boiler at different bed particle sizes, Int J Heat Mass Tran, 79, 736.