Heat transfer to horizontal tubes in a pilot-scale fluidized-bed combustor burning low-rank coals
Grewal, N.S.; Sorenson, E.S.; Goblirsch, G.
Chemical Engineering Communications 39(1-6): 43-68
1985
ISSN/ISBN: 0098-6445 Accession: 075699185
PDF emailed within 1 workday: $29.90
Related References
Bardakci, T.; Molayem, B. 1989: Experimental studies of heat transfer to horizontal tubes in a pilot-scale fluidized-bed combustor Canadian Journal of Chemical Engineering 67(2): 348-351George, S.; Grace, J. 1982: Heat transfer to horizontal tubes in a pilot-scale fluidized bed International Journal of Heat and Mass Transfer 25(4): 592-594
Yumin, C.H.A.N.G.; Yufu, L.O.; Mayyenn, C.H.E.N. 1990: Heat transfer measurements of a 1.0 ton-steam/HR circulating fluidized-bed combustor burning Taiwan coals Particulate Science and Technology 8(3-4): 199-208
Grewal, N.S.; Menart, J.; Hajicek, D.R.; Zobeck, B.J. 1987: Heat transfer to horizontal tubes immersed in a fluidized-bed combustor Powder Technology 52(2): 149-159
Klaus Schütte; Winfried Wittler; Gerd Rotzoll; Karl Schügerl 1989: Spatial distributions of O2, CO2 and SO2 in a pilot-scale fluidized bed combustor operated with different coals Fuel 68(12): 1499-1502
Nag, P.K.; Sallam Ali, M.; Reddy, B.V. 1993: Heat transfer in a circulating fluidized bed combustor burning indane gas Indian Journal of Technology 31(1): 9-12
George, S.E.; Grace, J.R. 1982: Heat transfer to horizontal tubes in the freedboard region of a gas fluidized bed Aiche Journal 28(5): 759-765
Grewal, N.S.; Cheung, T.K.; Saxena, S.C. 1985: Heat transfer between horizontal finned tubes and a gas-solid fluidized bed Industrial and Engineering Chemistry. Process Design and Development 24(2): 458-471
Ziegelhoeffer A.; De Jong J.W.; Ferrari R.; Turi Nagy L. 1986: Heat transfer from immersed horizontal tubes of different diameter in a gas-fluidized bed Energy 11(8): 773-783
Goel, I.; Saxena, S.C.; Dolidovich, A.F. 1984: Heat transfer from rough and finned horizontal tubes in a gas fluidized bed Journal of Heat Transfer 106(1): 91-97
Lese, H.K.; Kermode, R.I. 1972: Heat transfer from a horizontal tube to a fluidized bed in the presence of unheated tubes The Canadian Journal of Chemical Engineering 50(1): 44-48
Chandran, R.; Chen, J.C.; Staub, F.W. 1980: Local Heat Transfer Coefficients around Horizontal Tubes in Fluidized Beds Journal of Heat Transfer 102(1): 152-157
Fukusako, S.; Ishiguro, S.; Seki, N. 1988: Heat-transfer characteristics from a bundle of horizontal tubes immersed in aggregative fluidized bed Warme- und Stoffubertragung 22(1-2): 13-22
Syromyatnikov, N.I.; Kosenko, G.D.; Ogloblin, V.V.; Reshetnikov, E.G.; Sapozhnikov, B.G. 1976: Heat transfer during the heating of dried milk in vibrating fluidized bed with horizontal tubes Izvestiya Vysshikh Uchebnykh Zavedenii, Pishchevaya Tekhnologiya 1: 116-119
Grewal, N.S.; Saxena, S.C. 1979: Effect of Surface Roughness on Heat Transfer from Horizontal Immersed Tubes in a Fluidized Bed Journal of Heat Transfer 101(3): 397-403
Zhu, X.U.E.J.U.N.; Ye, S.H.I.C.H.A.O.; Pan, X.I.A.O.H.E.N.G. 2008: The local heat transfer mathematical model between vibrated fluidized beds and horizontal tubes Experimental Thermal and Fluid Science 32(6): 1279-1286
Aihara, T.; Ohara, T.; Shimoyama, T.; Kitano, H. 1997: Heat-transfer and defrosting characteristics of a horizontal array of cooled tubes immersed in a very shallow fluidized bed International Journal of Heat and Mass Transfer 40(8): 1807-1815
Ostermeier, P.; Dawo, F.; Vandersickel, A.; Gleis, S.; Spliethoff, H. 2018: Numerical calculation of wall-to-bed heat transfer coefficients in Geldart B bubbling fluidized beds with immersed horizontal tubes Powder Technology 333: 193-208
N.S. Grewal 1981: A generalized correlation for heat transfer between a gassolid fluidized bed of small particles and an immersed staggered array of horizontal tubes Powder Technology 30(2): 145-154
Gupta, S.; Gupta, R.; Bryant, G.; Wall, T.; Watanabe, S.; Kiga, T.; Narukawa, K. 2009: Characterization of Ash Deposition and Heat Transfer Behavior of Coals during Combustion in a Pilot-Scale Facility and Full-Scale Utility Energy and Fuels 23(5): 2570-2575