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Combustion Science and Technology Volume 132, 1998 - Issue 1-6
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Original Articles

Particle Characteristics in the Radiant Section of a Coal-fired Utility Boiler

D. L. BLACK CFD Research Corporation, 215 Wynn Drive, Huntsville, AL, 35805
&
M. Q. McQUAY Department of Mechanical Engineering, Brigham Young University, 242 CB.ProvoUT, 84602View further author information
Pages 37-74 | Received 21 Apr 1997, Published online: 27 Apr 2007

REFERENCES

  • Abraham , K. U. and Rajaram , S. ( 1983 ) Measurements of furnace heat transfer performanceon a corner-fired, pulverized coal boiler , J. Inst, of Fuel , 56 , 217 – 224 .
  • Baxter , L. L. ( 1992 ) Char fragmentation and fly ash formation during pulverized-coalcombustion , Combust. Flame 90 , 174 – 184 .
  • Baxter , L. L. and Habib , Z. G. ( 1992 ) The effect of surfactants on disaggregation of coal-waterslurry particles during combustion , Combust. Flame 90 , 199 – 209 .
  • Black , D. L. ( 1997 ) Experimental Investigation of Particle Dispersion with Spherical andNonspherical Particles , Ph.D. Dissertation , Mechanical Engineering , Brigham YoungUniversity , Provo, Utah .
  • Black , D. L. , McQuay , M. Q. and Bonin , M. P. ( 1996 ) Laser-based techniques for particle sizemeasurement a review of sizing methods and their industrial applications , Prog. Energy Combust. Sci , 22 , 267 – 306 .
  • Black , D. L. and McQuay , M. Q. ( 1996 ) Particle size and velocity measurements in the radiantsection of an industrial-scale, coal-fired boiler the effect of coal type , In McQuay, M. Q.et al. (Ed.) Combustion and Fire , The American Society of Mechanical Engineers , HTD 328 , 19 – 26 .
  • Bonin , M. P. ( 1992 ) Optical analysis of particle dynamics in pulverized coal flames , Ph.D.Dissertation , Mechanical Engineering , Brigham Young University , Provo, Utah .
  • Bonin , M. P. Queiroz , M. ( 1991 ) Local particle size, velocity, and concentrationmeasurements in an industrial-scale, pulverized coal-fired boiler , Combust. Flame 85 , p121ndash;133 p.
  • Bonin , M. P. and Queiroz , M. ( 1996 ) A parametric evaluation of particle-phase dynamics in anindustrial pulverized-coal-fired boiler , Fuel 75 , 195 – 206 .
  • Bonin , M. P. and Queiroz , M. ( 1990 ) An analysis of single stream droplet combustion throughsize and velocity measurements , In Farouk, B. et al. (Ed.) Heat Transfer in combustion Systems , The American Society of Mechanical Engineers , HTD 142 , 3 – 8 .
  • Brooks , B. ( 1997 ) Gas velocity measurements in a coal-fired furnace with comparisons toPCGC-3 predictions , M.S.Thesis , Mechanical Engineering , Brigham Young University , Provo, Utah .
  • Butler , B. W. ( 1992 ) An experimental evaluation radiant energy transport in particle-ladenflames , Ph.D. Dissertation , Mechanical Engineering , Brigham Young University , Provo,Utah .
  • Butler , B. W. Webb , B. W. ( 1991 ) Local temperature and wall radiant heat fluxmeasurements in an industrial-scale, coal-fired boiler , Fuel 70 , 1457 – 1464 .
  • Butler , B. W. , Wilson , T. and Webb , B. W. ( 1992 ) Measurement of time-resolved local particletemperature in a full-scale utility boiler . Twenty-fourth International Symposium on Combustion The Combustion Institute, pp. 1333 – 1339 .
  • Cannon , J. N. , Webb , B. W. and Queiroz , M. ( 1991 ) Testing of a Tangential Coal-Fired PowerPlant with Water-Cooled Probes , in Fossil Fuel Combustion 1991, Ed. Ruiz, R. TASME,New York , 49 .
  • Cannon , J. N. , Webb , B. W. and Queiroz , M. ( 1990 ) Full-scale testing of an 80 MWC tangentialcoal fired power plant , EPR1 Conference on the Effect of Coal Quality on Power Plants ,.St. Louis , Missouri , September 19 – 21 .
  • Cassiano , J. , Heitor , M. V. , Moreira , A. L. N. , [a-z]ilva, T, F. ( 1992 ) Experiments in large scalecombustion systems and the characterization of the burning equipment , Proceedings of the Intl. Conference on Energy Efficiency in Process Technology October , 19 – 22 , Athens,Greece .
  • Cassiano , J. , Heitor , M. V. and Silva , T. F. ( 1994 ) Temperature, species and heat transfercharacteristics of a 250 MW, utility boiler , Combustion Science and Technology 98 , 199 – 216 .
  • Chen , X.-Q. and Pereira , J. C. F. ( 1995 ) Efficient lagrangian stochastic transport modeling ofturbulent evaporating sprays , 8th Int. Symp. on Transport Phenomena in Combustion , SanFrancisco , July 17 – 20 .
  • Costa , M. , Costen , P. , Lockwood , F. C. and Mahmud , T. ( 1990 ) Detailed measurements in andmodeling of an industry-type pulverized-c'oal flame , Twenty-third International Symposium. on Combustion The Combustion Institute, pp. 973 – 980 .
  • Dunn-Rankin , D. , Hoornstra , J. , Gruelich , F. and Holve , D. J. Coal rank influences onagglomeration, swelling and fragmentation of coal/water slurries during combustion , Joint Technical Meeting , Western States Section-Canadian Section/The Combustion Institute,April 1986 .
  • Freund , J. E. ( 1992 ) Mathematical Statistics , Prentice Hall , New Jersey , Chap . 5 – 6 , pp. 183 – 256 .
  • Germane , G. J. , Eatough , C. N. and Cannon , J. N. ( 1993 ) Process data and strategies , in Fundamentals of Coal Combustion , Smoot, L. D. (Ed.) , Elsevier , pp. 79 – 130 .
  • Groberg , E. T. ( 1996 ) Validation of the gas species and particle composition data taken at theMilliken power plant furnace , M.S.Thesis , Mechanical Engineering , Brigham Young University , Provo, Utah .
  • Groberg , C. J. ( 1996 ) Comparison of measured gas temperatures and species concentrationstaken at the Milliken furnace to PCGC-3 predictions , M.S.Thesis , Mechanical Engineering , Brigham Young University , Provo, Utah .
  • Heitor , M. V. , Moreira , A. L. N. , Silva , A. M. C. and Silva , T. F. ( 1994 ) Experimental analysisof the influence of burner design on the performance of a utility oil-fired boiler , J. Inst, of Energy 67 , 50 – 60 .
  • Heitor , M. V. , Moreira , A. L. N. , Silva , A. M. C. and Silva , T. F. ( 1994 ) Experimental analysisof the in-furnace processes in a 250 MWC oil-fired utility boiler , Presented at the 10th International Heat Transfer Conference , August , 14 – 18 , Brighton , England .
  • Holve , D. J. ( 1980 ) In-situ optical particle sizing technique, J. Energy , 4 , 176 – 183 .
  • Holve , D. J. , [a-z]nnen, |JTK. |JTD. ( 1984 ) Optical particle counting, sizing and velocimetry usingintensity deconvolution , Optical Engineering 23 , 591 – 603 .
  • Holve , D. J. ( 1982 ) Transit timing velocimetry (TTV) for two-phase reacting flows , Combust.Flame , 48 , 105 – 108 .
  • Holve , D. J. and Meyer , P. L. ( 1991 ) In-situ particle measurement in combustion environments , In Chigier, N. (Ed.) Combustion Measurements , Hemisphere, Washington , pp. 279 – 299 .
  • Holve , D. J. and Self , S. A. ( 1979 ) Optical particle sizing for in-situ measurements, parts 1 and 2, Applied Optics , 18 , 1632 – 1652 .
  • Illerup , J. B. , Dam-Johansen , K. and Glarborg , P. ( 1994 ) Characterization of a full-scale,single-burner pulverized coal boiler temperatures, gas concentrations and nitrogen oxides , Fuel , 73 , 492 – 499 .
  • Jensen , P. A. , Ereaut , P. R. , Clausen , S. and Rathmann , O. ( 1994 ) Local measurements ofvelocity, temperature and gas composition in a pulverised-coal flame , J. Inst, of Energy , 67 , 37 – 46 .
  • Litchford , R. J. and Jeng , S.-M. ( 1992 ) Probability density function shape sensitivity in themodeling of turbulent particle dispersion , AIAA Journal , 30 , 2546 – 2549 .
  • Mohr , J. W. , ( 1993 ) Gas phase velocity measurements in an industrial scale coal-fired boiler , M.S.Thesis , Mechanical Engineering , Brigham Young University , Provo, Utah .
  • O'Doherty , T. , Froud , D. and Bates , C. J. ( 1994 ) Characteristics of a power station boiler , Part A Journal of Power and Energy , 208 , 89 – 101 .
  • Oettli , M. C. ( 1993 ) Analysis of gas and particle composition in a fuli-scale utility power station , M.S.Thesis , Mechanical Engineering , Brigham Young University , Provo, Utah .
  • Orfanoudakis , N. G. and Taylor , M. K. P. ( 1992 ) The effect of particle shape on the amplitudeof scattered light for a sizing instrument , Part, and Part. Syst. Charact , 9 223 – 230 .
  • Phillips , S. D. ( 1989 ) Data book for evaluation of three-dimensional combustion models , M.S.Thesis , Chemical Engineering , Brigham Young University . Provo, Utah .
  • Press , W. H. , Flannery , B. P. , Teukolsky , S. A. and Vetterling , W. T. ( 1986 ) Numerical Recipes , The Art of Scientific Computing , Cambridge University Press , New York , Chap. 13 , pp. 470 – 489 .
  • Pröbstle , G. and Wenz , W. ( 1988 ) Velocity measurements in a swirl driven pulverized coalcombustion chamber , Combust. Flame , 72 , 193 – 203 .
  • Queiroz , M.L. , Bonin , M. P. , Shirolkar , J. S. and Dawson , R. W. ( 1993 ) Experimentallydetermined particle number density statistics in an industrial-scale, pulverized-coal-firedboiler , Energy and Fuels , 7 , 842 – 851 .
  • Shirolkar , J. S. , Coimbra , C. F. M. and McQuay , M. Q. ( 1998 ) Fundamental aspects ofmodeling turbulent particle dispersion in dilute flows , Prog. Energy Combust. Sci , 22 , 363 – 399 .
  • Shirolkar , J. S. and McQuay , M. Q. ( 1998 ) Probability density function propagation model forturbulent particle dispersion , Int. J. of Multiphase Flow , in press .
  • Smoot , L. D. ( 1989 ) Modeling of coal-combustion processes , Prog. Energy Combust. Sci , 10 , 229 – 272 .
  • Snyder , W. H. and Lumley , J. L. ( 1971 ) Some measurements of particle velocity autocorrelationfunction in turbulent flow , J. Fluid Mech , 48 , 41 – 71 .
  • Tennekes , H. and Lumley , J. L. ( 1972 ) A First Course in Turbulence , Cambridge , Mass., MITpress .
  • Tree , D. R. and Webb , B. W. ( 1997 ) Local temperature measurements in a full scale utilityboiler with overfire air , Fuel , 76 , 1057 – 1066 .
  • Tree , D. , Black , D. L. , Rigby , J. , Webb , B. W. and McQuay , M. Q. ( 1998 ) Experimentalmeasurements in the BYU controlled profile reactor , Prog. Energy Combust. Sci , in press .
  • Truelove , J. S. ( 1986 ) Prediction of the near-burner flow and combustion in swirling pulverized-coal flames , Twenty-first International Symposium on Combustion , The CombustionInstitute , pp. 275 – 284 .
  • Zhou , Q. and Yao , S. C. ( 1992 ) Group modeling of impacting spray dynamics , Int. J. Heat Mass Transfer , 35 , 121 – 129 .

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