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Combustion Science and Technology Volume 44, 1986 - Issue 5-6
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Original Articles

In Situ Measurements of Flyash Formation from Pulverized Coal

D. J. HOLVE Combustion Research Division, Sandia National Laboratories, Livermore
Pages 269-288 | Received 17 Apr 1984, Accepted 24 Feb 1985, Published online: 21 May 2007

Citations (26)

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Read on this site (2)

D. Dunn-Rankin. (1988) Kinetic Model for Simulating the Evolution of Particle Size Distributions During Char Combustion. Combustion Science and Technology 58:4-6, pages 297-314.
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DONALDJ. HOLVE, THOMASH. FLETCHER & KENICHI GOMI. (1987) Comparative Combustion Studies of Ultrafine Coal/Water Slurries and Pulverized Coal. Combustion Science and Technology 52:4-6, pages 269-291.
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Articles from other publishers (24)

Ping’an Zhang, Dunxi Yu, Guangqian Luo & Hong Yao. (2015) Temperature Effect on Central-Mode Particulate Matter Formation in Combustion of Coals with Different Mineral Compositions. Energy & Fuels 29:8, pages 5245-5252.
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Minghou Xu, Dunxi Yu, Hong Yao, Xiaowei Liu & Yu Qiao. (2011) Coal combustion-generated aerosols: Formation and properties. Proceedings of the Combustion Institute 33:1, pages 1681-1697.
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Dunxi Yu, Minghou Xu, Hong Yao, Xiaowei Liu, Ke Zhou, Lin Li & Chang Wen. (2009) Mechanisms of the central mode particle formation during pulverized coal combustion. Proceedings of the Combustion Institute 32:2, pages 2075-2082.
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DunXi Yu, MingHou Xu, Hong Yao, XiaoWei Liu & Ke Zhou. (2008) Effective identification of the three particle modes generated during pulverized coal combustion. Science Bulletin 53:10, pages 1593-1602.
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Bo Feng & Suresh K. Bhatia. (2000) Percolative Fragmentation of Char Particles during Gasification. Energy & Fuels 14:2, pages 297-307.
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Christopher J. Zygarlicke, Kevin C. Galbreath, Donald P. McCollor & Donald L. Toman. 1996. Applications of Advanced Technology to Ash-Related Problems in Boilers. Applications of Advanced Technology to Ash-Related Problems in Boilers 617 636 .
Sarbajit Ghosal & Sidney A. Self. (1995) Particle size-density relation and cenosphere content of coal fly ash. Fuel 74:4, pages 522-529.
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Larry L. Baxter. (1992) Char fragmentation and fly ash formation during pulverized-coal combustion. Combustion and Flame 90:2, pages 174-184.
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Shin G. Kang, Adel F. Sarofim & János M. Beér. (1992) Effect of Char structure on residual ash formation during pulverized coal combustion. Symposium (International) on Combustion 24:1, pages 1153-1159.
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M.P. Bonin & M. Queiroz. (1991) Local particle velocity, size, and concentration measurements in an industrial-scale pulverized coal-fired boiler. Combustion and Flame 85:1-2, pages 121-133.
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Frank Biancaniello, Carry Presser & Stephen D. Ridder. (1990) Real-time particle size analysis during inert gas atomization. Materials Science and Engineering: A 124:1, pages 21-29.
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J.J. Helble, S. Srinivasachar & A.A. Boni. (1990) Factors influencing the transformation of minerals during pulverized coal combustion. Progress in Energy and Combustion Science 16:4, pages 267-279.
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Larry L. Baxter. (1990) The evolution of mineral particle size distributions during early stages of coal combustion. Progress in Energy and Combustion Science 16:4, pages 261-266.
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Y. Hardalupas & A. M. K. P. Taylor. (1989) On the measurement of particle concentration near a stagnation point. Experiments in Fluids 8:1-2, pages 113-118.
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J.J. Helble & A.F. Sarofim. (1989) Influence of char fragmentation on ash particle size distributions. Combustion and Flame 76:2, pages 183-196.
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Shin-Gyoo Kang, Joseph J. Helble, Adel F. Sarofim & János M. Beér. (1989) Time-resolved evolution of fly ash during pulverized coal combustion. Symposium (International) on Combustion 22:1, pages 231-238.
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D. Dunn-Rankin & A.R. Kerstein. (1988) Influence of ash on particle size distribution evolution during coal combustion. Combustion and Flame 74:2, pages 207-218.
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K. Natesan & D. J. Holve. (1988) Effect of coal cleaning on the combustion environment—Materials interaction. Journal of Materials Engineering 10:2, pages 133-142.
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R R Steeper, P A Jensen & D Dunn-Rankin. (1988) Using Mie scattering for measuring size changes of individual particles. Journal of Physics E: Scientific Instruments 21:4, pages 378-383.
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J. Helble, M. Neville & A.F. Sarofim. (1988) Aggregate formation from vaporized ash during pulverized coal combustion. Symposium (International) on Combustion 21:1, pages 411-417.
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D.J. Holve, P.L. Meyer, L.J. Muzio & G.H. Shiomoto. 1988. Production and Processing of Fine Particles. Production and Processing of Fine Particles 91 102 .
Derek Dunn-Rankin & Alan R. Kerstein. (1987) Numerical simulation of particle size distribution evolution during pulverized coal combustion. Combustion and Flame 69:2, pages 193-209.
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William L. Flower & Alan J. Hurd. (1987) In situ measurement of flame-formed silica particles using dynamic light scattering. Applied Optics 26:11, pages 2236.
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Alan R. Kerstein & Boyd F. Edwards. (1987) Percolation model for simulation of char oxidation and fragmentation time-histories. Chemical Engineering Science 42:7, pages 1629-1634.
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