Numerical Analysis of Turbulent Gas-Particle Flow and Coal Combustion in a Fluidized-Bed Calciner

Sea Cheon Oh; Dong Wook Kim; Joon Yong Yoon; Sung Joon Byun; Woo-Teck Kwon; Soo-Ryong Kim; Hee Taik Kim

Journal of Industrial and Engineering Chemistry, Vol.10, No.2, 208-214, March, 2004

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Numerical Analysis of Turbulent Gas-Particle Flow and Coal Combustion in a Fluidized-Bed Calciner

Sea Cheon Oh , Dong Wook Kim, Joon Yong Yoon¹, Sung Joon Byun¹, Woo-Teck Kwon², Soo-Ryong Kim², and Hee Taik Kim^{3, †}

Department of Environmental Engineering, Chonan National Technical College, Chungnam 330-717, Korea
¹Department of Mechanical Engineering, Hanyang University, Kyunggi 425-791, Korea
²Department of Ceramics Building Materials, Korea institute of Ceramic Engineering and Technology, Seoul 153-801, Korea
³Department of Chemical Engineering, Hanyang University, Kyunggi 425-791, Korea

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In this paper, we analyze numerically the characteristics of turbulent gas-particle flow, heat transfer, and coal combustion process in a fluidized-bed calciner for a cement manufacturing process. The simulation model was based on FLUENT, a commercially avaliable fluid dynamics code. The effects of the mutual interactions between particles were simulated by a discrete phase modeling approach, while the decomposition of calcium carbonate into calcium oxide and carbon dioxide upon heating was handled by a finite-rate reaction modeling approach. To verify the validity of the numerical simulation approach used in this work, the simulation results were compared with field data, for example, the gas velocity and temperature in some sampling points. The simulation results showed comparatively good correlations with the field data.

Keywords:fluidized-bed calciner;FLUENT;three-dimensional numerical analysis

[References]

Hoomans BPB, Kuipers JAM, Salleh MAM, Stein M, Seville JPK, Powder Technol., 116(2-3), 166 (2001)
Zhang DZ, VanderHeyden WB, Powder Technol., 116(2-3), 133 (2001)
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Yu YH, Oh JH, Lee JY, Choi HW, J. Ind. Eng. Chem., 9(6), 798 (2003)
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Lee H, Barnett SM, J. Ind. Eng. Chem., 9(2), 202 (2003)
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Enwald H, Almstedt AE, Chem. Eng. Sci., 54(3), 329 (1999)
Samuelsberg A, Hjertager BH, AIChE J., 42(6), 1536 (1996)
Hoomans BPB, Ph.D. Thesis, University of Twente, Netherland (2000)
Tsuji Y, Kawaguchi T, Tanaka T, Powder Technol., 77, 79 (1993)
Gera D, Gautam M, Tsuji Y, Kawaguchi T, Tanaka T, Powder Technol., 98(1), 38 (1998)
Xu BH, Yu AB, Chem. Eng. Sci., 52(16), 2785 (1997)
Fan JR, Zha XD, Cen KF, Fuel, 80(3), 373 (2001)
Zhang J, Zhou LX, Fuel, 80(2), 289 (2001)
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FLUENT user's guide Manual, Version 5.6, Fluent Inc. (1998)
Morsi SA, Alexander AJ, J. Fluid Mech., 55, 193 (1972)

[Related Articles]

[1] Hoomans BPB, Kuipers JAM, Salleh MAM, Stein M, Seville JPK, Powder Technol., 116(2-3), 166 (2001)

[2] Zhang DZ, VanderHeyden WB, Powder Technol., 116(2-3), 133 (2001)

[3] Werther J, Powder Technol., 102(1), 15 (1999)

[4] Yu YH, Oh JH, Lee JY, Choi HW, J. Ind. Eng. Chem., 9(6), 798 (2003)

[5] Nieuwland JJ, Meijer R, Kuipers JA, Vanswaaij WP, Powder Technol., 87(2), 127 (1996)

[6] Lee H, Barnett SM, J. Ind. Eng. Chem., 9(2), 202 (2003)

[7] Anderson TB, Jackson R, Ind. Eng. Chem. Fundam., 6, 527 (1967)

[8] Enwald H, Almstedt AE, Chem. Eng. Sci., 54(3), 329 (1999)

[9] Samuelsberg A, Hjertager BH, AIChE J., 42(6), 1536 (1996)

[10] Hoomans BPB, Ph.D. Thesis, University of Twente, Netherland (2000)

[11] Tsuji Y, Kawaguchi T, Tanaka T, Powder Technol., 77, 79 (1993)

[12] Gera D, Gautam M, Tsuji Y, Kawaguchi T, Tanaka T, Powder Technol., 98(1), 38 (1998)

[13] Xu BH, Yu AB, Chem. Eng. Sci., 52(16), 2785 (1997)

[14] Fan JR, Zha XD, Cen KF, Fuel, 80(3), 373 (2001)

[15] Zhang J, Zhou LX, Fuel, 80(2), 289 (2001)

[16] Guo YC, Chan CK, Fuel, 79, 1467 (2000)

[17] FLUENT user's guide Manual, Version 5.6, Fluent Inc. (1998)

[18] Morsi SA, Alexander AJ, J. Fluid Mech., 55, 193 (1972)