Abstract: . . . II.4 Project Results: Advanced Combustion II.4.4 Characterization of Coal and Biomass Conversion Behaviors in Advanced Energy Systems Investigators Reginald E. Mitchell, Associate Professor, Mechanical Engineering; Paul A. Campbell and Liqiang Ma, Graduate Researchers; Lars Sørum, Visiting Scholar . . .
. . .  Press, The Netherlands, 2002. 3. Mitchell, R. E. An Intrinsic Kinetics-Based, Particle-Population Balance Model for Char Oxidation During Pulverized Coal Combustion, Proc. Combust. Inst. 28, 22612270, 2000. 4. Mitchell, R. E., Campbell, P. A., and Ma, L. Characterization of Coal-Char and Biomass-Char Reactivities to Oxygen, Proc. Combust. Inst. 29, 519-526, 2002. 5. Mitchell, R. E. and Ma, L. Intrinsic Reactivity-Based Model for Mode of Particle Burning, presented at the 3rd Joint Meeting of the U.S. . . .
. . .  2002. 3. Mitchell, R. E. An Intrinsic Kinetics-Based, Particle-Population Balance Model for Char Oxidation During Pulverized Coal Combustion, Proc. Combust. Inst. 28, 22612270, 2000. 4. Mitchell, R. E., Campbell, P. A., and Ma, L. Characterization of Coal-Char and Biomass-Char Reactivities to Oxygen, Proc. Combust. Inst. 29, 519-526, 2002. 5. Mitchell, R. E. and Ma, L. Intrinsic Reactivity-Based Model for Mode of Particle Burning, presented at the 3rd Joint Meeting of the U.S. Sections of the Combustion . . .
. . .  of Burning Model During Oxidation of the Chars of Pulverized Fuels: Model Implementation,” Paper 04S-45, Western States Section/The Combustion Institute 2004 Spring Meeting, Davis, CA, March 29 - 30, 2004. 8. Bhatia, S. K., and Perlmutter, D. D. A Random Pore Model for Fluid-Solid Reactions: I. Isothermal, Kinetic Control, AIChE Journal 26 (3) 379-386, 1980. Contact Reginald E. Mitchell: remitche@stanford.edu GCEP Technical Report - 2004 209  . . .
. . .  Mitchell, R. E. An Intrinsic Kinetics-Based, Particle-Population Balance Model for Char Oxidation During Pulverized Coal Combustion, Proc. Combust. Inst. 28, 22612270, 2000. 4. Mitchell, R. E., Campbell, P. A., and Ma, L. Characterization of Coal-Char and Biomass-Char Reactivities to Oxygen, Proc. Combust. Inst. 29, 519-526, 2002. 5. Mitchell, R. E. and Ma, L. Intrinsic Reactivity-Based Model for Mode of Particle Burning, presented at the 3rd Joint Meeting of the U.S. Sections of the Combustion Institute, . . .
. . .  sub-models needed in comprehensive models for coal-fired and biomass-fired process units. The comprehensive models can be used to investigate potential design strategies and can help define optimum operating conditions that yield high coal and biomass conversion efficiencies with minimum impact on the environment. References 1. http://www.fossil.energy.gov/programs/powersystems/combustion/ 2. Handbook of Biomass Combustion and Co-Firing, S. van Loo and J. Koppejan, Eds., Twente University Press, The . . .
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