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Combustion Science and Technology Volume 76, 1991 - Issue 1-3
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Original Articles

Kinetic Modeling of Fuel-Nitrogen Conversion in One-Dimensional, Pulverized-Coal Flames

ROBERT E. PECK Department of Mechanical and Aerospace Engineering, Arizona State University, Tempe, Arizona, 85287
,
PETER GLARBORG Laboratory of Heating and Air Conditioning, Technical University of Denmark, Lyngby, 2800, Denmark
&
JAN E. JOHNSSON Department of Chemical Engineering, Technical University of Denmark, Lyngby, 2800, Denmark
Pages 81-109 | Received 28 Nov 1988, Accepted 05 Oct 1990, Published online: 06 Apr 2007

Citations (29)

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REN-SHYONG JENG, E. R. ALTWICKER, M.M. MORGAN & R.D. WILK. (2001) PROPANE COMBUSTION IN A SPOUTED BED COMBUSTOR II: A MODELING STUDY IN THE BED REGION. Combustion Science and Technology 170:1, pages 119-149.
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L.S. PEDERSEN, P. GLARBORG, K. DAM-JOHANSEN, P. W. HEPBURN & G. HESSELMANN. (1998) A Chemical Engineering Model for Predicting NO Emissions and Burnout from Pulverised Coal Flames. Combustion Science and Technology 132:1-6, pages 251-314.
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FUHE MAO & ROBERT B. BARAT. (1996) The Interaction of Fuel-Bound Nitrogen and Fuel-Bound Chlorine During Air-Staged Incineration. Combustion Science and Technology 116-117:1-6, pages 339-357.
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Articles from other publishers (26)

Pengpeng Li, Qiangqiang Ren, Qinggang Lyu & Mingyue Wang. (2024) Effects of Co-Firing Biomass and Pulverized Coal on NO Reduction in Cement Precalciner. Journal of Thermal Science 33:2, pages 751-760.
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Stephen Niksa. 2022. Process Chemistry of Coal Utilization. Process Chemistry of Coal Utilization 177 295 .
Stephen Niksa. 2020. Process Chemistry of Coal Utilization. Process Chemistry of Coal Utilization 321 385 .
Feng Guo, Ruochen Wu, Larry L. Baxter & William C. Hecker. (2019) Models To Predict Kinetics of NO x Reduction by Chars as a Function of Coal Rank . Energy & Fuels 33:6, pages 5498-5504.
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Valdeci José Costa, Viktor Georgevith Krioukov & Clóvis Raimundo Maliska. (2014) Numerical simulation of pulverized wet coal combustion using detailed chemical kinetics. Journal of the Brazilian Society of Mechanical Sciences and Engineering 36:4, pages 661-672.
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B. Feng, C. G. Zheng, Y. B. Zhou & K. Okazaki. (2008) The Importance of the Heterogeneous Reactions in the Formation and Destruction of NOx from Char Combustion. Developments in Chemical Engineering and Mineral Processing 13:3-4, pages 407-413.
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Chun-Zhu Li. 2004. Advances in the Science of Victorian Brown Coal. Advances in the Science of Victorian Brown Coal 286 359 .
G. Loeffler & H. Hofbauer. (2002) Does co burn in a fluidized bed?—a detailed chemical kinetic modeling study. Combustion and Flame 129:4, pages 439-452.
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Xiaoqian Ma, Wei Lu, Xiaobing Zhang & Zeliang Yang. (2001) Study on strengthening combustion and NOx formation properties of rough-surfaced bluff-bodies. International Journal of Energy Research 25:9, pages 825-843.
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S.C Hill & L Douglas Smoot. (2000) Modeling of nitrogen oxides formation and destruction in combustion systems. Progress in Energy and Combustion Science 26:4-6, pages 417-458.
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B. Feng, Y.B. Zhou, X.F. Shi, C.G. Zheng & K. Okazaki. (2008) Numerical Simulation of NOx Emission from Char Combustion with Detailed Gas Phase Mechanisms. Developments in Chemical Engineering and Mineral Processing 7:5-6, pages 513-524.
Crossref
Bo Leckner. (1998) Fluidized bed combustion: Mixing and pollutant limitation. Progress in Energy and Combustion Science 24:1, pages 31-61.
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Feng Guo & William C. Hecker. (1998) Kinetics of NO reduction by char: Effects of coal rank. Symposium (International) on Combustion 27:2, pages 3085-3092.
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Martin Østberg, Peter Glarborg, Anker Jensen, Jan E. Johnsson, Lars Storm Pedersen & Kim Dam-Johansen. (1998) A model of the coal reburning process. Symposium (International) on Combustion 27:2, pages 3027-3035.
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Yasuo Ohtsuka, Wu Zhiheng & Edward Furimsky. (1997) Effect of alkali and alkaline earth metals on nitrogen release during temperature programmed pyrolysis of coal. Fuel 76:14-15, pages 1361-1367.
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Øyvind Skreiberg, Peter Glarborg, Anker Jensen & Kim Dam-Johansen. (1997) Kinetic NO modelling and experimental results from single wood particle combustion. Fuel 76:7, pages 671-682.
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R.P. van der Lans, P. Glarborg & K. Dam-Johansen. (1997) Influence of process parameters on nitrogen oxide formation in pulverized coal burners. Progress in Energy and Combustion Science 23:4, pages 349-377.
Crossref
G Marban. (1996) Fuel—Gas injection to reduce N2O emissions from the combustion of coal in a fluidized bed. Combustion and Flame 107:1-2, pages 103-113.
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Stephen Niksa & Sunghwan Cho. (1996) Conversion of Fuel-Nitrogen in the Primary Zones of Pulverized Coal Flames. Energy & Fuels 10:2, pages 463-473.
Crossref
W. Chen, L. D. Smoot, T. H. Fletcher & R. D. Boardman. (1996) A Computational Method for Determining Global Fuel-NO Rate Expressions. Part 1. Energy & Fuels 10:5, pages 1036-1045.
Crossref
Jouni P. Hämäläinen & Martti J. Aho. (1995) Effect of fuel composition on the conversion of volatile solid fuel-N to N2O and NO. Fuel 74:12, pages 1922-1924.
Crossref
Nick M. Marinov & Philip C. Malte. (2004) Ethylene oxidation in a well‐stirred reactor. International Journal of Chemical Kinetics 27:10, pages 957-986.
Crossref
Jouni P. Hämäläinen, Martti J. Aho & Jouni L. Tummavuori. (1994) Formation of nitrogen oxides from fuel-N through HCN and NH3: a model-compound study. Fuel 73:12, pages 1894-1898.
Crossref
Peter Glarborg & James A. Miller. (1994) Mechanism and modeling of hydrogen cyanide oxidation in a flow reactor. Combustion and Flame 99:3-4, pages 475-483.
Crossref
Jytte Boll Illerup, Kim Dam-Johansen & Peter Glarborg. (1994) Characterization of a full-scale, single-burner pulverized coal boiler: temperatures, gas concentrations and nitrogen oxides. Fuel 73:4, pages 492-499.
Crossref
Jan E. Johnsson, Peter Glarborg & Kim Dam-Johansen. (1992) Thermal dissociation of nitrous oxide at medium temperatures. Symposium (International) on Combustion 24:1, pages 917-923.
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