Pathways for conversion of char nitrogen to nitric oxide during pulverized coal combustion

Molina, A; Murphy, J J; Blevins, L G; Shaddix, C R; Winter, F; Haynes, B S

doi:10.1016/J.COMBUSTFLAME.2008.11.012

Title: Pathways for conversion of char nitrogen to nitric oxide during pulverized coal combustion

Journal Article · Sun Mar 15 00:00:00 EDT 2009 · Combustion and Flame

DOI:https://doi.org/10.1016/J.COMBUSTFLAME.2008.11.012· OSTI ID:21147114

Molina, A; Murphy, J J; Blevins, L G; Shaddix, C R ^[1]; Winter, F ^[2]; Haynes, B S ^[3]

Combustion Research Facility, Sandia National Laboratories, Livermore, CA 94550 (United States)
Institute of Chemical Engineering, Vienna University of Technology, Getreidemarkt 9, 166 1060 Wien (Austria)
School of Chemical and Biomolecular Engineering, University of Sydney, Sydney, New South Wales, NSW 2006 (Australia)

The conversion of nitrogen in char (char-N) to NO was studied both experimentally and computationally. In the experiments, pulverized coal char was produced from a U.S. high-volatile bituminous coal and burned in a dilute suspension at 1170 K, 1370 K and 1570 K, at an excess oxygen concentration of 8% (dry), with different levels of background NO. In some experiments, hydrogen bromide (HBr) was added to the vitiated air as a tool to alter the concentration of gas-phase radicals. During char combustion, low NO concentration and high temperature promoted the conversion of char-N to NO. HBr addition altered NO production in a way that depended on temperature. At 1170 K the presence of HBr increased NO production by 80%, whereas the addition of HBr decreased NO production at higher temperatures by 20%. To explain these results, three mechanistic descriptions of char-N evolution during combustion were evaluated with computational models that simulated (a) homogeneous chemistry in a plug-flow reactor with entrained particle combustion, and (b) homogeneous chemistry in the boundary layer surrounding a reacting particle. The observed effect of HBr on NO production could only be captured by a chemical mechanism that considered significant release of HCN from the char particle. Release of HCN also explained changes in NO production with temperature and NO concentration. Thus, the combination of experiments and simulations suggests that HCN evolution from the char during pulverized coal combustion plays an essential role in net NO production. (author)

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OSTI ID:: 21147114

Journal Information:: Combustion and Flame, Vol. 156, Issue 3; Other Information: Elsevier Ltd. All rights reserved; ISSN 0010-2180

Country of Publication:: United States

Language:: English

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Related Subjects

01 COAL, LIGNITE, AND PEAT
NITRIC OXIDE
BITUMINOUS COAL
HYDROBROMIC ACID
CHARS
COMBUSTION
HYDROCYANIC ACID
NITROGEN
CONVERSION
TEMPERATURE RANGE 1000-4000 K
AIR
OXYGEN
BOUNDARY LAYERS
COMPUTERIZED SIMULATION
SUSPENSIONS
CHEMICAL REACTION KINETICS
RADICALS
PULVERIZED FUELS
TEMPERATURE DEPENDENCE

Title: Pathways for conversion of char nitrogen to nitric oxide during pulverized coal combustion

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