Kinetic modeling of non-hydrocarbon/nitric oxide interactions in a flow reactor above 1,400K

Shaozeng Sun; Huali Cao; Zhiqiang Wang; Lin Qian; Yukun Qin

doi:10.1007/s11814-009-0140-8

Kinetic modeling of non-hydrocarbon/nitric oxide interactions in a flow reactor above 1,400K

Shaozeng Sun
, Huali Cao^*
, Zhiqiang Wang
, Lin Qian
, Yukun Qin

^*Corresponding author for this work

School of Energy Science and Engineering, Harbin Institute of Technology

Research output: Contribution to journal › Article › peer-review

Abstract

The reduction of nitric oxide by reaction with non-hydrocarbon fuels under reducing conditions at comparatively higher temperature has been studied with a detailed chemical kinetic model. The reaction mechanism consists of 337 elementary reactions between 65 chemical species based on the newest rate coefficients. The experimental data were adopted from previous work. Analyses by comparing existing experimental data with the modeling predictions of this kinetic mechanism indicate that, at comparatively high temperature, apart from the reaction path NO→HNO→NH→N₂, NO+N→N ₂ is also prominent. In the presence of CO, NO is partly converted to N by reaction with CO. Based on present model, the reduction of NO at high temperature, which was usually underestimated by previous work, can be improved to some extent.

Original language	English
Pages (from-to)	840-844
Number of pages	5
Journal	Korean Journal of Chemical Engineering
Volume	26
Issue number	3
DOIs	https://doi.org/10.1007/s11814-009-0140-8
State	Published - May 2009
Externally published	Yes

Keywords

Nitric Oxide
Non-hydrocarbon
Rate Coefficient
Reaction Mechanism
Reburn

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10.1007/s11814-009-0140-8

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title = "Kinetic modeling of non-hydrocarbon/nitric oxide interactions in a flow reactor above 1,400K",

abstract = "The reduction of nitric oxide by reaction with non-hydrocarbon fuels under reducing conditions at comparatively higher temperature has been studied with a detailed chemical kinetic model. The reaction mechanism consists of 337 elementary reactions between 65 chemical species based on the newest rate coefficients. The experimental data were adopted from previous work. Analyses by comparing existing experimental data with the modeling predictions of this kinetic mechanism indicate that, at comparatively high temperature, apart from the reaction path NO→HNO→NH→N2, NO+N→N 2 is also prominent. In the presence of CO, NO is partly converted to N by reaction with CO. Based on present model, the reduction of NO at high temperature, which was usually underestimated by previous work, can be improved to some extent.",

keywords = "Nitric Oxide, Non-hydrocarbon, Rate Coefficient, Reaction Mechanism, Reburn",

author = "Shaozeng Sun and Huali Cao and Zhiqiang Wang and Lin Qian and Yukun Qin",

year = "2009",

month = may,

doi = "10.1007/s11814-009-0140-8",

language = "英语",

volume = "26",

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journal = "Korean Journal of Chemical Engineering",

issn = "0256-1115",

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TY - JOUR

T1 - Kinetic modeling of non-hydrocarbon/nitric oxide interactions in a flow reactor above 1,400K

AU - Sun, Shaozeng

AU - Cao, Huali

AU - Wang, Zhiqiang

AU - Qian, Lin

AU - Qin, Yukun

PY - 2009/5

Y1 - 2009/5

N2 - The reduction of nitric oxide by reaction with non-hydrocarbon fuels under reducing conditions at comparatively higher temperature has been studied with a detailed chemical kinetic model. The reaction mechanism consists of 337 elementary reactions between 65 chemical species based on the newest rate coefficients. The experimental data were adopted from previous work. Analyses by comparing existing experimental data with the modeling predictions of this kinetic mechanism indicate that, at comparatively high temperature, apart from the reaction path NO→HNO→NH→N2, NO+N→N 2 is also prominent. In the presence of CO, NO is partly converted to N by reaction with CO. Based on present model, the reduction of NO at high temperature, which was usually underestimated by previous work, can be improved to some extent.

AB - The reduction of nitric oxide by reaction with non-hydrocarbon fuels under reducing conditions at comparatively higher temperature has been studied with a detailed chemical kinetic model. The reaction mechanism consists of 337 elementary reactions between 65 chemical species based on the newest rate coefficients. The experimental data were adopted from previous work. Analyses by comparing existing experimental data with the modeling predictions of this kinetic mechanism indicate that, at comparatively high temperature, apart from the reaction path NO→HNO→NH→N2, NO+N→N 2 is also prominent. In the presence of CO, NO is partly converted to N by reaction with CO. Based on present model, the reduction of NO at high temperature, which was usually underestimated by previous work, can be improved to some extent.

KW - Nitric Oxide

KW - Non-hydrocarbon

KW - Rate Coefficient

KW - Reaction Mechanism

KW - Reburn

UR - https://www.scopus.com/pages/publications/65949120431

U2 - 10.1007/s11814-009-0140-8

DO - 10.1007/s11814-009-0140-8

M3 - 文章

AN - SCOPUS:65949120431

SN - 0256-1115

VL - 26

SP - 840

EP - 844

JO - Korean Journal of Chemical Engineering

JF - Korean Journal of Chemical Engineering

IS - 3

ER -

Kinetic modeling of non-hydrocarbon/nitric oxide interactions in a flow reactor above 1,400K

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Keywords

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