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Journal article

The role of NNH in NO formation and control

By Klippenstein, Stephen J.1; Harding, Lawrence B.1; Glarborg, Peter2,3; Miller, James A.4

From

Argonne National Laboratory1

CHEC Research Centre, Department of Chemical and Biochemical Engineering, Technical University of Denmark2

Department of Chemical and Biochemical Engineering, Technical University of Denmark3

Sandia National Laboratories4

One of the remaining issues in our understanding of nitrogen chemistry in combustion is the chemistry of NNH. This species is known as a key intermediate in Thermal DeNOx, where NH3 is used as a reducing agent for selective non-catalytic reduction of NO. In addition, NNH has been proposed to facilitate formation of NO from thermal fixation of molecular nitrogen through the so-called NNH mechanism.

The importance of NNH for formation and reduction of NO depends on its thermal stability and its major consumption channels. In the present work, we study reactions on the NNH+O, NNH+O2, and NH2+O2 potential energy surfaces using methods previously developed by Miller, Klippenstein, Harding, and their co-workers.

Their impact on Thermal DeNOx and the NNH mechanism for NO formation is investigated in detail.

Language: English
Year: 2011
Pages: 774-789
ISSN: 15562921 and 00102180
Types: Journal article
DOI: 10.1016/j.combustflame.2010.12.013
ORCIDs: Glarborg, Peter
Keywords

Ab initio calculations Chemical kinetics Master equation NNH Nitrogen chemistry Thermal DeNOx

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