4.7 Article

Dinitriles and nitriles are common intermediates of pyrrole pyrolysis

Journal

COMBUSTION AND FLAME
Volume 245, Issue -, Pages -

Publisher

ELSEVIER SCIENCE INC
DOI: 10.1016/j.combustflame.2022.112358

Keywords

Pyrrole pyrolysis; Kinetic modeling; Nitriles; Intermediates; Molecular beam mass spectrometry

Funding

  1. Natural Science Foundation of China [52006220/52161145105/51976216/M-0139/51888103]
  2. Ministry of Science and Technology of China [2021YFA0716204]
  3. Beijing Municipal Natural Science Foundation [JQ20017]
  4. CAS Project for Young Scientists in Basic Research [YSBR-028]
  5. K.C. Wong Education Foundation [GJTD-2020-07]
  6. National Science and Technology Major Project [J2019-III-0 0 05-0 048]
  7. Hefei Science Center, CAS [2020HSC-KPRD001, 2021HSC-UE005]

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This study investigated the pyrolysis mechanism and kinetics of pyrrole, a typical fuel nitrogen model compound, and provided new data on the pyrolysis products. The study identified new nitriles and quantified the mole fractions of various nitrogenous products. An updated pyrrole kinetic model was proposed, and the importance of nitriles and dinitriles during pyrrole pyrolysis was confirmed.
Pyrrole is a typical fuel nitrogen model compound of coal and it is the precursor of fuel-NOx. The mech-anism and kinetics of pyrrole pyrolysis were studied in a jet-stirred reactor coupled with a synchrotron vacuum ultraviolet molecular beam mass spectrometer and a gas chromometer over the temperature range of 940-1240 K at atmospheric pressure. Two sets of new data of pyrrole pyrolysis were provided. Based on the photoionization efficiency analysis, nitrogenous products are mainly produced in the form of nitriles and dinitriles. Of the pyrrole pyrolysis products, six nitriles were newly identified including methyl isocyanide (C2H3N), cyanogen (NCCN), isocyanogen (CNCN), propionitrile (C3H5N), propanedini-trile (C3H2N2), butanedinitrile (C4H4N2). Mole fractions of pyridine (C5H5N), C3H2N2, cyanovinylacetylene (C5H3N), and benzonitrile (C7H5N) were also quantified. HCN is the dominant nitrogenous product of pyr-role pyrolysis. C2H2 and CH4 are the major carbonaceous products. An updated pyrrole kinetic model was proposed comprising 196 species and 2939 reactions. The production of pyridine and several nitriles dur-ing pyrrole pyrolysis could be reasonably predicted using the current model. C3H2N2 is mainly produced by the reaction between CH2CN and other nitriles, and it is converted into CH2CN and CH3CN. The reac-tion between CH3 and C3H2N2 is the most sensitive reaction for promoting the consumption of C3H2N2. Results of this work confirm the importance of dinitriles and nitriles during the pyrolysis of pyrrole as an important fuel-NOx model compound of coal and other nitrogen-containing fuels. (c) 2022 The Combustion Institute. Published by Elsevier Inc. All rights reserved.

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