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<i>Ab Initio</i> Kinetics of Methylamine Radical Thermal Decomposition and H-Abstraction from Monomethylhydrazine by H-Atom

Hongyan Sun, Ghanshyam L. Vaghjiani, Chung K. Law

2020The Journal of Physical Chemistry A13 citationsDOI

Abstract

Methylamine radicals (CH3NH) and amino radicals (NH2) are major products in the early pyrolysis/ignition of monomethylhydrazine (CH3NHNH2). Ab initio kinetics of thermal decomposition of CH3NH radicals was analyzed by RRKM master equation simulations. It was found that β-scission of the methyl H-atom from CH3NH radicals is predominant and fast enough to induce subsequent H-abstraction reactions in CH3NHNH2 to trigger ignition. Consequently, the kinetics of H-abstraction reactions from CH3NHNH2 by H-atoms was further investigated. It was found that the energy barriers for abstraction of the central amine H-atom, two terminal amine H-atoms, and methyl H-atoms are 4.16, 2.95, 5.98, and 8.50 kcal mol–1, respectively. In units of cm3 molecule–1 s–1, the corresponding rate coefficients were found to be k8 = 9.63 × 10–20T2.596 exp(−154.2/T), k9 = 2.04 × 10–18T2.154 exp(104.1/T), k10 = 1.13 × 10–20T2.866 exp(−416.3/T), and k11 = 2.41 × 10–23T3.650 exp(−870.5/T), respectively, in the 290–2500 K temperature range. The results reveal that abstraction of the terminal amine H-atom to form trans-CH3NHNH radicals is the dominant channel among the different abstraction channels. At 298 K, the total theoretical H-abstraction rate coefficient, calculated with no adjustable parameters, is 8.16 × 10–13 cm3 molecule–1 s–1, which is in excellent agreement with Vaghjiani’s experimental observation of (7.60 ± 1.14) × 10–13 cm3 molecule–1 s–1 ( J. Phys. Chem. A 1997, 101, 4167−4171, DOI: 10.1021/jp964044z).

Topics & Concepts

MethylamineRadicalChemistryAb initioHydrogen atom abstractionThermal decompositionMoleculeReaction rate constantKineticsAb initio quantum chemistry methodsPhotochemistryPhysical chemistryComputational chemistryOrganic chemistryPhysicsQuantum mechanicsAdvanced Combustion Engine TechnologiesAtmospheric chemistry and aerosolsCombustion and flame dynamics
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