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Theoretical Study on Ethylamine Dissociation Reactions Using VRC-VTST and SS-QRRK Methods

Z. P. Zhang, Sheng‐Hsiang Wang, Yanlei Shang, Jihong Liu, Sheng‐Nian Luo

2024The Journal of Physical Chemistry A12 citationsDOI

Abstract

Barrierless bond dissociation reactions play an important role in fuel combustion. In this work, the pressure-dependent dissociation rate constants of ethylamine (EA) are accurately determined using variable-reaction-coordinate variational transition-state theory combined with the system-specific quantum Rice–Ramsperger–Kassel method. Before the kinetics calculations, the performances of four density functional theory methods in describing the bond dissociation of EA are evaluated against the benchmark method, FIC-MRCISD(T)+Q/cc-pVTZ, and the MN15-L/cc-pVTZ method is the best choice. By comparison of the Gibbs free energies and the rate constants for the bond dissociation reactions of EA, ethanol, and propane, the influence of functional groups on the reaction kinetics is discussed. The kinetics calculations show that the dissociation rate constants of EA are sensitive to pressure at low pressures and high temperatures, and the dominant channel is the reaction that yields C 2 H 5 and NH 2 radicals. A literature combustion model of EA is updated with our calculations, and the satisfactory agreement between the model predictions and reported ignition delay times of EA suggests the reliability of our calculations.

Topics & Concepts

ChemistryDissociation (chemistry)Reaction rate constantThermodynamicsEthylamineKineticsPhysical chemistryBond-dissociation energyChemical kineticsPropaneComputational chemistryOrganic chemistryPhysicsQuantum mechanicsAdvanced Chemical Physics StudiesCatalytic Processes in Materials ScienceAtmospheric chemistry and aerosols
Theoretical Study on Ethylamine Dissociation Reactions Using VRC-VTST and SS-QRRK Methods | Litcius