The role of collisional energy transfer in the thermal and prompt dissociation of 1-methyl allyl-Reference-Cited by-同舟云学术

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The role of collisional energy transfer in the thermal and prompt dissociation of 1-methyl allyl

Published:2022-09 Issue: Volume: Page:
ISSN:1540-7489
Container-title:Proceedings of the Combustion Institute
language:en
Short-container-title:Proceedings of the Combustion Institute

Author:

Cho Jaeyoung^ORCID,Tao Yujie,Georgievskii Yuri,Klippenstein Stephen J.,Jasper Ahren W.,Sivaramakrishnan Raghu^ORCID

Funder

Basic Energy Sciences

Argonne National Laboratory

U.S. Department of Energy

Chemical Sciences, Geosciences, and Biosciences Division

Publisher

Elsevier BV

Subject

Physical and Theoretical Chemistry,Mechanical Engineering,General Chemical Engineering

Reference36 articles.

1. CFD analysis of the HyShot II scramjet combustor;Fureby;Proc. Combust. Inst.,2011

2. Heat transfer and combustion simulation of seven-element O2/CH4 rocket combustor;Perakis;J. Propuls. Power,2019

3. Collisional energy transfer in thermal unimolecular reactions;Troe;Ber. Bunsenges. Phys. Chem.,1973

4. Some unusual aspects of unimolecular falloff of importance in combustion modeling;Kiefer;Symp. Combust. Proc.,1998

5. Weakly bound free radicals in combustion:“prompt” dissociation of formyl radicals and its effect on laminar flame speeds;Labbe;J. Phys. Chem,2016

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1. Revising the kinetics of the n-C3H7 + O2 reaction: A combined experimental and computational study;Proceedings of the Combustion Institute;2024

2. Adiabatic Trajectory Approximation: A New General Method in the Toolbox of Mixed Quantum/Classical Theory for Collisional Energy Transfer;The Journal of Physical Chemistry Letters;2023-01-19

3. Mixed quantum/classical theory for rotational energy exchange in symmetric-top-rotor + linear-rotor collisions and a case study of the ND₃ + D₂ system;Physical Chemistry Chemical Physics;2023

4. The role of energy transfer and competing bimolecular reactions in characterizing the unimolecular dissociations of allylic radicals;Combustion and Flame;2022-11

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