A computational study on the kinetics of pyrolysis of isopropyl propionate as a biodiesel model: DFT and ab initio investigation

A. Shiroudi; K. Hirao; K. Yoshizawa; M. Altarawneh; M.A. Abdel-Rahman; A.B. El-Meligy; A.M. El-Nahas

doi:10.1016/j.fuel.2020.118798

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A computational study on the kinetics of pyrolysis of isopropyl propionate as a biodiesel model: DFT and ab initio investigation

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A computational study on the kinetics of pyrolysis of isopropyl propionate as a biodiesel model: DFT and ab initio investigation

A. Shiroudi, K. Hirao, K. Yoshizawa, M. Altarawneh, M.A. Abdel-Rahman, A.B. El-Meligy and A.M. El-Nahas

Fuel, Vol.281, Art. 118798

2020

DOI: https://doi.org/10.1016/j.fuel.2020.118798

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Abstract

This work reports a computational kinetic study on the pyrolysis of isopropyl propionate (IPP) as a biodiesel model using density functional theory (DFT), namely ωB97XD and M06-2X levels. The obtained data are compared with the benchmark CBS-QB3 results. The calculated energy profiles have been supplemented with calculations of rate coefficients and branching ratios over the temperature range 563–651 K and under atmospheric pressure and in the fall-off regime was determined using transition state theory (TST) and statistical Rice-Ramsperger-Kassel-Marcus (RRKM). The obtained results reveal that the formation of propionic acid and propene is the most predominant path both thermodynamically and kinetically. However, production of other species is unlikely to occur except at elevated temperatures, with the hemolytic bond cleavage reactions aren't competitive under the applied temperature range. Comparison with linear methyl and ethyl esters indicates faster reactions for IPP. A good agreement with the available experimental findings has been found. Consistent with higher barrier heights, pressures P > 10−4 bar are necessary to achieve the high-pressure (HP) limit.

Details

Title: A computational study on the kinetics of pyrolysis of isopropyl propionate as a biodiesel model: DFT and ab initio investigation
Authors/Creators: A. Shiroudi (Author/Creator) - Islamic Azad University, Tehran
K. Hirao (Author/Creator) - RIKEN Center for Computational Science
K. Yoshizawa (Author/Creator) - Kyushu University
M. Altarawneh (Author/Creator) - United Arab Emirates University
M.A. Abdel-Rahman (Author/Creator) - Menoufia University
A.B. El-Meligy (Author/Creator) - Menoufia University
A.M. El-Nahas (Author/Creator) - Menoufia University
Publication Details: Fuel, Vol.281, Art. 118798
Publisher: Elsevier BV
Identifiers: 991005540272407891
Murdoch Affiliation: School of Engineering and Information Technology
Language: English
Resource Type: Journal article

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Collaboration types: Domestic collaboration; International collaboration
Citation topics: 7 Engineering & Materials Science; 7.177 Combustion; 7.177.238 Combustion Dynamics
Web Of Science research areas: Energy & Fuels; Engineering, Chemical
ESI research areas: Engineering