Updated thermochemistry for renewable transportation fuels: New groups and group values for acetals and ethers, their radicals, and peroxy species

We present new groups and group values for the gas‐phase thermochemistry of ethers, polyethers, and acetals suited for combustion modeling. Our investigation comprises fuel species, their primary radicals, peroxy radicals, and hydroperoxide species. In total, 45 species are used for the parameteriza...

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Published in:International journal of chemical kinetics 2021-02, Vol.53 (2), p.299-307
Main Authors: Döntgen, Malte, Kopp, Wassja A., vom Lehn, Florian, Kröger, Leif C., Pitsch, Heinz, Leonhard, Kai, Heufer, K. Alexander
Format: Article
Language:English
Subjects:
ab initio thermochemistry
Acetals
Ethers
group additivity theory
Heat of formation
Modelling
oxymethylene ethers
Parameterization
Peroxy radicals
Polyethers
Quantum mechanics
Thermochemistry
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cited_by cdi_FETCH-LOGICAL-c3323-9f0ee72ef16a3c5f0a7a6e3f203dd8ca8aef0e76f7983127ca8feea7379cbc0d3
cites cdi_FETCH-LOGICAL-c3323-9f0ee72ef16a3c5f0a7a6e3f203dd8ca8aef0e76f7983127ca8feea7379cbc0d3
container_end_page 307
container_issue 2
container_start_page 299
container_title International journal of chemical kinetics
container_volume 53
creator Döntgen, Malte
Kopp, Wassja A.
vom Lehn, Florian
Kröger, Leif C.
Pitsch, Heinz
Leonhard, Kai
Heufer, K. Alexander
description We present new groups and group values for the gas‐phase thermochemistry of ethers, polyethers, and acetals suited for combustion modeling. Our investigation comprises fuel species, their primary radicals, peroxy radicals, and hydroperoxide species. In total, 45 species are used for the parameterization of 14 groups, six of which are newly introduced here. Presently, calculated thermochemistry at the DLPNO‐CCSD(T)/CBS(cc‐pVTZ, cc‐PVQZ) // B3LYP‐D3BJ/def2‐TZVP level of theory is combined with thermochemistry from the literature. Validation of the new group values against the quantum mechanical results gives deviations of 1.22 kcal/mol, 2.36 cal/(mol·K), and 1.20 cal/(mol·K) for heats of formation, standard entropies, and heat capacities, respectively. The new thermochemistry is tested with a recent OME2 and OME3 chemical kinetic model, which shows large sensitivities to the updated values in the intermediate temperature regime. This highlights the importance of using updated thermochemistry in future chemical kinetic modeling studies of oxygenated methyl ethers (OMEs) and OME‐related structures.
doi_str_mv 10.1002/kin.21443
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source Wiley-Blackwell Read & Publish Collection
subjects ab initio thermochemistry
Acetals
Ethers
group additivity theory
Heat of formation
Modelling
oxymethylene ethers
Parameterization
Peroxy radicals
Polyethers
Quantum mechanics
Thermochemistry
title Updated thermochemistry for renewable transportation fuels: New groups and group values for acetals and ethers, their radicals, and peroxy species
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