Quantum chemical study on non-thermal plasma degradation tar in gasification syngas

The bond dissociation energies (BDEs) of benzene, toluene, and naphthalene which are the main components of tar in fluidized bed gasification syngas have been investigated by B3LYP method at 6-31G (d, p), 6-31G+ (d, p), 6-31G++ (d, p) and 6-311G++ (d, p) basis setsof density functional theory (DFT)....

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Bibliographic Details
Published in:Journal of physics. Conference series 2024-02, Vol.2713 (1), p.12059
Main Authors: Liang, Hanzhao, Li, Zhigang, Kuang, YunKun, Nong, Jinlong, Wei, Yuwei, Li, Yongjun, Lin, Qingyu, Pan, Zhi, Zhang, Zanzan, Huang, Qinghua, Lu, Jie
Format: Article
Language:English
Subjects:
Aromatic hydrocarbons
Benzene
Density functional theory
Electron energy
Energy value
Fluidized beds
Gasification
High energy electrons
Hydrocarbons
Mathematical analysis
Naphthalene
Quantum chemistry
Ring opening
Scaling factors
Synthesis gas
Thermal plasmas
Toluene
Zero point energy
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Summary:The bond dissociation energies (BDEs) of benzene, toluene, and naphthalene which are the main components of tar in fluidized bed gasification syngas have been investigated by B3LYP method at 6-31G (d, p), 6-31G+ (d, p), 6-31G++ (d, p) and 6-311G++ (d, p) basis setsof density functional theory (DFT).The structures of benzene, toluene, naphthalene, and corresponding radicals were optimized, and their total energiesand zero-point energies (ZPE) were calculated.The frequency analysis was carried out, then, the transition state and the high order saddle were excluded, and the influence of zero point energy scaling factors was neglected.The results showed thatthe BDEs decreased with increasing computational basis sets. The calculated results obtained by B3LYP/6-31G (d, p) are much closer to the results of the documents than the other three basis sets. This indicates that the basis set of B3LYP/6-31G (d, p) is much more credible in reproducing the BDEs. The lowest electron energy values for the ring opening of benzene, toluene and naphthalene are 8.05 eV, 7.45 eV, and 7.35 eV, respectively, indicating that when the energy of high-energy electrons reaches 8.05 eV, the ring of aromatic hydrocarbon can be broken.
ISSN:1742-6588
1742-6596
DOI:10.1088/1742-6596/2713/1/012059