基于ReaxFF分子动力学模拟的正二十四烷高温热解

High-Temperature Pyrolysis of -Tetracosane Based on ReaxFF Molecular Dynamics Simulation.

作者信息

Yu Xiaowen, Zhang Chunhua, Wang Hanwen, Li Yangyang, Kang Yujia, Yang Ke

机构信息

Key Laboratory of Shaanxi Province for Development and Application of New Transportation Energy, Chang'an University, Xi'an 710064, China.

出版信息

ACS Omega. 2023 Jun 2;8(23):20823-20833. doi: 10.1021/acsomega.3c01525. eCollection 2023 Jun 13.

DOI:10.1021/acsomega.3c01525

PMID:37332798

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10268645/

Abstract

In order to further understand the high-temperature reaction process and pyrolysis mechanism of hydrocarbon fuels, the high-temperature pyrolysis behavior of -tetracosane (CH) was investigated in this paper via the reaction force field (ReaxFF) method-based molecular dynamics approach. There are two main types of initial reaction channels for -heptane pyrolysis, C-C and C-H bond fission. At low temperatures, there is little difference in the percentage of the two reaction channels. With the temperature increase, C-C bond fission dominates, and a small amount of -tetracosane is decomposed by reaction with intermediates. It is found that H radicals and CH radicals are widely present throughout the pyrolysis process, but the amount is little at the end of the pyrolysis. In addition, the distribution of the main products H, CH, and CH, and related reactions are investigated. The pyrolysis mechanism was constructed based on the generation of major products. The activation energy of CH pyrolysis is 277.19 kJ/mol, obtained by kinetic analysis in the temperature range of 2400-3600 K.

摘要

为了进一步了解烃类燃料的高温反应过程和热解机理，本文采用基于反应力场（ReaxFF）方法的分子动力学方法研究了正二十四烷（CH）的高温热解行为。正庚烷热解主要有两种初始反应通道，即C-C键和C-H键断裂。在低温下，两种反应通道的百分比差异不大。随着温度升高，C-C键断裂占主导，少量正二十四烷通过与中间体反应而分解。研究发现，H自由基和CH自由基在整个热解过程中广泛存在，但在热解末期数量较少。此外，还研究了主要产物H、CH和CH的分布以及相关反应。基于主要产物的生成构建了热解机理。通过在2400-3600K温度范围内的动力学分析，得到正二十四烷热解的活化能为277.19kJ/mol。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/1eb9/10268645/20edfd52b403/ao3c01525_0002.jpg

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基于ReaxFF分子动力学模拟的正二十四烷高温热解

High-Temperature Pyrolysis of -Tetracosane Based on ReaxFF Molecular Dynamics Simulation.

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