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Li/SF6燃烧反应路径及机理研究

温伯尧王起源孙成珍宗潇骆政园白博峰

水下无人系统学报2023，Vol.31Issue(6)：856-863,8.

水下无人系统学报2023，Vol.31Issue(6)：856-863,8.DOI:10.11993/j.issn.2096-3920.2023-0012

Li/SF6燃烧反应路径及机理研究

Reaction Path and Mechanisms of Li/SF6 Combustion

温伯尧 ¹王起源 ¹孙成珍 ¹宗潇 ²骆政园 ¹白博峰¹

作者信息

1. 西安交通大学动力工程多相流国家重点实验室,陕西西安, 710049
2. 中国船舶集团有限公司第 705 研究所,陕西西安, 710077
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摘要

Abstract

Revealing the combustion reaction mechanism of Li/SF6 fuel is the key basis for constructing the combustion kinetics model and efficiently organizing the combustion process.However,it is difficult to reveal the stepwise reaction mechanism of Li/SF6 combustion by existing experimental tests and macroscopic simulation methods.This paper studied the microscopic reaction processes of Li and SF6 by combining the ReaxFF molecular reaction simulation and first-principles calculation method.The dynamic evolution characteristics of reactants and product components were analyzed,and the main reaction paths and reaction heat were obtained.It is found that the breakage of the S-F bond in SF6 molecules is the initial stage of the reaction,and LiF is the main product of the initial reaction.As the reaction progresses,the excessive Li forms Li2 and bonds with S to form Li2S.At the later stage of the reaction,two LiF molecules combine with each other to produce Li2F2.Based on the variation of reactant concentration,the total reaction rates of Li and SF6 are obtained.The results show that the total reaction rate is positively correlated with the reactant concentration and reactant proportion because the rise of reactant concentration or proportion leads to a larger collision probability between reactant molecules.The impact of initial temperature on the total reaction rate is relatively small.According to the enthalpy value of the reactants obtained from the first-principles,the heat release of each stepwise reaction is calculated.The reaction heat for Li/SF6 combustion is-2 216.7 kJ/mol,which is close to the theoretical and experimental values.The research results provide an effective way to reveal the stepwise reaction mechanism and calculate the reaction heat of complex combustion reactions.

关键词

Li/SF6燃烧反应/反应路径/分子动力学/第一性原理/反应热

Key words

Li/SF6 combustion reaction/reaction path/molecular dynamics/first-principles/reaction heat

分类

军事科技

引用本文复制引用

温伯尧,王起源,孙成珍,宗潇,骆政园,白博峰..Li/SF6燃烧反应路径及机理研究[J].水下无人系统学报,2023,31(6):856-863,8.

基金项目

基础加强计划项目资助(No.202******D). （No.202******D）

水下无人系统学报

OACSTPCD

ISSN：2096-3920

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