单位：武汉理工大学

职称：副教授  电话：15972010693

邮箱：lijuan.liu@whut.edu.cn

研究方向：燃爆安全技术，氢能安全应用，火灾爆炸数值模拟

个人简介

刘丽娟，湖南安仁人，本科毕业于北京理工大学安全工程（本硕博连读）专业，博士毕业于北京理工大学兵器科学与技术专业。受国家留学基金委资助前往英国华威大学开展公派博士生联合培养。

现任武汉理工大学安全科学与应急管理学院副教授、硕士生导师。主持国家重点研发计划子课题、国家自然科学基金、湖北省安全生产专项资金科技项目、中国航天科工二院技术服务等科研项目。参与十堰“6·13”重大燃气爆炸事故调查，负责事故反演仿真；获中国兵工学会兵器科学与技术学科优秀博士学会论文奖励。

学术兼职及学术交流

湖北省应急管理专家、国家自然科学基金函评专家、湖北省科技厅评审专家、湖北联合基金评审专家、河南省科技奖励评审专家库成员、The Combustion Institute会员；受邀担任SCI期刊Fire客座主编、Proceedings of the Combustion Institute、Physics of Fluids等知名期刊审稿人。参加International Symposium on Hydrogen Safety Science and Engineering、H2FC SUPERGEN–The Hydrogen, Fuel Cell Research Hub、全国爆炸力学学术会议、全国高校安全科学与工程学术年会、中国公共安全大会、“城市安全与智慧应急”青年科学家论坛、中国仪器仪表学会防爆分会年会等国际国内学术会议，开展学术交流并作专题报告。

主讲课程

[1] 本科生课程：《安全生产技术基础》《安全工程专业英语》

[2] 研究生课程：《新能源安全技术》《高等燃烧爆炸学》

主持科研项目

[1] 国家重点研发计划子课题，国家科技部，2021-2024，主持

[2] 国家自然青年科学基金，国家自然科学基金委员会，2022-2024，主持

[3] 湖北省安全生产专项资金科技项目，湖北省应急管理厅，2021-2023，主持

[4] 企业技术服务项目，中国航天科工二院，2022年，主持

[5] 含能材料挤压过程数值模拟研究，北京理工大学，2023年，主持

[6] 爆炸科学与安全防护全国重点实验室（北京理工大学）开放基金，2025-2026年，主持

[7] 广东省自然科学基金面上项目，2025-2027年，主持

第一作者/通讯作者发表论文

[1] Application of microencapsulated fibrous carrier inhibitors in suppressing flake aluminum dust explosion: Performance and mechanism. Combustion and Flame, 261 (2024) 113291.

  [2] Preparation of modified fly ash-based, core-shell inhibitor and its effect on suppression of Al-Mg alloy dust explosion. Chemical Engineering Journal, 468 (2023) 143741.

  [3] Numerical simulation study on liquid hydrogen leakage diffusion behavior and solid-air deposition formations. International Journal of Hydrogen Energy 79 (2024) 478-491.

  [4] A predictive model for the critical ignition and explosion parameters of H2/CH4 premixed in air. International Journal of Hydrogen Energy 142 (2025) 478-491.

  [5] Study on the effect of particle morphology on transient dispersion behavior and ignition of Al-Mg alloy powder. Powder Technology, 435 (2024) 119416.

  [6] Flame range and energy output in two-phase propylene oxide/air mixtures beyond the original premixed zone. Energy, 171 (2019) 666-677.

  [7] Numerical study of cellular structure in detonation of a stoichiometric mixture of vapor JP-10 in air using a quasi-detailed chemical kinetic model. Aerospace Science and Technology, 91 (2019) 669-678.

  [8] Explosion characteristics and suppression evaluation of hydrogen mixed with low-concentration aluminum powder. International Journal of Hydrogen Energy, 58 (2024) 1552-1561.

  [9] Effect of initial pressure on the critical characteristics and overpressure of hydrogen-air premixed gas combustion and explosion. International Journal of Hydrogen Energy, 49 (2024) 311-322.

 [10]Effect of powder inhibitors on ignition sensitivity evolution of wood-plastic mixed dust: Based on thermal decomposition behavior and deflagration residues. Process Safety and Environmental Protection, 160 (2022) 265-273.

 [11] Comprehensive investigations on the explosion suppression of biomass fuels: Starch as a representative. Fuel, 315 (2022) 123276.

 [12] The effects of built-in obstacles on methane-air explosion with concentration gradients: An experimental research. Journal of Loss Prevention in the Process Industries, 78 (2022) 104824.

 [13] Real-time risk assessment model for hazmat release accident involving tank truck. Journal of Loss Prevention in the Process Industries, 77 (2022) 104759.

 [14] Investigation on the flame and explosion suppression of hydrogen/air mixtures by porous copper foams in the pipe with large aspect ratio. Journal of Loss Prevention in the Process Industries 76 (2022) 104744.

 [15] A comparative study on aluminum dust explosion suppression by powder inhibitors [J]. Energy Sources Part A-Recovery Utilization and Environmental Effects, 44 (2022) 6334-6346.

 [16] The influence of opening shape of obstacles on explosion characteristics of premixed methane-air with concentration gradients. Process Safety and Environmental Protection, 150 (2021):305-313.

 [17] Experimental and numerical investigation on the explosive characteristics of slotted cartridges under different slotted structures. Rock Mechanics and Rock Engineering, 54 (2021) 6173-6189.

 [18] Experimental investigations on synergistic inhibition of aluminum hydroxide and aerosil on ignition sensitivity of Niacin dust. Journal of the Taiwan Institute of Chemical Engineers, 122 (2021) 23-31.

 [19] Comparison of detonation characteristics for typical binary blended fuel. Fuel, 268 (2020) 117351.

 [20] Comparison of detonation characteristics in energy output of gaseous JP-10 and Propylene oxide in air. Fuel, 232 (2018) 154-164.

 [21] Numerical simulations of effects of droplet size and concentration on vapour-droplet JP-10/air detonation. Central European Journal of Energetic Materials, 15 (2018) 175-190.

 [22] Evaluation of detonation characteristics of aluminum/JP-10/air mixtures at stoichiometric concentrations. Fuel, 169 (2016) 41-49.

 [23] 航空油料在舱室内燃爆危害的数值分析[J].爆炸与冲击,2023,43(04):140-147.

 [24] 不同容积容器内喷气燃料燃爆特性研究[J].中国安全科学学报,2022,32(10):148-153.

专利及其他

[1] 基于超低温环境的可视化燃爆测试系统. 发明专利：CN202310384351.6.

[2] 一种非接触式爆炸反应区火焰全域多物理场实时测量系统及方法. 发明专利：CN202211054662.8