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，女，1992年7月生，湖南安仁人，2014年本科毕业于北京理工大学安全工程（本硕博连读）专业。2020年博士毕业于北京理工大学兵器科学与技术专业。2016年5月至2017年5月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] 中央高校基本科研业务费，2021-2022，主持

[5] 企业技术服务项目，中国航天科工二院，2022年，主持

[6] 企业技术服务项目，中国航天科工二院，2022年，主持

[7] 含能材料挤压过程数值模拟研究，北京理工大学，2023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. (TOP期刊 

[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. (中科院一区，TOP期刊，IF: 15.1)

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

  [4] Flame range and energy output in two-phase propylene oxide/air mixtures beyond the original premixed zone. Energy, 171 (2019) 666-677. (中科院一区，TOP期刊，IF: 9.0)

  [5] 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. (中科院一区，TOP期刊)

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

  [7] 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.

  [8] 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. (TOP期刊)

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

  [10] 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.

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

  [12] 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.

  [13] 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.

  [14]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. (TOP期刊)

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

  [16] 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.

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

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

  [19] 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.

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

  [21] 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.

  [22] 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