个人履历
中国科学技术大学安全科学与工程博士(2016)
中国科学技术大学博士后(2016-2018)
中国科学技术大学特任副研究员(2018-2020)
中国科学技术大学副教授(2020至今)
研究方向
氢能开发利用中的火灾安全
锂离子电池火灾动力学及消防对策
火灾爆炸事故预测与防控方法
主讲课程
课程名称：能源火灾安全理论及方法学
（课程编号：SE15230.01；学时：60；学分：3）
个人获奖
中国公路学会科学技术奖 一等奖（2018）
中国消防协会科技创新奖 一等奖（2018）

学位/职称
工学博士
中国科学技术大学副研究员
硕士生导师
办公室电话
(+86)
E-mail: duanql@ustc.edu.cn



学术任职：
国际火灾安全科学学会（IAFSS）会员(2016-)
国际燃烧学会会员(2017-)
中国化工学会会员（2019-）
中国能源研究会会员（2019-）

科研项目
锂浆料电池储能系统火灾危险性评估研究：
国家重点研发计划项目子课题，主持，执行期：2019.12-2024.11
高压氢泄漏过程中激波诱导自燃发生的内在机理与预测模型研究：
国家自然科学基金青年项目，主持，执行期：2018.1-2020.12
管道内障碍物对高压氢气泄漏自燃的影响及其机理研究：
中国博士后科学基金特别资助项目，主持，执行期：2017.6-2018.04
管道几何结构对高压氢气泄漏自燃的影响机制研究：
中国博士后科学基金项目，主持，执行期：2016.11-2018.09
区域级化工园区应急保障资源规划优化配置与调度技术研究：
十三五国家重点研发计划项目子课题，研究骨干，执行期：2016.06-2019.12
受限空间内氢/空气预混火焰与压力波相互作用的规律与机制研究：
国家自然科学基金青年项目，研究骨干，执行期：2015.01-2017.12
氢/空气预混火焰传播和突变的动力学机制及其抑制方法研究：
国家自然科学基金面上项目，研究骨干，执行期：2014.01-2017.12

代表性论著
[1] Cao H,Duan Q*, Chai H, Li X, Sun J*. Experimental study of the effect of typical halides on pyrolysis of ammonium nitrate using model reconstruction.Journal of Hazardous Materials. 2020; 384: 121297.
[2] Gong L, Li Z, Jin K, Gao Y,Duan Q*,Zhang Y, Sun J*. Numerical study on the mechanism of spontaneous ignition of high-pressure hydrogen during its sudden release into a tube.Safety Science, 2020, 129: 104807.
[3] Chai H,Duan Q*, Cao H, Li M, Sun J*. Effects of nitrogen content on pyrolysis behavior of nitrocellulose.Fuel. 2020; 264: 116853.
[4] Zeng Q,Duan Q*, Li P, Zhu H, Sun D, Sun J*. An experimental study of the effect of 2.5% methane addition on self-ignition and flame propagation during high-pressure hydrogen release through a tube.International Journal of Hydrogen Energy. 2019; 45(4): 3381-90.
[5]Duan Q, Xiao H, Gong L, Li P, Zeng Q, Gao W, Sun J*. Experimental study of shock wave propagation and its influence on the spontaneous ignition during high-pressure hydrogen release through a tube.International Journal of Hydrogen Energy. 2019; 44:22598-22607.
[6] Chai H,Duan Q*, Jiang L, Gong L*, Chen H, Sun J. Theoretical and experimental study on the effect of nitrogen content on the thermal characteristics of nitrocellulose under low heating rates.Cellulose. 2019; 26:763-776.
[7] Chai H,Duan Q*, Jiang L, Sun J*. Effect of inorganic additive flame retardant on fire hazard of polyurethane exterior insulation material.Journal of Thermal Analysis and Calorimetry. 2019; 135: 2857-2868.
[8] Gong L,Duan Q*, Liu J, Li M, Jin K, Sun J*. Effect of burst disk parameters on the release of high-pressure hydrogen.Fuel. 2019; 235: 485-494.
[9] Gong L,Duan Q*, Liu J, Li M, Jin K, Sun J*. Experimental investigation on effects of CO2 additions on spontaneous ignition of high-pressure hydrogen during its sudden release into a tube.International Journal of Hydrogen Energy. 2019; 44: 7041-7048.
[10] Gong L,Duan Q*, Sun J*, Molkov V. Similitude analysis and critical conditions for spontaneous ignition of hydrogen release into the atmosphere through a tube.Fuel. 2019; 245: 413-419.
[11] Li P,Duan Q*, Gong L, Jin K, Chen J, Sun J*. Effects of obstacles inside the tube on the shock wave propagation and spontaneous ignition of high-pressure hydrogen.Fuel. 2019; 236: 1586-1594.
[12] Li P,Duan Q*, Zeng Q, Jin K, Chen J, Sun J*. Experimental study of spontaneous ignition induced by sudden hydrogen release through tubes with different shaped cross-sections.International Journal of Hydrogen Energy. 2019; 44: 23821-23831.
[13]Duan Q, Xiao H, Gong L, Jin K, Gao W, Chai H, Sun J*. Experimental study on spontaneous ignition and subsequent flame development caused by high-pressure hydrogen release: Coupled effects of tube dimensions and burst pressure.Fire Safety Journal. 2018; 97: 44-53.
[14] Gong L,Duan Q*, Liu J, Li M, Li P, Jin K, Sun J*. Spontaneous ignition of high-pressure hydrogen during its sudden release into hydrogen/air mixtures.International Journal of Hydrogen Energy. 2018; 43: 23558-23567.
[15]Duan Q, Zhang F, Xiong T, Wang Q, Xiao H, Wang Q, Xiao H, Gao W, Gong L, Jin K, Sun J*. Experimental study of spontaneous ignition and non-premixed turbulent combustion behavior following pressurized hydrogen release through a tube with local enlargement.Journal of Loss Prevention in the Process Industries. 2017; 49: 814-821.
[16] Gong L,Duan Q*, Sun Q, Jin K, Sun J*. Effects of the geometry of downstream pipes with different angles on the shock ignition of high-pressure hydrogen during its sudden expansion.International Journal of Hydrogen Energy. 2017; 42: 8382-8391.
[17]Duan Q, Xiao H, Gao W, Gong L, Wang Q, Sun J. Experimental study on spontaneous ignition and flame propagation of high-pressure hydrogen release via a tube into air.Fuel. 2016;181: 811-819.
[18]Duan Q, Xiao H, Gao W, Gong L, Sun J. Experimental investigation of spontaneous ignition and flame propagation at pressurized hydrogen release through tubes with varying cross-section.Journal of Hazardous Materials. 2016; 320: 18-26.
[19]Duan, Q, Xiao, H, Gao, W, Shen, X, Wang, Q, Sun, J*, 2015, Experimental investigation on shock waves generated by pressurized gas release through a tube,Journal of Loss Prevention in the Process Industries. 36: 39-44.
[20]Duan, Q, Xiao, H, Gao, W, Wang, Q., Shen, X., Jiang, L, Sun, J*, 2015, An experimental study on shock waves and spontaneous ignition produced by pressurized hydrogen release through a tube into atmosphere,International Journal of Hydrogen Energy. 40(25): 8281-8289.