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 公共安全科学技术奖(科学技术进步奖) 一等奖(2021) 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教授 硕士生导师
办公室电话 (+86)551 63606191 E-mail: duanql@ustc.edu.cn |
学术任职:
Emergency Management Science and Technology Early Career of Editor (2022.07-)
Frontiers in Energy Research 客座编辑(2021.11-)
中国能源学会新能源专家组委员(2021.08-)
Journal of Loss Prevention in the Process Industries 客座编辑 (2021.05-)
《中国安全科学学报》 青年编辑委员会委员(2020.11-)
国际燃烧学会会员(2017-)
国际火灾安全科学学会会员(2016-)
科研项目
高压氢气泄漏自燃诱发喷射火的微观动力学机理及行为规律研究:国家自然科学基金面上项目,主持,执行期:2023.01-2026.12
新能源汽车动力电池热失控火灾监测预警关键技术研究:合肥市自然科学基金项目,主持,执行期:2022.07-2024.06
受限空间氢气泄漏扩散诱发爆燃灾害动力学机理研究:中国科学技术大学青年创新重点基金,主持,执行期:2022.01-2023.12
受限空间氢气泄漏扩散动力学特性与可燃气云爆燃致灾机理研究:安徽省自然基金面上项目,主持,执行期:2021.01-2023.12
民机动力锂电池热安全基础理论及适航验证关键技术研究:国家自然科学基金民航联合基金重点项目,课题二主持,执行期:2021.01-2024.12
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
代表性论著
以第一/通讯作者在Journal of Hazardous Materials、Fuel、International Journal of Hydrogen Energy等国际安全、能源领域著名期刊发表SCI论文36篇,其中JCR Q1区论文22篇(截止到2022年9月)。
1. Duan, Q.*, Tang, J., Jin, K., Zeng, Q., Wu, Y., Zhang, S., Wang, Q., & Sun, J.* (2022). Experimental investigation of shock wave propagation, spontaneous ignition, and flame development of high-pressure hydrogen release through tubes with different obstacles arrangements. International Journal of Hydrogen Energy, 10.1016/j.ijhydene.2022.08.280.
2. Duan, Q., Zeng, Q., Jin, K., Wang, Q., & Sun, J.* (2022). Mechanism of self-ignition and flame propagation during high-pressure hydrogen release through a rectangular tube. Process Safety and Environmental Protection, 164, 283-290.
3. Zeng, Q., Jin, K., Duan, Q.*, Zhu, M., Gong, L., Wang, Q., & Sun, J.* (2022). Effects of CO addition on shock wave propagation, self-ignition, and flame development of high-pressure hydrogen release into air. International Journal of Hydrogen Energy, 47(32), 14714-14724.
4. Zhu, M., Jin, K., Duan, Q.*, Zeng, Q., & Sun, J.* (2022). Numerical simulation on the spontaneous ignition of high-pressure hydrogen release through a tube at different burst pressures. International Journal of Hydrogen Energy, 47(18), 10431-10440.
5. Zeng, Q., Duan, Q.*, Jin, K., Zhu, M., & Sun, J. (2022). Effects of nitrogen addition on the shock-induced ignition of high-pressure hydrogen release through a rectangular tube of 400 mm in length. Fuel, 308, 122016.
6. Wang, J., Mei, W., Cui, Z., Dong, D., Shen, W., Hong, J., Chen, H.*, Duan, Q.*, Wang, Q., & Sun, J. (2021). Investigation of the thermal performance in lithium-ion cells during polyformaldehyde nail penetration. Journal of Thermal Analysis and Calorimetry, 145(6), 3255-3268
7. Wu, D.*, Tan, X., Wei, A., Duan, Q.*, Huang, W., & Schmidt, M.* (2021). Ignition temperature and mechanism of carbonaceous dust clouds: The roles of volatile matter, CH4 addition, O2 mole fraction and diluent gas. Journal of Hazardous Materials, 405, 124189.
8. Huang, Z., Li, X., Wang, Q., Duan, Q.*, Li, Y., Li, L., & Wang, Q.* (2021). Experimental investigation on thermal runaway propagation of large format lithium ion battery modules with two cathodes. International Journal of Heat and Mass Transfer, 172, 121077.
9. Jin, K., Wang, Q., Duan, Q.*, Chen, J., & Sun, J.* (2021). Effect of metal wire mesh on premixed H2/air flame quenching behaviors in a closed tube. Process Safety and Environmental Protection, 146, 770-778.
10. Li, P., Zeng, Q., Duan, Q.*, & Sun, J.* (2021). Visualization of spontaneous ignition and flame behavior in tubes with and without obstacles during the high-pressure hydrogen release. Process Safety and Environmental Protection, 153, 354-362.
11. Jin, K., Wang, Q., Duan, Q.*, Chen, J., & Sun, J.* (2021). Effect of ignition position on premixed hydrogen-air flame quenching behaviors under action of metal wire mesh. Fuel, 289, 119750.
12. Li, P., Duan, Q.*, Jin, K., Zeng, Q., & Sun, J.* (2021). Experimental study on shock waves, spontaneous ignition, and flame propagation produced by pressurized hydrogen release through tubes with varying obstacle location. Fuel, 290, 120093.
13. Cao, H., Li, X., Jin, K., Duan, Q.*, Chai, H., & Sun, J.* (2021). Experimental and theoretical study of the effect of typical halides on thermal decomposition products and energy release of ammonium nitrate based on microcalorimetry and FTIR. Chemical Engineering Journal, 410, 128405.
14. Gong, L., Li, Z., Jin, K., Gao, Y., Duan, Q.*, Zhang, Y., & Sun, J.* (2020). Numerical study on the mechanism of spontaneous ignition of high-pressure hydrogen during its sudden release into a tube. Safety Science, 129, 104807.
15. Jin, K., Wang, Q., Duan, Q.*, & Sun, J.* (2020). Effect of single-layer wire mesh on premixed methane/air flame dynamics in a closed pipe. International Journal of Hydrogen Energy, 45(56), 32664-32675.
16. Chai, H., Duan, Q.*, Cao, H., Li, M., Qi, K., Sun, J.*, & Yang, X. (2020). Experimental study on the effect of storage conditions on thermal stability of nitrocellulose. Applied Thermal Engineering, 180, 115871.
17. Zeng, Q., Duan, Q.*, Li, P., Zhu, H., Sun, D., & Sun, J.* (2020). 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, 45(4), 3381-3390.
18. Zeng, Q., Duan, Q.*, Sun, D., Li, P., Zhu, M., Wang, Q., & Sun, J.* (2020). Experimental study of methane addition effect on shock wave propagation, self-ignition and flame development during high-pressure hydrogen sudden discharge from a tube. Fuel, 277, 118217.
19. Chai, H., Duan, Q.*, Cao, H., Li, M., & Sun, J.* (2020). Effects of nitrogen content on pyrolysis behavior of nitrocellulose. Fuel, 264, 116853.
20. Li, P., Duan, Q.*, Zeng, Q., Jin, K., Chen, J., & Sun, J.* (2019). Experimental study of spontaneous ignition induced by sudden hydrogen release through tubes with different shaped cross-sections. International Journal of Hydrogen Energy, 44(42), 23821-23831.
21. Chai, H., Duan, Q.*, Jiang, L., & Sun, J.* (2019). Effect of inorganic additive flame retardant on fire hazard of polyurethane exterior insulation material. Journal of Thermal Analysis and Calorimetry, 135(5), 2857-2868.
22. Gong, L., Duan, Q.*, Sun, J.*, & Molkov, V. (2019). Similitude analysis and critical conditions for spontaneous ignition of hydrogen release into the atmosphere through a tube. Fuel, 245, 413-419.
23. Gong, L., Duan, Q.*, Liu, J., Li, M., Jin, K., & Sun, J.* (2019). 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, 44(13), 7041-7048.
24. Gong, L., Duan, Q.*, Liu, J., Li, M., Jin, K., & Sun, J.* (2019). Effect of burst disk parameters on the release of high-pressure hydrogen. Fuel, 235, 485-494.
25. Li, P., Duan, Q.*, Gong, L., Jin, K., Chen, J., & Sun, J.* (2019). Effects of obstacles inside the tube on the shock wave propagation and spontaneous ignition of high-pressure hydrogen. Fuel, 236, 1586-1594.
26. Chai, H., Duan, Q.*, Jiang, L., Gong, L., Chen, H., & Sun, J.* (2019). Theoretical and experimental study on the effect of nitrogen content on the thermal characteristics of nitrocellulose under low heating rates. Cellulose, 26(2), 763-776.
27. Cao, H., Jiang, L., Duan, Q.*, Zhang, D., Chen, H., & Sun, J.* (2019). An experimental and theoretical study of optimized selection and model reconstruction for ammonium nitrate pyrolysis. Journal of Hazardous Materials, 364, 539-547.
28. Duan, Q., Xiao, H., Gong, L., Li, P., Zeng, Q., Gao, W., & Sun, J.* (2019). 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, 44(40), 22598-22607.
29. Gong, L., Duan, Q.*, Liu, J., Li, M., Li, P., Jin, K., & Sun, J.* (2018). Spontaneous ignition of high-pressure hydrogen during its sudden release into hydrogen/air mixtures. International Journal of Hydrogen Energy, 43(52), 23558-23567.
30. Duan, Q., Xiao, H., Gong, L., Jin, K., Gao, W., Chai, H., & Sun, J.* (2018). 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, 97, 44-53.
31. Gong, L., Duan, Q.*, Sun, Q., Jin, K., & Sun, J.* (2017). 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, 42(12), 8382-8391.
32. Duan, Q., Zhang, F., Xiong, T., Wang, Q., Xiao, H., Wang, Q., Gao, W., Gong, L., Jin, K., & Sun, J.* (2017). 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, 49, 814-821.
33. Duan, Q., Xiao, H., Gao, W., Gong, L., Wang, Q., & Sun, J.* (2016). Experimental study on spontaneous ignition and flame propagation of high-pressure hydrogen release via a tube into air. Fuel, 181, 811-819.
34. Duan, Q., Xiao, H., Gao, W., Gong, L., & Sun, J.* (2016). Experimental investigation of spontaneous ignition and flame propagation at pressurized hydrogen release through tubes with varying cross-section. Journal of Hazardous Materials, 320, 18-26.
35. 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.
36. 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.