李權
人物履歷
教育背景
2010/09–2014/06,安徽理工大學,彈藥工程與爆炸技術,學士
2014/09–2019/06,中國科學技術大學,安全科學與工程,博士
2017/08–2018/08,加拿大女王大學,機械與材料工程,訪問學者
工作經歷
2019/07–至 今,合肥工業大學,土木與水利工程學院,講師
科研項目
[1] 國家重點研發計劃專題,壓力泄放裝置高壓高速氫氣自燃機制研究,2019YFB1505301-02,2019/12-2022/11,主持;
[2] 國家自然科學基金青年項目,爆燃轉爆轟胞格邊界特徵與特殊胞格邊界形成機理研究,1210021153,2022/01-2024/12,主持;
[3] 中國博士後基金面上項目,不同邊界條件下爆轟自持傳播中衍射強度與反射形式競爭機制研究,2021M690848,2022/01-2023/12,主持;
[4] 安徽省自然科學基金,多孔板作用下氫-空氣預混氣體阻火阻爆機理研究,2008085QE238,2020/07-2022/06,主持;
[5] 國家重點實驗室開放課題項目,多孔介質對氫空氣預混火焰及穩態爆轟傳播抑制機理研究,HZ2020-KF05,2020/01-2021/12,主持
科研成果
[1] Quan Li, Mark Kellenberger, Gaby Ciccarelli. Geometric influence on the propagationof the quasi-detonations in a stoichiometric H2-O2 mixture. Fuel, 2020, 269: 117396
[2] Quan Li, Shouxiang Lu, Mingjun Xu,Yanming Ding, Changjian Wang. Comparison of flame propagation in a tube with a flexible/rigid obstacle. Energy & Fuel 30 (2016): 8720-6.
[3] Quan Li, Xuxu Sun, Shouxiang Lu, Zhi Zhang, Xing Wang, Sen Han, Changjian Wang Experimental study of flame propagation across a perforated plate. International Journal of Hydrogen Energy 43 (2018): 8524-33.
[4] Quan Li, Gaby Ciccarelli, Xuxu Sun, Shouxiang Lu, Xing Wang, Zhi Zhang, Mingjun Xu, Changjian Wang. Flame propagation across a flexible obstacle in a square cross-section channel. International Journal of Hydrogen Energy 43 (2018): 17480-91.
[5] Quan Li, Xuxu Sun, , Xing Wang, Zhi Zhang, Shouxiang Lu, Changjian Wang. Geometric influence of perforated plate on premixed hydrogen-air flame propagation. International Journal of Hydrogen Energy 43 (2018):21572-81.
[6] Quan Li, Shouxiang Lu, Changjian Wang. Effect of orifice plates spaces on flame propagation in a square cross-section channel. International Journal of Hydrogen Energy 44(2019):22537-22546.
[7] Quan Li, Xuxu Sun, Xing Wang, Zhi Zhang, Shouxiang Lu, Changjian Wang. Experimental study of flame propagation across flexible obstacles in a square cross-section channel. International Journal of Hydrogen Energy 44(2019): 3944-52.
[8] Xinjiao Luo, Changjian Wang*, Shengchao Rui, Yang Wan, Zhi Zhang, Quan Li*. Effects of ignition location, obstacles, and vent location on the vented hydrogen-air deflagrations with low vent burst pressure in a 20-foot container. Fuel 2020;280.
[9] Shengchao Rui, Changjian Wang*, Yang Wan, Xinjiao Luo, Zhi Zhang, Quan Li*. Experimental study of end-vented hydrogen deflagrations in a 40-foot container.International Journal of Hydrogen Energy 2020;45(31):15710-9.
[10] Shengchao Rui, Changjian Wang*, Xinjiao Luo, Quan Li*, Haoran Zhang. Experimentalstudy on the effects of ignition location and vent burst pressure on vented hydrogen-air deflagrations in a cubic vessel. Fuel 2020;278.
[11] Manhou Li, Jinchao Xu, Quan Li*, et al. Explosion mitigation of methane-air mixture in combined application of inert gas and ABC dry powders in a closed compartment. Process Saf Prog 2019; 12101.
[12] Gaby Ciccarelli, Quan Li, Curtis Metrow. The three-dimensional structure of a detonation wave propagating in a round tube with orifice plates. Shock Waves (2018): 1-12.
[13] Zhi Zhang, Changjian Wang*, Xinjiao Luo, Yongzhi Guo, Yang Wan, Quan Li. Mach reflection of a H2-O2-Ar detonation wave on the rough wedge based on soot track measurements[J]. Combustion and Flame 2021,225:364-376.
[14] Mingjun Xu, Jiaqing Zhang, Quan Li,Shouxiang Lu. The influence of liquid pool temperature on the critical impact Weber number for surface bubble formation. International Journal of Heat and Mass Transfer.127 (2018): 677-82.