成果及获奖 1论文、论著、专利和规范等 [1] 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. [2] 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. [3] 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. [4] 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. [5] 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 (online). [6] 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. [7] 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;e12101 [8] Jin Guo, Quan Li, et al. Effect of burst pressure on vented hydrogen-air explosion in a cylindrical vessel. International Journal of Hydrogen Energy 40.19(2015):6478-6486. [9] 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. [10] Xuxu Sun, Quan Li et al. Experimental investigation of detonation propagation in hydrogen-air mixtures in a tube filled with bundles. Experimental thermal and Fluid Science 102 (2019): 316-324. [11] Xuxu Sun, Quan Li et al. The propagation mechanism of detonation wave in a round tube filled with larger blockage ratio orifice plates. International journal of hydrogen energy, 44.14 (2019): 7684-7691. [12]Xuxu Sun, Quan Li et al.. Detonation propagation characteristics for CH4-2H2-3O2 mixtures in a tube filled with orifice plates. International journal of hydrogen energy, 44.14 (2019): 7616-7627. [13] Xuxu Sun, Quan Li et al. Effect of bundle geometries on the detonation velocity behaviors in stoichiometric hydrogen-air mixture. International journal of hydrogen energy, 2019.(online) [14] Xuxu Sun, Quan Li et al., Experimental study on the detonation propagation behaviors through a small-bore orifice plate in hydrogen-air mixtures, International journal of hydrogen energy 2019(accepted) [15] Jin Guo, Changjiang Wang, Quan Li et al. Effect of the vent burst pressure on explosion venting of rich methane-air mixtures in a cylindrical vessel. Journal of Loss Prevention in the Process Industries. 40 (2016):82-8. [16]Mingjun Xu, Jiaqing Zhang, Quan Li et al. 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. [17] Quan Li,Changjian Wang, Changming Guo, Qun Shao, Shouxiang Lu. The effect of soft sponge height on premixed hydrogen-air flame propagation in a horizontal tube, 2015, 6th International Conference on Hydrogen Safety, Yokohama, Japan.( International Conference) [18] Quan Li, Mark Kenllenberger, Gaby Ciccarelli. Geometric influence on the propagation of quasi-detonation, 2018, Combustion Institute-Canadian Section, Toronto, Canada.( International Conference) [19] Quan Li, Shouxiang Lu, Changjian Wang. Initial pressure on flame propagation of lean and rich hydrogen-air mixtures in a channel with a flexible obstacle, 2018, Hefei, China.( International Conference)
2 主持/参与科研项目 压力泄放装置高压高速氢气自燃机制研究,国家重点研发计划专题,2019.12-2022.11,在研,主持
3获奖情况: 2018年 智造顺德奖 2017年 国家建设高水平大学公派资助 2016年 研究生国家奖学金
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