个人简介 |
Xuhai Pan, Ph.D., Professor, Doctoral supervisor, Millions of Talent Projects National candidates. He served as the director of institute of fire and fire Engineering Nanjing Tech. In June 2004, he graduated from Nanjing Tech University with a Ph.D. degree in chemical process machinery. In 2011, he was promoted to professor. His main research fields are hazardous chemical safety and control technology, chemical process safety monitoring and monitoring technology, fire prevention and flame-resistant material, new energy field risk assessment (hydrogen energy, lithium ion battery) and intrinsically safe design and development. He has undertaken and participated in more than 16 research projects and presided over more than 100 projects. He has published more than 200 papers in important journals and international conferences in the field of safety and fire. As the first inventor, 3 invention patents and 19 utility model patents were authorized. He published one textbook and one translation, and co-edited two textbooks. |
代表性的科研项目/著作/论文 |
SCIENTIFIC RESEARCH PROJECT: Study on ignition and initiation mechanism and criterion of typical hazardous chemicals driven by multi-factor coupling, 2017.7-2020.6, PI. Study on evolution mechanism of jet fire and explosion accidentinduced by spontaneous ignition of high-pressure hydrogen leakage, 2020, PI. PUBLICATIONS: [1] Zhou J, Wei C-Y, Hua M, Pan X-H*, Liang X-M, Yu A-D, et al. Analysis of thermal hazards of tert-butylperoxy-2-ethylhexyl carbonate by calorimetric technique. Journal of Thermal Analysis and Calorimetry 2022;147:2689–700. [2] Zhang T, Jiang Y, Pan X*, Wang Z, Wang Q, Li Y, et al. Effects of tubes with different inlet shapes on the shock wave and self-ignition induced by accidental release of pressurized hydrogen. Fuel 2022;317. [3] Ta L, Wang Z, Zhang B, Jiang Y, Li Y, Wang Q, Pan X*, et al. Experimental investigation on shock wave propagation and self-ignition of pressurized hydrogen in different three-way tubes. Process Safety and Environmental Protection 2022;160:139–52. [4] Jiang Y, Pan X*, Zhang T, Wang Z, Wang Q, Ta L, et al. Experimental study on pressure and flow characteristics of self-ignition hydrogen flowing into the unconfined space. Process Safety and Environmental Protection 2022;159:120–32. [5] Ji H, Pan X*, Zhang L. Analysis of the performance decline discipline of lithium-ion power battery. Journal of Loss Prevention in the Process Industries 2022;74. [6] Guo X, Zhang H, Pan X*, Zhang L, Hua M, Zhang C, et al. Experimental and numerical simulation research on fire suppression efficiency of dry powder mediums containing molybdenum flame retardant additive. Process Safety and Environmental Protection 2022;159:294–308. |