个人履历 中国科学技术大学安全技术及工程博士(2004) 中国科学技术大学博士后 (2004-2006) 中国科学技术大学副研究员(2007-至今) 教育部新世纪优秀人才支持计划 (2012) University of California, San Diego 访问学者（2014-2015）

空间站等载人航天器火灾发生和控制机理 石油化工等场所压缩空气泡沫灭火技术机理 人工智能在高精准火灾探测中的应用方法

国际火灾安全科学学会终身会员 国际燃烧学会会员 清华大学合肥公共安全研究院消防安全科技专家 工程与材料学部、信息科学部国家自然科学基金委通讯评议专家 教育部博士学位论文评审专家

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Tian, Experimental study of coupling between the burning behaviors of fuel storage tanks and thin fuel pools, Energy 285 (2023). [6] Y. Chen, J. Fang, X. Zhang, Y. Miao, Y. Lin, R. Tu, L. Hu, Pool fire dynamics: Principles, models and recent advances, Prog. Energy Combust. Sci. 95 (2023). [7] Y. Zhang, J. Fang, R. Tu, L. Song, A.V. Singh, Experimental study of the effect of unheated starting segment upon flame spread over solid fuel under forced airflow, Fire Saf. J. 131 (2022). [8] W. Wang, L. Zhao, J. Fang, Y. Zhang, Upward Flame Spread over Two Parallel Paper Sheets under Reduced Ambient Pressure and Elevated Oxygen Concentration, Combust. Sci. Technol., doi:10.1080/00102202.2022.2109152(2022) 1-19. [9] W. Wang, J. Fang, L. Zhao, Y. Zhang, J. Wang, Y. Zhang, Unilateral Blow-Off and Periodic Smoldering Holes in Upward Flame Spread Over Thin Charring Material, Combust. Sci. Technol., doi:10.1080/00102202.2022.2152682(2022) 1-26. [10] F.Y. Tian, K. Wang, J. Fang, H.R. Shah, X.Q. Lang, S.J. Mu, J.J. Wang, J.W. Wang, Suppression Behavior Difference Between Compressed Air/Nitrogen Foam over Liquid Fuel Surface Under Constant Radiation Heat Flux, Fire Technol., doi:10.1007/s10694-022-01332-0(2022). [11] F. Tian, K. Wang, J. Fang, H.R. Shah, X. Lang, S. Mu, J. Wang, J. Wang, Suppression Behavior Difference Between Compressed Air/Nitrogen Foam over Liquid Fuel Surface Under Constant Radiation Heat Flux, Fire Technol., doi:10.1007/s10694-022-01332-0(2022). [12] S. Tao, J. Fang, H.R. Shah, L. Yang, Experimental study of N2 and CO2 dilution in CH4 fuel stream with buoyancy-induced low-stretch diffusion flames, Combust. Flame 240 (2022). [13] X. He, J. Fang, Y. Zhang, L. Zhao, Experimental study of flame spread transition from chemistry to heat transfer controlled regime at sub-atmospheric pressure: The effect of sample width, Process Safety and Environmental Protection 158 (2022) 221-230. [14] B. Dong, Y. Li, L. He, J. Guan, L. Hu, J. Fang, Z. Wang, Quantification of n-heptane low temperature oxidation products by proton-transfer-reaction mass spectrometry, Combust. Flame 246 (2022). [15] B. Dong, Z. Hu, Q. Xu, B. Liu, Q. Zhu, J. Guan, C. Liu, Y. Pan, L. Hu, J. Fang, Z. Wang, Improving quantification of hydrogen peroxide by synchrotron vacuum ultraviolet photoionization mass spectrometry, Combust. Flame 242 (2022). [16] W. Chu, J. Fang, H.R. Shah, Y. Zhang, J. Ji, Effect of Gap and Orientation of Thermal Barrier Plates on Ignition and Downward Crossing Flame Spread Over a Wood Board, Fire Technol., doi:10.1007/s10694-022-01288-1(2022). [17] Y. Zhang, J. Fang, L. Zhao, H.R. Shah, L. Song, L. Hu, Effect of unheated length on heat transfer in a vertically solid burning, Int. J. Therm. Sci. 160 (2021). [18] K. Wang, J. Fang, H.R. Shah, X. Lang, S. Mu, Y. Zhang, J. Wang, Research on the influence of foaming gas in compressed air/nitrogen foam on extinguishing the n-heptane tank fire, Journal of Loss Prevention in the Process Industries 72 (2021). [19] L. Zhao, Q. Zhang, R. Tu, J. Fang, J. Wang, Y. Zhang, Effects of electric current and sample orientation on flame spread over electrical wires, Fire Saf. J. 112 (2020). [20] L. Zhao, J. Fang, S. Tao, J. Wang, Y. Zhang, Effects of Ambient Parameters and Sample Width on Upward Flame Spread over Thermally Thin Solids, Fire Technol., doi:10.1007/s10694-020-00987-x(2020). [21] Y. Zhang, J. Fang, J. Wang, Y. Zhang, L. Song, Lower pressure dripping limits of inclined polyethylene-insulated wires during flame spreading under different oxygen concentrations, Fire Saf. J., doi:10.1016/j.firesaf.2020.103108(2020). [22] K. Wang, J. Fang, J.W. Wang, S.M. Zheng, J.F. Guan, H.R. Shah, J.J. Wang, Y.M. Zhang, Ignition Delay of Fluorinated Ethylene Propylene Wire Insulation in a Forced Flow Field in Microgravity, Combustion, Explosion, and Shock Waves 56 (2020) 412-420. [23] K. Wang, J. Fang, H.R. Shah, S. Mu, X. Lang, J. Wang, Y. Zhang, A theoretical and experimental study of extinguishing compressed air foam on an n-heptane storage tank fire with variable fuel thickness, Process Safety and Environmental Protection 138 (2020) 117-129. [24] J.W. Wang, J. Fang, J.F. Guan, L.Y. Zhao, S.B. Lin, H.R. Shah, Y.M. Zhang, J.H. Sun, Radiative Fraction and Flame Length of Propane Jet Diffusion Flames in a Crossflow, Combustion, Explosion, and Shock Waves 56 (2020) 375-382. [25] S. Tao, J. Fang, L. Zhao, J. Wang, H.R. Shah, L. Yang, Burning characteristics of PMMA with varied stretch rates under stagnation-point diffusion flames, Combust. Flame 220 (2020) 63-72. [26] S. Tao, J. Fang, L. Zhao, J. Wang, H.R. Shah, L. Hu, L. Yang, Flammability and critical parameters at low oxygen extinction limit of stagnation-point diffusion flames with varied stretch rates, Fire Saf. J. 116 (2020). [27] S. Tao, J. Fang, Y. Meng, H.R. Shah, L. Yang, Ignition risk analysis of common building material cylindrical PMMA exposed to an external irradiation with in-depth absorption, Construction and Building Materials 251 (2020). [28] K. Li, J. Wang, S. Luo, Z. Wang, X. Zhou, J. Fang, L. Su, R. Tu, Experimental investigation on combustion characteristics of flammable refrigerant R290/R1234yf leakage from heat pump system for electric vehicles, Royal Society Open Science 7 (2020). [29] X. He, J. Wang, J. Fang, Flammability limits and near-limit chemistry controlled flame spread over thermally thin paper under sub-atmospheric pressure, Fire Saf. J., doi:10.1016/j.firesaf.2020.103042(2020). [30] J. Fang, Y. Xue, J. Wang, X. He, Y. Zhang, S. Zhao, Y. Zhang, PE and ETFE wire insulation flame morphologies and spread rates under subatmospheric pressures, Journal of Thermoplastic Composite Materials, doi:10.1177/0892705720904090(2020). [31] J. Fang, Y. Liu, K. Wang, H.R. Shah, S. Mu, X. Lang, J. Wang, Sooting tendency analysis of oxygenate-diesel blended fuels by the affecting indicators of carbon number, oxygen content and H/C ratio, Fuel, doi:10.1016/j.fuel.2020.119789(2020).