个人简介

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） 个人获奖 安徽省教学成果一等奖（1/5）（2020） 高等学校科学研究优秀成果奖（自然科学奖二等）（4/6）（2017） 教育部新世纪优秀人才计划（2012） 王宽诚育才奖二等奖（2013） 安徽省自然科学优秀论文一等奖（2013） 中国科大首届青年教师教学基本功竞赛二等奖（2012）

研究领域

特殊条件下着火、燃烧、火蔓延火灾动力学机理与防控技术

科研项目 微重力强迫对流条件下高温导线过载着火与火蔓延机制：国家自然科学基金委面上项目，主持，执行期：2016.01-2019.12 微重力强迫对流条件下火灾与非火灾颗粒群光散射规律与反演识别方法：国家自然科学基金项目，主持，执行期：2011.1-2013 西藏低压缺氧环境对火灾烟气探测的影响机理：国家自然科学基金委青年基金项目，主持，执行期：2008.01-2010.12 教育部新世纪优秀人才支持计划项目：教育部人才项目，主持，2013.01-2015.12 环境风作用下固体火灾复杂扩散燃烧行为的基础问题研究：国家自然科学基金委重点项目，重要骨干，2017.01-2021.12 城市地下空间复杂边界条件下火灾动力学行为研究：国家自然科学基金委专项基金项目，重要骨干，2014.1-2018.12 化工园区大型油气火灾灭火技术及装备研究：科技部重点研发计划课题子课题，主持，2016.07-2019.12 基于物联网技术的交通枢纽综合体火灾防控关键技术研究：科技部十二五科技支撑课题子课题，主持，2011.10-2013.12 发明专利： 一种热分层环境下烟气羽流运动模拟实验装置，ZL200810246203.3，2010-06-23 电导线阴燃烟颗粒采集设备，ZL201110178867.2，2013-8-7 一种强迫对流环境下扩散火焰实验装置，ZL201110211328.4，2013-07-07

近期论文

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[1] 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 Safety Journal, 112 (2020). [2] 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. [3] 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). [4] 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). [5] Y. Zhang, J. Fang, J.W. Wang, L.Y. Zhao, Y.M. Zhang, Ignition and flame spread over thermal aging electrical wires in subatmospheric pressure, Journal of Thermoplastic Composite Materials, (2019). [6] Y. Zhang, J. Fang, J. Wang, L. Zhao, Y. Zhang, The effects of angular orientation and ultraviolet aging on ETFE wire flame spread, Fire and Materials, 43 (2019) 393-400. [7] J. Wang, J. Fang, L. Zhao, J. Guan, Y. Zhang, J. Sun, L. Hu, Sooting tendencies of propane jet diffusion flame under crossflow, Fuel, 245 (2019) 247-252. [8] H. Wan, Z. Gao, J. Ji, J. Fang, Y. Zhang, Experimental study on horizontal gas temperature distribution of two propane diffusion flames impinging on an unconfined ceiling, International Journal of Thermal Sciences, 136 (2019) 1-8. [9] R. Tu, X. Ma, Y. Zeng, X.J. Zhou, L. He, T.Y. Fang, J. Fang, Coupling effects of pressure and inclination on downward flame spread over flexible polyurethane foam board, Building and Environment, 164 (2019). [10]J. Fang, S. Zheng, J. Wang, K. Wang, H.R. Shah, J. Wang, An analysis of heat feedback effects of different height embedded plates on promotion of pool fire burning using a variable B number, International Journal of Thermal Sciences, 145 (2019). [11]J. Fang, Y. Zhang, X.Y. Huang, Y. Xue, J.W. Wang, S.W. Zhao, X.Z. He, L.Y. Zhao, Dripping and Fire Extinction Limits of Thin Wire: Effect of Pressure and Oxygen, Combustion Science and Technology, (2019) 1-16. [12]L.-y. Zhao, J. Fang, X.-z. He, J.-w. Wang, S.-q. Tao, Y.-m. Zhang, An analysis of width effects on flame spread in conjunction with concurrent forced flow using a variable B-number, Combustion and Flame, 194 (2018) 334-342. [13]K. Wang, J. Fang, J. Wang, S. Zheng, L. Zhao, J. Guan, Y. Zhang, A Mixture Fraction-Based Model and Axial Thermal Positions for Buoyancy/Momentum-Controlled Jet Diffusion Flames, Combustion Science and Technology, 192 (2018) 62-77. [14]J. Wang, J. Fang, J. Guan, Y. Zhang, J. Sun, Effect of crossflow on the air entrainment of propane jet diffusion flames and a modified Froude number, Fuel, 233 (2018) 454-460. [15]J. Ji, Q. Tong, L.Z.L. Wang, C.C. Lin, C. Zhang, Z. Gao, J. Fang, Application of the EnKF method for real-time forecasting of smoke movement during tunnel fires, Advances in Engineering Software, 115 (2018) 398-412. [16]J. Fang, S. Zhao, J. Wang, Y. Xue, X. He, Y. Zhang, Sub-atmospheric bursting ignition of fluorinated ethylene propylene wire insulation, Fire Safety Journal, 100 (2018) 45-50. [17]J. Fang, J. Wang, R. Tu, R. Shang, Y.-m. Zhang, J.-j. Wang, Optical thickness of emissivity for pool fire radiation, International Journal of Thermal Sciences, 124 (2018) 338-343. [18]J. Fang, Y.-R. Meng, J.-W. Wang, L.-Y. Zhao, X.-Z. He, J. Ji, Y.-M. Zhang, Experimental, numerical and theoretical analyses of the ignition of thermally thick PMMA by periodic irradiation, Combustion and Flame, 197 (2018) 41-48. [19]J. Fang, X.-z. He, K.-y. Li, J.-w. Wang, Y.-m. Zhang, Transition condition and control mechanism of subatmospheric flame spread rate over horizontal thin paper sample, Combustion and Flame, 188 (2018) 90-93. [20]J.W. Wang, J. Fang, S.B. Lin, J.F. Guan, Y.M. Zhang, J.J. Wang, Tilt angle of turbulent jet diffusion flame in crossflow and a global correlation with momentum flux ratio, Proceedings of the Combustion Institute, 36 (2017) 2979-2986. [21]J.W. Wang, J. Fang, Y. Zeng, Y.M. Zhang, J.J. Wang, Flame shape of buoyant jet diffusion flames at sub-atmospheric pressures, in: J. Chao, N.A. Liu, V. Molkov, P. Sunderland, F. Tamanini, J. Torero (eds.) Proceedings of the Eighth International Seminar on Fire and Explosion Hazards (ISFEH8), USTC Press, Hefei, 2016, pp. 643-649. [22]J.W. Wang, J. Fang, J.F. Guan, Y. Zeng, Y.M. Zhang, Flame volume and radiant fraction of jet diffusion methane flame at sub-atmospheric pressures, Fuel, 167 (2016) 82-88. [23]R. Tu, Y. Zeng, J. Fang, Y. Zhang, Low air pressure effects on burning rates of ethanol and n-heptane pool fires under various feedback mechanisms of heat, Applied Thermal Engineering, 99 (2016) 545-549. [24]J.F. Guan, J. Fang, Y. Xue, J.W. Wang, J.J. Wang, Y.M. Zhang, Morphology and concentration of smoke from fluorinated ethylene propylene wire insulation in microgravity under forced airflow, Journal of Hazardous Materials, 320 (2016) 602-611. [25]J. Fang, J.W. Wang, J.F. Guan, Y.M. Zhang, J.J. Wang, Momentum- and buoyancy-driven laminar methane diffusion flame shapes and radiation characteristics at sub-atmospheric pressures, Fuel, 163 (2016) 295-303. [26]J. Fang, C. Jiang, J.W. Wang, J.F. Guan, Y.M. Zhang, J.J. Wang, Oscillation frequency of buoyant diffusion flame in cross-wind, Fuel, 184 (2016) 856-863. [27]D. Zhang, J. Fang, J.F. Guan, J.W. Wang, Y. Zeng, J.J. Wang, Y.M. Zhang, Laminar jet methane/air diffusion flame shapes and radiation of low air velocity coflow in microgravity, Fuel, 130 (2014) 25-33. [28]J. Fang, R. Shang, R. Tu, J.X. YI, Y.M. Zhang, Flame image characters of small-scale pool fire at low air pressure plateau, in: 15th International Conference on Automatic Fire Detection, Duisburg, 2014. [29]D. Zhang, J. Fang, J.F. Guan, J.J. Wang, Y. Zhang, Optimal Parameter of Flame Detection for Outdoor Fire under Transverse Airflow and Illumination Environments, Procedia Engineering, 62 (2013) 916-923. [30]Y. Zeng, J. Fang, J.W. Wang, J. Li, R. Tu, Y.M. Zhang, Momentum-dominated Methane Jet Flame at Sub-atmospheric Pressure, Procedia Engineering, 62 (2013) 924-931. [31]R. Tu, J. Fang, Y.M. Zhang, J. Zhang, Y. Zeng, Effects of low air pressure on radiation-controlled rectangular ethanol and n-heptane pool fires, Proceedings of the Combustion Institute, 34 (2013) 2591-2598. [32]J.F. Guan, J. Fang, D. Zhang, J.J. Wang, Y.M. Zhang, Experiment Study of Oil Tank Fire Characteristics Dependent on the Opening of Tank Top, Procedia Engineering, 62 (2013) 932-939. [33]Y. Zeng, J. Fang, R. Tu, J. Wang, Y. Zhang, Study on burning characteristics of small-scale ethanol pool fire in closed and open space under low air pressure, in: ASME 2011 International Mechanical Engineering Congress and Exposition, American Society of Mechanical Engineers, 2011, pp. 1423-1430. [34]J. Fang, R. Tu, J.F. Guan, J.J. Wang, Y.M. Zhang, Influence of low air pressure on combustion characteristics and flame pulsation frequency of pool fires, Fuel, 90 (2011) 2760-2766. [35]C.Y. Yu, J. Fang, J.J. Wang, Y.M. Zhang, Video Fire Smoke Detection Using Motion and Color Features, Fire Technology, 46 (2009) 651-663. [36]J. Fang, J.J. Wang, R. Tu, Y.M. Zhang, X.M. Shu, An experimental evaluation about multiple fire detectors in a high large volume space, in: 14th International Conference on Automatic Fire Detection, Duisburg,Germany, 2009. [37]J. Fang, C.Y. Yu, R. Tu, L.F. Qiao, Y.M. Zhang, J.J. Wang, The influence of low atmospheric pressure on carbon monoxide of n-heptane pool fires, Journal of Hazardous Materials, 154 (2008) 476-483. [38]J. Fang, H.Y. Yuan, Experimental measurements, integral modeling and smoke detection of early fire in thermally stratified environments, Fire Safety Journal, 42 (2007) 11-24. [39]J. Fang, J. Jie, Y. Hong-Yong, Z. Yong-Ming, Early fire smoke movements and detection in high large volume spaces, Building and Environment, 41 (2006) 1482-1493. [40]J. Fang, J. Ji, H.-Y. Yuan, Y.-M. Zhang, G.-F. Su, Experimental and Numerical Study of Smoke Plumes in Stable Thermally Stratified Environments, Journal of Fire Sciences, 24 (2006) 177-193. [41]J. Fang, X. Shu, H. Yuan, X. Zheng, Self-preserving size distribution of fire soot fractal coagulation in flaming combustion, Journal of Fire Sciences, 22 (2004) 53-68. 编著： 吴龙标，方俊，谢启源.《火灾探测与信息处理》，北京：化学工业出版社，2006 廖光煊，方俊.《燃烧技术手册》第23章“火灾探测与清洁高效灭火技术”，北京：化学工业出版社，2008。 特邀报告： 浮力/动量主控下的燃烧与火焰形态及辐射行为(主题特邀报告), 2017年中国工程热物理学会燃烧学学术年会, 中国南京, 2017-10-13至2017-10-15

学术兼职

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 第14、15、16届国际火灾探测大会分会主席 第17届国际火灾探测/灭火大会Technical Program Committee委员