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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