范维澄 - 中国科学技术大学 - 火灾科学国家重点实验室

个人简介

1965年中国科学技术大学工程热物理专业毕业，留校工作。1979.11-1982.04 英国帝国理工学院访问学者。曾先后短期在美国马里兰大学、香港理工大学和城市大学任访问教授。现任中国科学技术大学火灾科学国家重点实验室主任、清华大学公共安全研究院院长。个人获奖国家科技进步一等奖1次，二等奖2次；国家级教学成果一、二等奖各1次；全国五一劳动奖章。

研究领域

公共安全的监测监控预测预警人员疏散应急管理的理论与技术及其综合集成火灾动力学演化与防治技术

近期论文

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[1]. Weng, W.G., et al., Experimental study of back-draft in a compartment with openings of different geometries. Combustion and Flame, 2003. 132(4): p. 709-714. [2]. Weng, W.G. and W.C. Fan, Critical condition of backdraft in compartment fires: a reduced-scale experimental study. Journal of Loss Prevention in the Process Industries, 2003. 16(1): p. 19-26. [3]. Weng, W.G. and W.C. Fan, Mitigation of backdraft with water mist: A reduced-scale experimental study. Process Safety Progress, 2003. 22(3): p. 163-168. [4]. Weng, W.G., et al., Wavelet-based image denoising in (digital) particle image velocimetry. Signal Processing, 2001. 81(7): p. 1503-1512. [5]. Weng, W.G., et al., An improved cross-correlation method for (digital) particle image velocimetry. Acta Mechanica Sinica, 2001. 17(4): p. 332-339. [6]. Weng, W.G. and W.C. Fan, An inspection criterion for flashover in compartment fires based on catastrophe theory. Journal of Fire Sciences, 2001. 19(6): p. 413-427. [7]. Song, W.G., et al., Self-organized criticality of forest fire in China. Ecological Modelling, 2001. 145(1): p. 61-68. [8]. Song, W.G., W.C. Fan, and B.H. Wang, Self-organized criticality of forest fires in China. Chinese Science Bulletin, 2001. 46(13): p. 1134-1137. [9]. Liu, N.A., et al., New mass loss kinetic model for thermal decomposition of biomass. Chinese Science Bulletin, 2001. 46(16): p. 1398-1402. [10]. Yao, J., et al., Verification and application of field-zone-network model in building fire. Fire Safety Journal, 1999. 33(1): p. 35-44. [11]. Yao, B., W.C. Fan, and G.X. Liao, Interaction of water mists with a diffusion flame in a confined space. Fire Safety Journal, 1999. 33(2): p. 129-139. [12]. Liu, N.A. and W.C. Fan, Critical consideration on the Freeman and Carroll method for evaluating global mass loss kinetics of polymer thermal degradation. Thermochimica Acta, 1999. 338(1-2): p. 85-94. [13]. Liang, X.H., et al., Numerical simulation of the combustion processes in a W-shaped boiler furnace under different operating conditions. International Journal of Energy Research, 1999. 23(8): p. 707-717. [14]. Liu, N.A. and W.C. Fan, Modelling the thermal decompositions of wood and leaves under a nitrogen atmosphere. Fire and Materials, 1998. 22(3): p. 103-108. [15]. Liu, N.A. and W.C. Fan, The kinetic methods for which no assumption about the order of reaction is needed. Fire and Materials, 1998. 22(5): p. 219-220. [16]. Hua, J.S., W.C. Fan, and G.X. Liao, Study and prediction of boilover in liquid pool fires with a water sublayer using micro-explosion noise phenomena. Fire Safety Journal, 1998. 30(3): p. 269-291. [17]. Yang, L.Z., et al., Study on detonation sensitivity of hydrocarbon-air mixtures. Theory and Practice of Energetic Materials, ed. C.G. Fengggen, Y.X. Ou, and Q.X. Zeng. 1997, Beijing 100081: Publishing House Ordnance Industry. 478-482. [18]. Wang, H.H. and W.C. Fan, Progress and problems of fire protection in China. Fire Safety Journal, 1997. 28(3): p. 191-205. [19]. Fu, Z.M. and W.C. Fan, Prediction of building fires with zone modeling method. Progress in Natural Science, 1996. 6(6): p. 734-740. [20]. Deng, C., L.B. Wu, and W.C. Fan, Neural network approach for RHR calculation and prediction in fire science. Icsp '96 - 1996 3rd International Conference on Signal Processing, Proceedings, Vols I and Ii, ed. B.Z. Yuan and X.F. Tang. 1996, Beijing: Publishing House Electronics Industry. 1484-1487. [21]. Jiang, X. and W.C. Fan, NUMERICAL PREDICTION OF FLAME SPREAD OVER SOLID COMBUSTIBLES IN A MICROGRAVITY ENVIRONMENT. Fire Safety Journal, 1995. 24(3): p. 279-298. [22]. Fan, W.C., J.S. Hua, and G.X. Liao, EXPERIMENTAL-STUDY ON THE PREMONITORY PHENOMENA OF BOILOVER IN LIQUID POOL FIRES SUPPORTED ON WATER. Journal of Loss Prevention in the Process Industries, 1995. 8(4): p. 221-227. Books: Fan Weicheng:“Computer Modeling of Combustion Processes”,1991，International Academic Publishers and Pergamon Press

学术兼职

任亚太公共安全科学技术学会主席、国务院学位委员会《安全科学与工程》学科评议组召集人、国家减灾委专家委委员、教育部安全工程教学指导委员会副主任、人事部博士后管委会专家组成员、住建部城市建设防灾减灾专家委员会主任、中国工程热物理学会副理事长、中国消防协会副会长、中国安全生产协会副会长。曾任国际火灾科学学会常务理事、国家自然科学基金委全委会委员、973火灾项目首席科学家等。