Journal Papers: 

[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