Journals

[1].   Fang, W., Z.H. Peng,H.X. Chen, Ignition of pine needle fuel bed by the coupled effects of a hot metal particle and thermal radiation. Proceedings of the Combustion Institute, 2021. 38(3): 5101-5108.

[2].   Yang, J.L., N.A. Liu, H.X. Chen, W. Gao,R. Tu, Effects of atmospheric oxygen on horizontal peat smoldering fires: Experimental and numerical study. Proceedings of the Combustion Institute, 2019. 37(3): 4063-4071.

[3].   Yang, J.L., N.A. Liu, H.X. Chen,W. Gao, Smoldering and spontaneous transition to flaming over horizontal cellulosic insulation. Proceedings of the Combustion Institute, 2019. 37(3): 4073-4081.

[4].   Wang, S., X. Huang, H. Chen, N. Liu,G. Rein, Ignition of low-density expandable polystyrene foam by a hot particle. Combustion and Flame, 2015. 162(11): 4112-4118.

[5].   Wang, S., X. Huang, H. Chen,N. Liu, Interaction between flaming and smouldering in hot-particle ignition of forest fuels and effects of moisture and wind. International Journal of Wildland Fire, 2017. 26(1): 71-81.

[6].   Yang, Z., H.M. Zhang, L.H. Zhang,H.X. Chen, Experimental Study on Downslope Fire Spread over a Pine Needle Fuel Bed. Fire Technology, 2018. 54(6): 1487-1503.

[7].   Yang, J.L.,H.X. Chen, Natural Downward Smouldering of Peat: Effects of Inorganic Content and Piled Bed Height. Fire Technology, 2018. 54(5): 1219-1247.

[8].   Fu, S., H.X. Chen, S.D. Watt, H.S. Sidhu, T. Luangwilai,Y.F. Shu, Numerical Study on Effect of Ambient Humidity Variation on Self-heating and Spontaneous Ignition of the Eucalyptus Bark Pile. Fire Technology, 2021. 57(4): 1803-1825.