Journals

[1] Chen Wang^*, Jie Ji^*, Chunxiao Li, Weixin Tong, Jing Wu. Experimental study on burning behavior of unbounded thin-layer fuel considering substrate heat loss. Proceedings of the Combustion Institute, 2024, 40(1-4), 105757.

[2] Chen Wang, Jie Ji^*, Albert Simeoni, Jingbo Xu, Hao Zhang. Experimental study of heat loss and heat feedback of pool fire of millimeter to centimeter fuel thickness. Proceedings of the Combustion Institute, 2024, 40(1-4), 105758.

[3] Chen Wang, Haowei Hu, Hao Zhang, Jie Ji^∗, Zhigang Wang. Experimental study of the horizontal subsurface flow trajectory and dynamic external radiation of flame spread over diesel. Energy, 2022, 260, 125078.

[4] Chen Wang, Jie Ji^∗. Experimental study of dynamic combustion behavior and heat transfer of heptane pool fire with burning time under thin fuel thickness (2.0 mm–14.0 mm). Energy, 2023, 270, 126973.

[5] Chen Wang, Jie Ji^∗. Experimental study of fire plume temperature and radiant heat flux of a horizontal jet flame impinging a wall. Fire safety journal, 2022, 129, 103550.

[6] Chen Wang, Ling Yang, Mengqi Tang, Weixin Tong, Jie Ji*. Experimental analysis of evaporation and heat transfer characteristics during the ignition process of RP-3 liquid flow on a curved hot surface. Fuel, 2025, 397, 135342.

[7] Chen Wang, Long Ding^∗, Huaxian Wan, Jie Ji^∗, Yonglong Huang. Experimental study of flame morphology and size model of a horizontal jet flame impinging a wall. Process Safety and Environmental Protection, 2021, 147, 1009-1017.

[8] Chen Wang, Longxing Yu, Qineng Zhou, Jie Ji^*. Study on the temperature, velocity fields and inward-concave shape of merging flame of two-line fires. International Journal of Thermal Sciences, 2024, 197, 108834.

[9] Jing Wu, Chen Wang^*, Jingbo Xu, Weixin Tong, Jie Ji*. Experimental and numerical study on flame morphology, plume flow and air entrainment of pool fire under the influence of the built-in obstacle. Energy, 2025, 320, 132118.

[10] Jie Ji^∗, Chen Wang, Longxing Yu. Physical models of flame height and air entrainment of two adjacent buoyant turbulent jet non-premixed flames with different heat release rates. Proceedings of the Combustion Institute, 2021, 38.3, 4907-4916.

Reports

[1] Wang C. Experimental study of heat loss and heat feedback of pool fire of millimeter to centimeter fuel thickness. 40th International Symposium on Combustion. Milan, Italy, 2024.

[1] Wang C. Physical models of flame height and air entrainment of two adjacent buoyant turbulent jet non-premixed flames with different heat release rates. 38th International Symposium on Combustion. Adelaide, Australia, 2021.