个人简历

2017.01—至今，北京科技大学钢铁冶金系，教师博士后 2011.09—2016.07，东北大学，钢铁冶金专业，工学博士 2007.09—2011.07，东北大学，冶金工程专业，工学学士

研究领域

1. 熔融还原炼铁新工艺 2. 冶金过程物理/数值模拟 3. 离散元方法及应用

近期论文

[1] Z. G. Luo, H. Zhou, T. Zhang, Y. You, Z. S. Zou, Y. S. Shen. DEM Study of Blockage Behaviour of Cohesive Fine Particles in a Packed Structure of Large Particles, Powder Technology, 2016, DOI: 10.1016/j.powtec.2016.08.053.
[2] H. Zhou, Z. G. Luo, T. Zhang, Y. You, Z. S. Zou, Y. S. Shen. DEM Study of Solid Flow in COREX Shaft Furnace with Areal Gas Distribution Beams, ISIJ International, 2016, 56(2): 245-254.
[3] H. Zhou, Z. G. Luo, Z. S. Zou, T. Zhang, Y. You. Experimental Study on Burden Descending Behavior in COREX Shaft Furnace with AGD Beams, Steel Research International, 2015, 86(9): 1073-1081.
[4] H. Zhou, Z. G. Luo, T. Zhang, Y. You, Z. S. Zou. Influence of rolling friction coefficient on inter-particle percolation in a packed bed by discrete element method, Archives of Metallurgy and Materials, 2016, 61(4): 1795-1804.
[5] H. Zhou, Z. S. Zou, Z. G. Luo, T. Zhang, Y. You, H. F. Li. Analyses of solid flow in latest design COREX shaft furnace by physical simulation, Ironmaking Steelmaking, 2015, 42(3): 209-216.
[6] H. Zhou, Z. G. Luo, T. Zhang, Y. You, Z. S. Zou. Analyses of Solid Flow in COREX Shaft Furnace with AGD by Discrete Element Method, Ironmaking Steelmaking, 2015, 42(10): 774-784.
[7] Z. G. Luo, H. Zhou, T. Zhang, Y. You, Z. S. Zou, H. F. Li. DEM Simulation of Solid Flow Including Asymmetric Phenomena in COREX Shaft Furnace, J. Iron Steel Res. Int., 2015, 22(12): 1098-1106.
[8] H. F. Li, H. Zhou, Z. G. Luo, T. Zhang, Y. You, Z. S. Zou. Three Dimensional DEM Simulation of the Effect of Bottom Structure on Solid Flow in COREX Shaft Furnace, Can. Metall. Quart., 2016, 55(1): 112-123.
[9] H. F. Li, H. Zhou, T. Zhang, Y. You, Z. S. Zou, W. R. Xu. Influence of Screw Design on Burden Descending Velocity and Particle Segregation in COREX Shaft Furnace, J. Iron Steel Res. Int., 2016, 23(6): 516-524.
[10] H. Zhou, Z. G. Luo, T. Zhang, Y. You, Z. S. Zou. DEM Study of Blockage Behaviour of Cohesive Fine Particles in an Orifice Consists of Large Particles, The First International Workshop on Computational Particle Technology and Multiphase Processes[C], 2016, Suzhou, China, P125.