(1. School of Metallurgical and Ecological Engineering, University of Science and Technology Beijing, Beijing 100083, China 2. Ironmaking Department, Shougang Jingtang United Iron and Steel Co., Ltd., Tangshan 063200, Hebei, China)
Abstract:In order to investigate the influence of charging patterns on the burden distribution of the stock surface in blast furnace with two parallel hoppers, the full model of bell-less top system with two parallel hoppers in actual 5 500 m3 blast furnace was established, and the motions of burden materials in the cases of the ore (A)-ore (B)-coke charging pattern and the ore-coke charging pattern were calculated by Discrete Element Method, respectively. The effects of charging patterns on the burden distribution of the stock surface were comparative and analyzed. The results show that the burden distribution of the stock surface is different in two different charging patterns, because the burden falling trajectory is not coincident while the ore-A and ore-B are charged into the stock surface. In the radial direction of the stock surface, the influence of charging patterns on the ore volume distribution and the ore/coke ratio distribution of the stock surface is negligible. In the circumferential direction of the stock surface, the standard deviation of the ore volume distribution of the stock surface in the ore-ore-coke charging pattern and the ore-coke charging pattern is 0.133 and 0.147, respectively, and the standard deviation of the ore/coke ratio distribution of the stock surface in the ore-ore-coke charging pattern and the ore-coke charging pattern is 0.074 and 0.086, respectively. The ore volume distribution and the ore/coke ratio distribution of the stock surface is more uniform in the ore-ore-coke charging pattern.
徐文轩,程树森,牛 群,赵国磊,陈艳波. 并罐式无钟炉顶装料模式对料面炉料分布的影响[J]. , 2017, 52(12): 8-15.
XU Wen-xuan,CHENG Shu-sen,NIU Qun,ZHAO Guo-lei,CHEN Yan-bo. Effects of charging patterns of bell-less top blast furnace with two parallel hoppers on burden distribution of stock surface. Iron and Steel, 2017, 52(12): 8-15.
TENG Zhao-jie, CHENG Shu-sen, ZHAO Guo-lei.Research of the center of the burden surface for a bell-less top blast furnace with parallel hoppers[J].Journal of Iron and Steel Research, 2014, 26(06):5-20
[2]
TENG Zhao-jie, CHENG Shu-sen, ZHAO Guo-lei.Research of the center of the burden surface for a bell-less top blast furnace with parallel hoppers[J].Journal of Iron and Steel Research, 2014, 26(06):5-20
[3]
马富涛.高炉偏析布料料面的数值模拟[J].钢铁, 2013, 48(08):19-23
[3]
马富涛.高炉偏析布料料面的数值模拟[J].钢铁, 2013, 48(08):19-23
[4]
MA Fu-tao.Simulation on Charge Level for BF Segregation Feeding[J].Iron and Steel, 2013, 48(08):19-23
[4]
MA Fu-tao.Simulation on Charge Level for BF Segregation Feeding[J].Iron and Steel, 2013, 48(08):19-23
DU Peng-yu, CHENG Shu-sen, TENG Zhao-jie.Research of snakelike deviation in the burden distribution of a parallel-hopper bell-less top[J].Journal of University of Science and Technology Beijing, 2011, 33(4):479-485
[6]
DU Peng-yu, CHENG Shu-sen, TENG Zhao-jie.Research of snakelike deviation in the burden distribution of a parallel-hopper bell-less top[J].Journal of University of Science and Technology Beijing, 2011, 33(4):479-485
[7]
LIANG D, YU Y W, BAI C G, et al.Effect of burden material size on blast furnace stockline profile of bell-less blast furnace[J].Ironmaking & Steelmaking, 2009, 36(3):217-221
[7]
LIANG D, YU Y W, BAI C G, et al.Effect of burden material size on blast furnace stockline profile of bell-less blast furnace[J].Ironmaking & Steelmaking, 2009, 36(3):217-221
[8]
YU Y W, BAI C G, ZHANG Z R, et al.Theoretical calculation and validation of burden trajectory in bell-less top blast furnace[J].Ironmaking & Steelmaking, 2009, 36(7):505-508
[8]
YU Y W, BAI C G, ZHANG Z R, et al.Theoretical calculation and validation of burden trajectory in bell-less top blast furnace[J].Ironmaking & Steelmaking, 2009, 36(7):505-508
[9]
NAG S, KORANNE V M.Development of material trajectory simulation model for blast furnace compact bell-less top[J].Ironmaking & Steelmaking, 2013, 36(5):371-378
[9]
NAG S, KORANNE V M.Development of material trajectory simulation model for blast furnace compact bell-less top[J].Ironmaking & Steelmaking, 2013, 36(5):371-378
[10]
REN T Z, JIN X, BEN H Y, et al.Burden Distribution for Bell-Less Top With Two Parallel Hoppers[J].Journal of Iron and Steel Research, International, 2006, 13(2):14-17
[10]
REN T Z, JIN X, BEN H Y, et al.Burden Distribution for Bell-Less Top With Two Parallel Hoppers[J].Journal of Iron and Steel Research, International, 2006, 13(2):14-17
[11]
TENG Z J, Cheng S S, Du P Y, et al.Mathematical model of burden distribution for the bell-less top of a blast furnace[J].International Journal of Minerals, Metallurgy, and Materials, 2013, 20(7):620-626
[11]
TENG Z J, Cheng S S, Du P Y, et al.Mathematical model of burden distribution for the bell-less top of a blast furnace[J].International Journal of Minerals, Metallurgy, and Materials, 2013, 20(7):620-626
[12]
XU J, WU S L, KOU M Y, et al.Circumferential burden distribution behaviors at bell-less top blast furnace with parallel type hoppers[J].Applied Mathematical Modelling, 2011, 35(3):1439-1455
[12]
XU J, WU S L, KOU M Y, et al.Circumferential burden distribution behaviors at bell-less top blast furnace with parallel type hoppers[J].Applied Mathematical Modelling, 2011, 35(3):1439-1455
[13]
ZHAO G L, CHENG S S, XU W X, et al.Comprehensive Mathematical Model for Particle Flow and Circumferential Burden Distribution in Charging Process of Bell-less Top Blast Furnace with Parallel Hoppers[J].ISIJ International, 2015, 55(12):2566-2575
[13]
ZHAO G L, CHENG S S, XU W X, et al.Comprehensive Mathematical Model for Particle Flow and Circumferential Burden Distribution in Charging Process of Bell-less Top Blast Furnace with Parallel Hoppers[J].ISIJ International, 2015, 55(12):2566-2575
[14]
ZHAO H T, ZHU M H, DU P, et al.Uneven Distribution of Burden Materials at Blast Furnace Top in Bell-less Top with Parallel Bunkers[J].ISIJ International, 2012, 52(12):2177-2185
[14]
ZHAO H T, ZHU M H, DU P, et al.Uneven Distribution of Burden Materials at Blast Furnace Top in Bell-less Top with Parallel Bunkers[J].ISIJ International, 2012, 52(12):2177-2185
[15]
YU Y W, SAXéN H.Segregation behavior of particles in a top hopper of a blast furnace[J]., 2014, 262:233-241
[15]
YU Y W, SAXéN H.Segregation behavior of particles in a top hopper of a blast furnace[J]., 2014, 262:233-241
QIU Jia-yong, ZHANG Jian-liang, SUN Hui, et al.DEM simulation and experiment investigation of burden distribution in the parallel-hopper bell-less top blast furnace[J].Applied Mathematics and Mechanics, 2014, 35(06):598-609
[17]
QIU Jia-yong, ZHANG Jian-liang, SUN Hui, et al.DEM simulation and experiment investigation of burden distribution in the parallel-hopper bell-less top blast furnace[J].Applied Mathematics and Mechanics, 2014, 35(06):598-609
QIU Ting-sheng, WU Jin-gang, QIU Xiao-ping, et al.A discrete element method modeling for charging process in a bell-less top with two parallel hoppers[J].Computers and Applied Chemistry, 2015, 32(05):527-533
[19]
QIU Ting-sheng, WU Jin-gang, QIU Xiao-ping, et al.A discrete element method modeling for charging process in a bell-less top with two parallel hoppers[J].Computers and Applied Chemistry, 2015, 32(05):527-533
[20]
MIO H, KADOWAKI M, MATSUZAKI S, et al.Development of particle flow simulator in charging process of blast furnace by discrete element method [J]. Minerals Engineering, 2012, 33: 27-33.
[20]
MIO H, KADOWAKI M, MATSUZAKI S, et al.Development of particle flow simulator in charging process of blast furnace by discrete element method [J]. Minerals Engineering, 2012, 33: 27-33.
2017, Vol. 52 
