·1250· 工程科学学报,第40卷,第10期 (刘琨.转炉烟气分析动态控制模型及其方法研究[学位论 文].上海:上海大学,2002) 文].北京:钢铁研究总院,2008) [16]Dong K,Zhu R,Gao W,et al.Simulation of three-phase flow [9]Chen H S,ZhengZ,Chen K,et al.Simulation system and appli- and lance height effect on the cavity shape.Int J Miner Metall cation of BOF process based on off-gas analysis.Metall Ind Au- Mater,2014,21(6):523 tom,2013,37(3):43 [17]Barron M A,Medina D Y,Hilerio I.Numerical simulation of de- (陈红生,郑忠,陈开,等.基于炉气分析的转炉治炼过程仿 carburization in a top-blown basic oxygen furnace.Modell Numer 真系统及应用.冶金自动化,2013,37(3):43) Simul Mater Sci,2014,4(3):94 [10]Cecca C D.Barella S,Mapelli C,et al.Thermal and chemical [18]Cao LL,Wang Z,Liu Q,et al.Physical modeling research on analysis of massive use of hot briquetted iron inside basic oxygen the stirring characteristics and mixing effect of an 80 t converter fumace.J Iron Steel Res,Int,2017,24(9)901 /Proceedings of the 6th International Congress on the Science [11]Blanco C.Diaz M.Model of mixed control for carbon and silicon and Technology of Steelmaking.Beijing,2015:12 in a steel converter.IS/J Int,1993,33(7):757 [19]Wang Z.Study on the Control of Steelmaking Process and Blowing [12]Liang X M.Wang H F.The application of new predictive func- End-Point for Medium-Heigh Carbon Steel Melting by Converter tional control in the converter gas recovery system.Appl Mech [Dissertation].Beijing:University of Science &Technology Bei- Mater,2014,685:289 jing,2016 [13]Liao DS,Sun S,Boylan K,et al.Systematic KOBM process (汪宙.转炉冶炼中高碳钢过程及终点控制研究[学位论 control based on off-gas information /A/STech 2013 Proceed- 文].北京:北京科技大学,2016) ings.Pittsburgh,2013:839 [0]Li G H,Wang B,Liu Q,et al.A process model for BOF process [14]Hu Z G,Liu L,He P,et al.A dynamical off-gas model on a based on bath mixing degree.Int Miner Metall Mater,2010,17 150t BOF.Steel Times Int,2003,27(3):11 (6):715 [15]Tu H.Study on Converter Dynamic Process Model Based on Flue [21]Guo H J.Metallurgical Physical Chemistry.2nd Ed.Beijing: Gas Detection Dissertation].Shanghai:Shanghai University, Metallurgical Industry Press,2006 2002 (郭汉杰.治金物理化学教程.2版.北京:治金工业出版 (屠海.基于炉气检测的转炉动态过程模型研究[学位论 社,2006)工程科学学报,第 40 卷,第 10 期 (刘琨. 转炉烟气分析动态控制模型及其方法研究[学位论 文]. 北京: 钢铁研究总院, 2008) [9] Chen H S, Zheng Z, Chen K, et al. Simulation system and appli鄄 cation of BOF process based on off鄄gas analysis. Metall Ind Au鄄 tom, 2013, 37(3): 43 (陈红生, 郑忠, 陈开, 等. 基于炉气分析的转炉冶炼过程仿 真系统及应用. 冶金自动化, 2013, 37(3): 43) [10] Cecca C D, Barella S, Mapelli C, et al. Thermal and chemical analysis of massive use of hot briquetted iron inside basic oxygen furnace. J Iron Steel Res, Int, 2017, 24(9): 901 [11] Blanco C, Diaz M. Model of mixed control for carbon and silicon in a steel converter. ISIJ Int, 1993, 33(7): 757 [12] Liang X M, Wang H F. The application of new predictive func鄄 tional control in the converter gas recovery system. Appl Mech Mater, 2014, 685: 289 [13] Liao D S, Sun S, Boylan K, et al. Systematic KOBM process control based on off鄄gas information / / AISTech 2013 Proceed鄄 ings. Pittsburgh, 2013: 839 [14] Hu Z G, Liu L, He P, et al. A dynamical off鄄gas model on a 150 t BOF. Steel Times Int, 2003, 27(3): 11 [15] Tu H. Study on Converter Dynamic Process Model Based on Flue Gas Detection [ Dissertation]. Shanghai: Shanghai University, 2002 (屠海. 基于炉气检测的转炉动态过程模型研究[ 学位论 文]. 上海: 上海大学, 2002) [16] Dong K, Zhu R, Gao W, et al. Simulation of three鄄phase flow and lance height effect on the cavity shape. Int J Miner Metall Mater, 2014, 21(6): 523 [17] Barron M A, Medina D Y, Hilerio I. Numerical simulation of de鄄 carburization in a top鄄blown basic oxygen furnace. Modell Numer Simul Mater Sci, 2014, 4(3): 94 [18] Cao L L, Wang Z, Liu Q, et al. Physical modeling research on the stirring characteristics and mixing effect of an 80 t converter / / Proceedings of the 6th International Congress on the Science and Technology of Steelmaking. Beijing, 2015: 12 [19] Wang Z. Study on the Control of Steelmaking Process and Blowing End鄄Point for Medium鄄Heigh Carbon Steel Melting by Converter [Dissertation]. Beijing: University of Science & Technology Bei鄄 jing, 2016 (汪宙. 转炉冶炼中高碳钢过程及终点控制研究[ 学位论 文]. 北京: 北京科技大学, 2016) [20] Li G H, Wang B, Liu Q, et al. A process model for BOF process based on bath mixing degree. Int J Miner Metall Mater, 2010, 17 (6): 715 [21] Guo H J. Metallurgical Physical Chemistry. 2nd Ed. Beijing: Metallurgical Industry Press, 2006 (郭汉杰. 冶金物理化学教程. 2 版. 北京: 冶金工业出版 社, 2006) ·1250·