摘要
为了能在日常操作中及时掌控炉型变化规律、稳定炉况,以首钢集团某高炉为依托,开发了高炉炉型管理综合模型。该模型以二维、三维方式采用可视化技术对表征炉型演变的热流强度进行动态显示与跟踪,以便在日常高炉操作中及时观察炉型在周向和纵向的变化情况,并借助聚类分析法从宏观上寻求最佳操作炉型以及与其对应的各段冷却壁温度范围,为高炉稳定操作提供依据。
In order to master the change regulation of operational profile and stabilize the furnace operation,a comprehensive management model of blast furnace operational profile is developed on the basis of Shougang blast furnace operation. Heat flow intensity,which represents changes of operational profile,is displayed and recorded by two-dimensional and three-dimensional modes in order to find out the changes of operational profile in circumferential and axial directions in the process of blast furnace operation. The best operational profile and the corresponding cooling stave temperature range can be found out through clustering analysis. All of these guarantee the steady operation of blast furnace.
引文
[1]车玉满,孙鹏,李连成,等.鞍钢铜冷却壁高炉操作炉型管理模型开发与应用[J].炼铁,2007,26(5):18-21.
[2]王宝海,张洪宇,车玉满.鞍钢铜冷却壁高炉热负荷管理[J].炼铁,2008,27(2):1-4.
[3]孙鹏,车玉满,李连成,等.鞍钢高炉铜冷却壁操作炉型管理系统的开发与实现[J].冶金自动化,2012,36(1):58-61.
[4]陈令坤.武钢5号高炉操作炉型管理系统的开发及应用[J].炼铁,2011,30(6):6-10.
[5]代兵,张建良,姜喆,等.高炉铸铜冷却壁热面状况计算模型的开发与实践[J].冶金自动化,2012,36(5):37-41.
[6]张卫东,任立军,沈海波,等.首钢京唐5 500 m3高炉长寿技术的应用[J].炼铁,2010,29(5):11-13.
[7]王涛,张卫东,任立军,等.首钢京唐公司1号高炉工艺技术特点[J].炼铁,2010,29(1):6-9.
[8]陈义信,王开定.热流强度监测操作炉型的实践[J].马钢技术,1999(4):26-28.
[9]杜强.SPSS统计分析从入门到精通[M].北京:人民邮电出版社,2009:291-296.