PS转炉造渣过程的动态控制模型
来源期刊:中南大学学报(自然科学版)2009年第4期
论文作者:宋海鹰 桂卫华 阳春华 王雅琳
文章页码:1028 - 1034
关键词:PS转炉铜锍吹炼;动态模型;机理模型
Key words:PS converter matte converting; dynamic model; mechanism model
摘 要:为了对Peirce-Smith(PS)转炉造渣过程进行优化控制,基于冶金反应动力学建立造渣过程的动态控制模型。该动态控制模型为1组具有12个状态变量的多输入多输出常微分方程组。采用现场生产数据对建立的动态控制模型进行仿真实验,并与检验数据进行对比。仿真结果表明:该动态模型计算准确,其中模型的组分Fe3O4计算值平均相对误差为1.7%,铜锍热力学温度的最大绝对误差低于5 K;该模型可用于造渣过程的优化控制。
Abstract: In order to optimize and control the slag making process of Peirce-Smith(PS) converter, the dynamic control model based on metallurgy reaction kinetic was established. This dynamic control model includes 12 state variables, and can be set up by a group of multi-input and multi-output ordinary differential equations. Simulation experiment of this dynamic model was carried out using the practical production data from a copper plant and compared with test data. The results show that the dynamic model computes accurately. The average relative error of components Fe3O4 computed by the model is 1.7%, and the maximum absolute error of matte temperature is lower than 5 K. The dynamic model can be used in the optimization and control of the slag making process.
基金信息:国家“973”计划项目
国家自然科学基金资助项目
