竖炉焙烧过程运行优化控制系统的开发及实验研究

周平; 代伟; 柴天佑

引用本文:	周平,代伟,柴天佑.竖炉焙烧过程运行优化控制系统的开发及实验研究[J].控制理论与应用,2012,29(12):1565~1572.[点击复制]
	ZHOU Ping,DAI Wei,CHAI Tian-You.Exploration of operational optimization control system for shaft furnace roasting process and its experiment study[J].Control Theory and Technology,2012,29(12):1565~1572.[点击复制]

竖炉焙烧过程运行优化控制系统的开发及实验研究

Exploration of operational optimization control system for shaft furnace roasting process and its experiment study

摘要点击 2055 全文点击 2094 投稿时间：2012-06-01 修订日期：2012-07-15

查看全文查看/发表评论下载PDF阅读器

DOI编号 10.7641/j.issn.1000-8152.2012.12.CCTA120612

2012,29(12):1565-1572

中文关键词竖炉焙烧(SFR) 优化控制运行优化控制(OOC)系统一体化运行控制平台半实物仿真实验系统

英文关键词 shaft furnace roasting (SFR) optimal control operational optimization control (OOC) system incorporate operational control platform hardware-in-loop simulation experiment system

基金项目国家自然科学基金资助项目(61104084, 61290323); 国家重大基础计划基金资助项目(2009CB320601); 国家自然科学基金重大国际X合作项目(61020106003); 广东省产学研基金资助项目(2010B090400410).

作者	单位	E-mail
周平^*	东北大学流程工业综合自动化国家重点实验室	zhouping@mail.neu.edu.cn
代伟	东北大学流程工业综合自动化国家重点实验室
柴天佑	东北大学流程工业综合自动化国家重点实验室

中文摘要

为解决具有综合复杂动态特性的竖炉焙烧(shaft furnace roasting, SFR)过程运行优化控制问题, 基于研制的流程工业一体化运行控制平台, 开发了具有可伸缩、可扩展、可复用以及模块化、组态化特点的SFR过程运行优化控制(operational optimization control, OOC)系统. 该系统支持MATLAB、动态链接库等多种算法实现方式, 并采用非编译融合算法方式实现算法与系统功能模块的解耦. 基于开发的OOC系统, 建立了具有运行控制层、过程控制层以及虚拟对象层的半实物仿真实验平台, 开展了相应的仿真实验研究. 结果表明OOC系统在正常工况和局部故障工况下均能取得满意的控制性能.

英文摘要

To realize the optimal operation control for the complex shaft-furnace roasting (SFR) process, we develop an operational optimization control (OOC) system on the incorporated operational control platform for process industries. This system is characterized with flexibility, expandability, reusability, openness and modularity. It can support a variety of algorithm realization ways, such as Matlab and Dynamic Link Library (dll). Moreover, algorithm and the system functional modules can be decoupled by embedding algorithm into systems without coupling. Based on this developed OOC system, a hardware-in-loop simulation experiment platform which comprises an operational control layer, a process control layer, and a virtual plant layer has been established for experimental studying. The experiment results show that the OOC system can achieve satisfactory control performances for the SFR process in both normal and partially faulty working conditions.