推式加热炉优化:一种自适应模型预测控制方法

2017 6th International Symposium on Advanced Control of Industrial Processes (AdCONIP) Pub Date : 2017-05-28 DOI:10.1109/ADCONIP.2017.7983749

G. Astolfi, L. Barboni, Francesco Cocchioni, C. Pepe, S. Zanoli

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引用次数: 8

摘要

本文提出了一种基于双层线性模型预测控制策略的先进过程控制系统。该控制系统旨在优化位于意大利某钢厂的推式钢坯加热炉。为了得到炉内钢坯温度的估计，建立了第一性原理非线性模型。据此推导了钢坯温度的线性变参数模型。为了获得炉单元的全局建模，对内部过程动力学采用了额外的黑盒方法。利用得到的整体模型设计了模型预测控制方案。在工业过程中的表现表明，基于对本地PID控制器的适当处理，所提出的控制方案相对于前一个方案的主要盈利能力。特别是，取得了显著的节能效果，并提高了规范的执行。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Optimization of a pusher type reheating furnace: An adaptive Model Predictive Control approach

In this paper, an Advanced Process Control system based on a two-layer linear Model Predictive Control strategy is proposed. The control system aims at optimizing a pusher type billets reheating furnace, located in an Italian steel plant. A first principles nonlinear model has been developed, in order to obtain estimations of billets temperature inside the furnace. A Linear Parameter-Varying model for billets temperature has been accordingly derived. To obtain a global modellization of the furnace unit, an additional black-box approach has been adopted for the internal process dynamics. The overall resulting model has been exploited for the design of the Model Predictive Control scheme. Performances on an industrial process have shown the major profitability of the proposed control solution with respect to the previous one, based on a suitable handling of local PID controllers. In particular, significant energy saving has been obtained, together with an improved specifications fulfillment.

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2017 6th International Symposium on Advanced Control of Industrial Processes (AdCONIP)

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