Design of Model Predictive Controller for a Four-Tank Process Using Linear State Space Model and Performance Study for Reference Tracking under Disturbances

2011 International Conference on Process Automation, Control and Computing Pub Date : 2011-07-20 DOI:10.1109/PACC.2011.5979030

S. Nirmala, B. Veena Abirami, D. Manamalli

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引用次数: 9

Abstract

Abstract-Chemical plants are tightly integrated processes, which exhibit nonlinear behaviour and complex dynamic properties. For decades, the chemical process industry has relied on single-loop linear controllers to regulate such systems. The multivariable four-tank system exhibits complex dynamics, which includes interaction, transmission zero, and non-minimum phase characteristics that emerge from a simple cascade of tanks. The linearised dynamics of the system have a multivariable zero that is possible to move along the real axis by changing a valve. The zero can be placed in both the left and the right half-plane. The four-tank process is ideal for illustrating many concepts in multivariable control. In this paper, a linearised state-space model of the four tank process was developed in the non-minimum phase region and a model predictive controller was designed using this model. The performance of this set up was studied for reference tracking and disturbance rejection cases.

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基于线性状态空间模型的四槽过程模型预测控制器设计及扰动下参考跟踪性能研究

化工装置是一个紧密集成的过程，具有非线性行为和复杂的动态特性。几十年来，化学过程工业一直依靠单回路线性控制器来调节这类系统。多变量四油箱系统表现出复杂的动力学，包括相互作用、零传输和从简单的油箱级联中出现的非最小相位特征。系统的线性化动力学具有多变量零，可以通过改变阀沿实轴移动。零点可以放置在左右半平面上。四槽过程是说明多变量控制中许多概念的理想方法。在非最小相位区域建立了四缸过程的线性化状态空间模型，并利用该模型设计了模型预测控制器。在参考跟踪和干扰抑制的情况下，研究了该装置的性能。

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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2011 International Conference on Process Automation, Control and Computing

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