多变量逆解耦自抗扰控制及其在精馏塔过程中的应用  被引量:24

Multivariable Inverted Decoupling Active Disturbance Rejection Control and Its Application to a Distillation Column Process

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作  者:程赟[1] 陈增强[1,2] 孙明玮[1] 孙青林[1] 

机构地区:[1]南开大学计算机与控制工程学院,天津300350 [2]天津市智能机器人重点实验室,天津300350

出  处:《自动化学报》2017年第6期1080-1088,共9页Acta Automatica Sinica

基  金:国家自然科学基金(61573199;61573197);天津市自然科学基金(14JCYBJC18700)资助~~

摘  要:化工生产是一类典型的多变量过程对象,该类对象具有时变性、耦合性、时滞性等特点,传统的单变量控制方法很难在此类系统中取得良好的控制效果.针对时变性,本文在假设对象模型未知的前提下,利用阶跃响应数据,研究了基于最小二乘的一阶、二阶时滞系统辨识方法.针对多变量系统存在耦合性的特点,采用逆解耦方法实现对象的解耦.再对解耦后的时滞子系统设计了自抗扰控制器.仿真实验中,以精馏塔的Wood-Berry模型和Ogunnaike-Ray模型为例,验证了算法的有效性.Chemical industry is a class of typical multivariable process plants, and has the characteristics of time-varying,coupling, and time delay. It is difficult to achieve good control effect in such systems by using traditional single variable control methods. In this paper, aiming at time-varying behavior, it is assumed that the model of the plant is unknown.By using step response data, an identification method for first-order and second-order delay systems is studied based on least squares method. For the coupling of multivariable systems, the inverted decoupling method is used to decouple the plant. And then an active disturbance rejection controller is designed for the decoupled delay subsystem. In the simulation experiment, the effectiveness of the algorithm is verified by the Wood-Berry model and the Ogunnaike-Ray model of the distillation column.

关 键 词:化工过程控制 大时滞系统 最小二乘辨识 逆解耦技术 自抗扰控制 

分 类 号:TP273[自动化与计算机技术—检测技术与自动化装置] TQ053.5[自动化与计算机技术—控制科学与工程]

 

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