pH中和装置的最优PID控制

Kishore Bingi, R. Ibrahim, M. N. Karsiti, Tran Duc Chung, S. Hassan
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引用次数: 8

摘要

pH控制在废物管理的广泛工业应用中起着重要作用。pH中和过程的高度非线性和植物动力学的不确定性是使用传统方法调谐的PID控制器无法有效解决的关键挑战。一些可用的和经常用于设计PID控制器的调谐方法是Cohen-Coon, Ziegler-Nichols (ZN)和Tyreus-Luyben。为了解决这些问题,采用粒子群算法(PSO)对pH中和装置的PID控制器进行整定。粒子群算法是求解非光滑全局优化问题最有效的方法之一。本文建立了考虑植物整体动态的pH过程数学模型。然后实现了基于粒子群的PID控制器,并将其性能与ZN-PID进行了比较。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Optimal PID control of pH neutralization plant
pH control plays an important role in a wide range of industrial applications for waste management. The high non-linearity in pH neutralization processes and the uncertainty of the plant dynamics are key challenges that cannot be effectively addressed using PID controllers tuned with conventional methods. Some of the available and quite often tuning methods used for designing PID controllers are Cohen-Coon, Ziegler-Nichols (ZN), and Tyreus-Luyben. To address these problems, particle swarm optimization (PSO) is employed to tune the PID controller for a pH neutralization plant. The PSO algorithm is one of the most powerful methods for resolving non-smooth global optimization problems. In this paper, the mathematical model of pH process is developed taking into consideration of the overall plant's dynamics. The PSO based PID controller is then implemented and evaluated by comparing its performance with that of ZN-PID.
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