Design & simulation of fuzzy PID for hydro power plant

2016 Sixth International Conference on Innovative Computing Technology (INTECH) Pub Date : 2016-08-01 DOI:10.1109/INTECH.2016.7845077

Abdus Sami, M. Kadri, Nasir Aziz, Zaid Pirwani

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引用次数: 4

Abstract

Hydro electric power plant is usually built on mountainous areas and are isolated from the main power distribution system. It requires very efficient control strategy to control the speed of the machine in sudden variations and disturbances (such as different types of temporary faults) in the system. This paper proposes the idea of using fuzzy PID control strategy for controlling the governor of hydro power plant during different fault schemes. In the proposed scheme fuzzy PID controller is used to control the servo motor position through wicket gates or valves in order to control the flow of water that hits the turbine's blade. The different types of fault models such as single phase ground fault, double phase ground fault, three phase ground fault and phase to phase fault are applied to fuzzy PID and conventional PID controllers. The simulation results and performance indices such as RMSE (Root mean square value) clearly demonstrates the effectiveness and feasibility of the fuzzy PID control strategy as compared to the conventional PID. The purposed controller has fast response in recovering the speed of the machine during fault occurrences.

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水电厂模糊PID的设计与仿真

水力发电厂通常建在山区，与主配电系统隔离。它需要非常有效的控制策略来控制机器的速度在突然变化和干扰(如不同类型的临时故障)在系统中。提出了采用模糊PID控制策略对不同故障方案下的水电厂调速器进行控制的思想。在该方案中，采用模糊PID控制器通过导叶闸门或阀门控制伺服电机的位置，以控制水轮机叶片的水流。将单相接地故障、双相接地故障、三相接地故障和相相故障等不同类型的故障模型应用于模糊PID控制器和常规PID控制器。仿真结果和RMSE(均方根值)等性能指标表明，与传统PID相比，模糊PID控制策略的有效性和可行性。所设计的控制器在故障发生时对恢复机器的速度有快速的响应。

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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2016 Sixth International Conference on Innovative Computing Technology (INTECH)

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