Load frequency control in interconnected microgrids using Hybrid PSO–GWO based PI–PD controller

IF 1.6 Q2 ENGINEERING, MULTIDISCIPLINARY
Pravat Kumar Ray, Akash Bartwal, Pratap Sekhar Puhan
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引用次数: 0

Abstract

Frequency deviation and Tie-Line power flow deviation are major concern due to the continuous load changing condition and the utilization of renewable energy sources in multi microgrid interconnected systems. Therefore, it is important and crucial to maintain the frequency and Tie-line power flow. In this paper, Novel hybrid algorithm combines both Particle Swarm Optimization (PSO) and Grey Wolf Optimization (GWO) driven proportional-integral-derivative (PID) controller and cascade Proportional Integral and Proportional Derivative (PI–PD) controller is suggested to deal with the issues in a proposed multi interconnected microgrid system. At first, the performance of the developed hybrid algorithm driven PID controller is investigated and its performance is compared with individual PSO and GWO driven PID controller. Finally the hybrid algorithm performance is investigated in cascade PI–PD controller and its performance is compared with the PID controller. Integral time multiplied by absolute error (ITAE) is used as the objective function in this work for obtaining optimum parameters of both PID and PI–PD controller. The simulated results show the superiority of the proposed hybrid algorithm (PSO–GWO) driven PI–PD controller compared with the other techniques in settling time, overshoot etc.

Abstract Image

使用基于 PI-PD 控制器的混合 PSO-GWO 控制互联微电网中的负载频率
在多微网互联系统中,由于负荷的持续变化和可再生能源的利用,频率偏差和纽带线功率流偏差成为主要问题。因此,保持频率和拉线功率流是非常重要和关键的。本文提出了结合粒子群优化(PSO)和灰狼优化(GWO)驱动的比例积分衍生(PID)控制器和级联比例积分和比例衍生(PI-PD)控制器的新型混合算法,以解决拟议的多微网互联系统中的问题。首先,研究了所开发的混合算法驱动 PID 控制器的性能,并将其与单个 PSO 和 GWO 驱动的 PID 控制器进行了比较。最后,研究了级联 PI-PD 控制器中混合算法的性能,并将其与 PID 控制器的性能进行了比较。本研究将积分时间乘以绝对误差(ITAE)作为目标函数,以获得 PID 和 PI-PD 控制器的最佳参数。模拟结果表明,与其他技术相比,所提出的混合算法(PSO-GWO)驱动的 PI-PD 控制器在平稳时间、过冲等方面更具优势。
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来源期刊
CiteScore
4.30
自引率
10.00%
发文量
252
期刊介绍: This Journal is established with a view to cater to increased awareness for high quality research in the seamless integration of heterogeneous technologies to formulate bankable solutions to the emergent complex engineering problems. Assurance engineering could be thought of as relating to the provision of higher confidence in the reliable and secure implementation of a system’s critical characteristic features through the espousal of a holistic approach by using a wide variety of cross disciplinary tools and techniques. Successful realization of sustainable and dependable products, systems and services involves an extensive adoption of Reliability, Quality, Safety and Risk related procedures for achieving high assurancelevels of performance; also pivotal are the management issues related to risk and uncertainty that govern the practical constraints encountered in their deployment. It is our intention to provide a platform for the modeling and analysis of large engineering systems, among the other aforementioned allied goals of systems assurance engineering, leading to the enforcement of performance enhancement measures. Achieving a fine balance between theory and practice is the primary focus. The Journal only publishes high quality papers that have passed the rigorous peer review procedure of an archival scientific Journal. The aim is an increasing number of submissions, wide circulation and a high impact factor.
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