Dynamic stability improvement of a solar penetrated power system by Fractional optimal IPFC based controller

2021 1st Odisha International Conference on Electrical Power Engineering, Communication and Computing Technology(ODICON) Pub Date : 2021-01-08 DOI:10.1109/ODICON50556.2021.9428964

Narayan Nahak, Omkar Satapathy, Vishal Gautam

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Abstract

Fractional interline power flow controller (IPFC) is proposed in this work for enhancing dynamic stability of a random solar penetrated power system. IPFC being a series-series FACTS device is much versatile damping controller. Here the damping action is provided by IPFC based fractional lead-lag controller. The controller gains are optimized by a random walk grey wolf optimizer (RGWO). A random variation in solar output is more prone to system oscillations as compared to fix solar generation. So separate cases have been conducted in this work pertaining to step and random solar power variations. The effectiveness of proposed control action has been compared with lead-lag controller and proposed optimization technique with standard PSO and GWO algorithms. Detail analysis has been performed in time domain with eigen analysis and it is found that fractional RGWO tuned IPFC is much robust to damp system oscillations subject to variable solar penetration in comparison to PSO and GWO tuned lead-lag controller.

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基于分数阶最优IPFC控制器的太阳能穿透式电力系统动态稳定性改进

为了提高随机太阳能渗透发电系统的动态稳定性，本文提出了分段线间潮流控制器(IPFC)。IPFC是一种多用途的阻尼控制器。这里阻尼作用是由基于IPFC的分数超前滞后控制器提供的。采用随机行走灰狼优化器(RGWO)对控制器增益进行优化。与固定的太阳能发电相比，太阳能输出的随机变化更容易引起系统振荡。因此，在这项工作中进行了与步骤和随机太阳能变化有关的单独案例。将所提出的控制动作与超前滞后控制器以及采用标准粒子群算法和GWO算法的优化技术进行了效果比较。通过本征分析在时域中进行了详细的分析，发现与PSO和GWO调谐超前滞后控制器相比，分数阶RGWO调谐IPFC对受可变太阳穿透率影响的系统振荡具有更强的鲁棒性。

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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2021 1st Odisha International Conference on Electrical Power Engineering, Communication and Computing Technology(ODICON)

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