孤岛状态下基于多DG的微电网稳定性评价

2021 International Conference in Advances in Power, Signal, and Information Technology (APSIT) Pub Date : 2021-10-08 DOI:10.1109/APSIT52773.2021.9641349

Shaktinarayana Mishra, Shibani Prasad Mohapatra, P. Satapathy, L. Tripathy, S. Chaine, C. S. Tripathy

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引用次数: 0

摘要

本文讨论了多分布式发电机组微电网在孤岛状态下的稳定性评估问题。各种dg，如风能(WS)，光伏(PV)和柴油发电机(DGN)被集成在考虑的微电网中。在孤岛场景下，采用改进萤火虫算法(Modified Firefly Algorithm, MFA)计算优化后的解，进行了总体控制设计。该算法提高了分集性，可以计算孤立电网条件下的最优稳定性。通过各种高级功能，MFA有助于更快、更准确地收敛。在PV侧连接的电压源变流器(VSC)和与风力发电机连接的背靠背变流器考虑基于锁相环(PLL)的控制。将整体增益优化应用于PV - VSC和WS-Grid Side Converter (GSC)。这提高了系统的动态稳定性，通过最小化在孤岛期间存在于控制器的误差。从功率振荡、稳定裕度等方面验证了该方法的有效性。结果与其他各种基本技术进行了比较。

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Stability Assesment of a Multiple DG based Microgrid during Islanding Situation with Improved FA

This paper discusses stability assessment for a multiple Distributed Generators (DGs) based microgrid during islanding situation. Various DGs like Wind (WS), Photovoltaic (PV) and Diesel generator (DGN) is integrated in the considered microgird. The overall control design is addressed during the islanding scenario where the optimized solutions are calculated by Modified Firefly Algorithm (MFA). The proposed MFA has improved diversity to calculate the optimal stability in isolated grid condition. With various advanced feature, the MFA helps to converge faster with more accuracy. A Phase Locked Loop (PLL) based control are consider for the Voltage Source Converter (VSC) connected in the PV side and for the back to back converter connected with the wind generator. The overall gain optimization is applied at PV - VSC and the WS-Grid Side Converter (GSC). This improves the dynamic stability of the system by minimizing the error present in the controller during islanding. The effectiveness of the considered technique is verified in terms of power oscillation, stability margin. The results are compared with various other basic techniques.

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2021 International Conference in Advances in Power, Signal, and Information Technology (APSIT)

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