Security Study on Freestanding Minigrid with Multiple Rotary Energy Sources

Journal of Energy and Safety Technology (JEST) Pub Date : 2023-02-01 DOI:10.11113/jest.v5n2.98

T. Ajewole, O. Olabode, D. Akinyele, Abraham Amole, O. Fadipe, Olatunde Oladepo, Hammed O. Lasisi

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Abstract

Traditional grid has been extensively studied for system security. For freestanding renewable energy-based minigrid, a three-source stand-alone minigrid is in this study examined for system security under large disturbances. By real-time simulation, rotor responses of the generators and voltage characteristics of the buses are assessed at sudden load change and under fault condition. Post-perturbation behaviour of the system shows synchronism is not compromised by any of the generators and the bus voltage profiles remains within their pre-perturbation statutory limits. This implies that a number of rotating machine-based energy mini-sources could be interconnected into a freestanding minigrid without compromising the stability of the system. The assessment could find use in predictive and corrective compensation for stability issues in mini integrated power systems and serve as simple generic investigative approach that could be integrated into Minigrids Remedial Action Scheme or Minigrids Energy Management System for dynamic security assessment of multi-machine island minigrids.

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多旋转能源独立式微型电网的安全性研究

传统网格系统的安全性已被广泛研究。对于基于可再生能源的独立微型电网，本文研究了一个三源独立微型电网在大扰动下的系统安全性。通过实时仿真，评估了发电机转子在负荷突变和故障情况下的响应和母线电压特性。系统的扰动后行为表明，同步性不受任何发电机的影响，母线电压分布保持在扰动前的法定限制内。这意味着许多基于旋转机器的微型能源可以相互连接成一个独立的微型电网，而不会影响系统的稳定性。该评估可用于小型综合电力系统稳定性问题的预测和纠正补偿，并可作为一种简单的通用调查方法纳入微型电网补救行动计划或微型电网能源管理系统，用于多机岛微型电网的动态安全评估。

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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Journal of Energy and Safety Technology (JEST)

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