Impact of Increased Penetration DFIG on Power Oscillation Damping

2020 12th International Conference on Information Technology and Electrical Engineering (ICITEE) Pub Date : 2020-10-06 DOI:10.1109/ICITEE49829.2020.9271677

A. Widiastuti, Sasongko Pramono Hadi, S. Sarjiya

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Abstract

Wind power is believed to be one of the promised renewable energy sources. At present, various countries already have a high penetration of wind power in the power system. Wind power's impact on the power system's stability is widely researched to ensure system stability remains met. In general, many studies have conducted stability analysis by looking at the system's eigenvalue but have not yet emphasized the system's damping ratio value. The damping ratio shows how an oscillation can be damped, which is necessary for the electric operator. The simulation in this research is conducted with a scenario where the wind generator replaces one of the test system's synchronous generators. This study accommodates the wind generator location's condition far away from the load center transmitted through the long transmission. For each condition, the stability and damping ratio value of the system will be analyzed. The simulation results confirm that the higher the wind generator penetration level, the damping ratio will decrease. A noticeable decline occurs in systems with weak transmission conditions, and this is dangerous for the system.

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增大贯深DFIG对功率振荡阻尼的影响

风能被认为是有希望的可再生能源之一。目前，各国在电力系统中风电已经具有较高的渗透率。风力发电对电力系统稳定性的影响被广泛研究，以确保系统稳定。一般来说，许多研究通过观察系统的特征值来进行稳定性分析，但尚未强调系统的阻尼比值。阻尼比显示了如何抑制振荡，这对电气操作员来说是必要的。本研究的仿真是在风力发电机取代测试系统的一台同步发电机的情况下进行的。本研究考虑了风力发电机组位置远离负荷中心的情况，通过长传动方式传输。对于每种情况，将分析系统的稳定性和阻尼比值。仿真结果表明，风力发电机侵彻级越高，阻尼比越小。在传输条件弱的系统中会出现明显的下降，这对系统是危险的。

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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2020 12th International Conference on Information Technology and Electrical Engineering (ICITEE)

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