Performance Evaluation of Coherency Identification Methods in Frequency Stability Analysis Based on A Novel Assessment Index

2018 IEEE 2nd International Electrical and Energy Conference (CIEEC) Pub Date : 2018-11-01 DOI:10.1109/CIEEC.2018.8745778

J. Wen, Siqi Bus

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Abstract

The injection of renewable energy brings a big uncertainty to the modern power system, which would have a detrimental influence on the frequency stability. The fluctuating frequency from a specific wind farm is difficult to be represented by system average frequency due to uneven inertia distribution in the system. In order to deal with this issue, the coherency identification is applied to separate the system into a few areas and then further research is conducted. In terms of frequency stability analysis, two factors are often concerned: the rate of change of frequency (RoCoF) and frequency nadir/vertex (FN/FV). Therefore, this paper proposes a novel assessment index, i.e. Max Spatial Distribution Ratio of System Frequency Response (MaDSR), suitable for these two factors to evaluate the effects of the coherent results based on a new concept, Area Frequency Response Center (AFRC). To test the effectiveness of the index, slow coherency identification method is selected to divide a modified IEEE 16machine 68 bus with additional installation of wind farms.

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基于新评价指标的频率稳定性分析中相干识别方法性能评价

可再生能源的注入给现代电力系统带来了很大的不确定性，对系统的频率稳定性产生不利影响。特定风电场的波动频率由于系统惯性分布不均匀，难以用系统平均频率来表示。为了解决这一问题，采用相干识别方法将系统划分为几个区域，然后进行进一步的研究。在频率稳定性分析中，经常涉及两个因素:频率变化率(RoCoF)和频率最低点/顶点(FN/FV)。因此，本文在区域频响中心(AFRC)概念的基础上，提出了一种新的评价指标，即系统频响最大空间分布比(MaDSR)，适合于这两个因素来评价相干结果的效果。为了验证该指标的有效性，选择慢相干识别方法将改进的IEEE 16machine 68总线与额外安装的风电场进行划分。

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2018 IEEE 2nd International Electrical and Energy Conference (CIEEC)

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