Detecting safe operational regimes of synchronous motor-generator pair for wind integration: A non-linear perspective

IF 1.6 Q4 ENERGY & FUELS
Rajesh Tanna, Vivek Mohan, Gopalakrishnan Ennappadam Ananthanarayanan, Karthik Thirumala
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Abstract

In this article, the stability of a synchronous motor generator pair (SMGP) used for improving the inertia of grid-connected renewable energy systems is investigated. The useful operational regime for different sets of system parameters is identified, such as electromagnetic torque, damping co-efficient, and inertia by employing bifurcation analysis to detect stability boundaries. For the first time, the existence of bi-stable regimes for the SMGP with non-linear stability analysis is revealed. The authors' analysis unravels the possibility of the system getting transited to unsafe operation even when the system is in the linearly stable region. The existence of the bistable regime indicates the possibility of the system becoming unstable even when the eigenvalues are in the left half plane. The authors also identify globally stable and globally unstable regimes in the parameter space. The safe operating range of inertia and damping co-efficient values helps in the design of a suitable MGP set that is robust to frequency deviations, even with a low inertia source. With the recommended values of electromagnetic torque, the authors' analysis provides a safe operational regime for power generation from renewable energy sources.

Abstract Image

检测风电一体化同步电机-发电机对的安全运行机制:一个非线性的视角
本文研究了用于改善并网可再生能源系统惯性的同步电机发电机对(SMGP)的稳定性。通过采用分岔分析来检测稳定性边界,确定了不同系统参数集的有用运行状态,例如电磁扭矩、阻尼系数和惯性。通过非线性稳定性分析,首次揭示了SMGP的双稳定域的存在性。我们的分析揭示了即使系统处于线性稳定区域,系统也会过渡到不安全运行的可能性。双稳区域的存在表明,即使特征值在左半平面上,系统也有可能变得不稳定。作者还在参数空间中确定了全局稳定和全局不稳定的状态。惯性和阻尼系数值的安全工作范围有助于我们设计一个合适的MGP集,即使在低惯性源的情况下,也能对频率偏差具有鲁棒性。根据电磁扭矩的推荐值,他们的分析为可再生能源发电提供了一个安全的运行机制。
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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来源期刊
IET Energy Systems Integration
IET Energy Systems Integration Engineering-Engineering (miscellaneous)
CiteScore
5.90
自引率
8.30%
发文量
29
审稿时长
11 weeks
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