The effect of improved system modeling in the continuation power flow method

2007 iREP Symposium - Bulk Power System Dynamics and Control - VII. Revitalizing Operational Reliability Pub Date : 2007-12-26 DOI:10.1109/IREP.2007.4410543

E. Lopez-Luis, M.A. Garcia-Dominguez, D. Ruiz-Vega

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引用次数: 1

Abstract

Continuation power flow is one of the proposed long term voltage stability assessment methods. This method attempts to find the voltage stability limit by computing a sequence of very long term equilibrium points, using a static model derived from the equilibrium conditions of the complete non linear dynamic model. During the early stages of the Continuation Power Flow method development, the emphasis was totally addressed to the Continuation method algorithm itself and, in these conditions, the conventional load flow model was the preferred system model. As shown in this paper, using the conventional load flow model, based on unacceptable simplifying assumptions, always produces unrealistic voltage stability results, even when analyzing small academic test systems. This is shown by comparing the results of the Continuation Power Flow method, using the conventional load flow model, to the ones obtained with an improved representation of load characteristics and synchronous generator reactive power limits.

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改进系统建模在连续潮流法中的效果

持续潮流是长期电压稳定评估方法之一。该方法利用由完全非线性动态模型的平衡条件导出的静态模型，通过计算一系列很长时间的平衡点，试图找到电压稳定极限。在连续潮流法发展的早期，重点完全放在连续方法算法本身，在这种情况下，传统的潮流模型是首选的系统模型。如本文所示，使用传统的负荷潮流模型，基于不可接受的简化假设，总是产生不切实际的电压稳定性结果，即使在分析小型学术测试系统时也是如此。通过将使用传统潮流模型的连续潮流方法的结果与使用改进的负载特性表示和同步发电机无功功率限制所获得的结果进行比较，可以证明这一点。

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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2007 iREP Symposium - Bulk Power System Dynamics and Control - VII. Revitalizing Operational Reliability

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