基于电压稳定实现了一种坐标二次电压控制系统

2016 3rd International Conference on Renewable Energies for Developing Countries (REDEC) Pub Date : 2016-07-13 DOI:10.1109/REDEC.2016.7577547

Nivine Abou Daher, I. Mougharbel, M. Saad, H. Kanaan

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引用次数: 1

摘要

由于电力需求的增加，大多数电网的运行都接近其稳定极限。不可再生能源的高需求和减少迫使可再生能源的插入。它们的无监督插入会导致电压不稳定。为了避免这种不稳定性，应采用协调的二次电压控制系统(CSVC)。本文描述了CSVC系统的实现过程。它由三个步骤组成。第一步是基于自组织映射算法的电网划分，第二步是基于约简雅可比矩阵和电压安全性能指标的先导母线选择，第三步是基于发电机和并联元件混合控制方法的CSVC系统实现。本文对这三个步骤进行了详细的描述。本程序用于维护大型电网的电压稳定。本文还在小型网络中验证了该方法的有效性。因此，它是在IEEE 39总线系统上实现的。

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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Voltage stability based on the implementation of a coordinate secondary voltage control system

Due to demand increasing, most of power networks operate close to their stability limits. The high demand and the reduction of non-renewable energy sources impose the insertion of renewable energy sources. Their non-supervised insertion can cause voltage instability. In order to avoid this instability, a coordinated secondary voltage control system (CSVC) should be implemented. This paper describes the proposed procedure of CSVC system implementation. It is composed by three steps. The first step is the power network partitioning based on Self Organizing Map algorithm, the second one is the pilot buses selection based on the reduced Jacobian matrix and on voltage security performance index, and the third one is the CSVC system implementation based on the hybrid control approach using generators and shunt elements. These three steps are described in details in this paper. This procedure is used to maintain the voltage stability of large network. In this paper its efficiency is validated for small network also. Therefore it is implemented on the IEEE 39 bus system.

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来源期刊

2016 3rd International Conference on Renewable Energies for Developing Countries (REDEC)

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