利用静态同步发电机整合可再生能源，提高长线稳定性

2016 IEEE International Conference on Renewable Energy Research and Applications (ICRERA) Pub Date : 2016-11-01 DOI:10.1109/ICRERA.2016.7884390

M. Abdollahi, J. I. Candela, J. Rocabert, R. Aguilar, J. Hermoso

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引用次数: 11

摘要

分散安装的可再生能源日益增加，导致对使用这些绿色能源的长距离输电线路的需求越来越大。电压和相位稳定性是输电系统运营商在这些线路运行中面临的主要挑战。本文提出了一种基于同步功率控制器(SSG-SPC)的静态同步发电机，并在长交流输电系统中实现，以减少系统的稳定性问题。研究了SSG-SPC的功率控制策略、与电网规范的兼容性以及对电压和相位稳定性的改善。模拟和实验测试结果证实了SSG-SPC参与无功补偿、阻尼有功振荡和修改稳定裕度的能力。

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Improving long line stability by integrating renewables using static synchronous generators

Daily increasing in renewable energy sources installed in dispersed location, has led to greater need for long transmission lines to use these green sources. Voltage and phase stability are major challenges for transmission system operators in the operation of these lines. In this paper, a Static Synchronous Generators based in Synchronous Power Controller (SSG-SPC) is presented and implemented in a long AC transmission system in order to reducing stability problems. Power control strategies, compatibility with the grid codes and improvement in voltage and phase stability by SSG-SPC are investigated. Simulations and Experimental test results confirms SSG-SPC capability for participation in reactive compensation, damping active power oscillations and modify stability margins.

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2016 IEEE International Conference on Renewable Energy Research and Applications (ICRERA)

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