Steady-state & dynamic voltage impacts of wind generators on rural distribution systems and practical mitigation solutions

PES T&D 2012 Pub Date : 2012-05-07 DOI:10.1109/TDC.2012.6281404

M. Shen, J. Huang, R. Pattani

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引用次数: 2

Abstract

Wind energy is a fast-growing source of electricity generation worldwide. It has the potential to play an important role in a future renewable energy market. However, wind power is neither continuous nor stable because of the natural fluctuation of wind energy and the nonlinear relationship between power output and wind speed. Wind power is therefore considered to be unreliable when comparing it with conventional power generation sources. In addition, fluctuating wind power leads to significant state variations in the power system. In rural distribution systems, voltage fluctuation is one of the main disturbances which must be examined at the generation connection impact assessment stage. In this paper, first of all, the relationship between the voltage at the Point of Common Coupling and the power contributions by a Distributed Generator will be introduced. Second, a typical rural distribution system will be modeled in a simulation software. Then, different scenarios will be simulated to analyze several steady-state and dynamic impacts of Distributed Generators on distribution networks. Finally, different impact mitigation solutions will be presented.

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风力发电机对农村配电系统的稳态和动态电压影响及实际缓解方案

风能是全球快速增长的发电来源。它有潜力在未来的可再生能源市场中发挥重要作用。然而，由于风能的自然波动和输出功率与风速的非线性关系，风电既不是连续的，也不是稳定的。因此，与传统发电方式相比，风力发电被认为是不可靠的。此外，风力发电的波动会导致电力系统的状态发生显著变化。在农村配电系统中，电压波动是发电并网影响评估阶段必须考虑的主要扰动之一。本文首先介绍了共耦合点电压与分布式发电机出力之间的关系。其次，用仿真软件对典型的农村配送系统进行建模。然后，通过模拟不同的场景，分析分布式发电机对配电网的稳态和动态影响。最后，将介绍不同的减轻影响的解决办法。

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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PES T&D 2012

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