Stability studies of offshore wind farms

2010 5th International Conference on Critical Infrastructure (CRIS) Pub Date : 2010-11-01 DOI:10.1109/CRIS.2010.5617503

H. Guo, K. Rudion, C. Heyde, Z. Styczynski

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引用次数: 2

Abstract

Wind energy is the most important type of renewable energy in Europe. The stability of system network operation with a large penetration of wind energy has become one of the most critical issues in the new structure of power systems with different types of generation. In this paper the HVDC and HVAC connection of the wind farm to grid is compared. The HVDC is more advantageous in maintaining the system stability. Nevertheless this study focuses on the HVAC connection of wind farms with regard to its lower costs and widely practical application. Based on the topology of the offshore wind farm Alpha Ventus, a simulation model is developed in software PSS/NETOMAC. Using this model the steady-state voltage and power factor at the wind farm connection point is analyzed and compared with the grid code requirement on reactive power exchange and voltage stability. The impact of the cable switching on voltage is investigated as well. The simulation results indicate that overvoltage will occur during cable switching if the cable is not sufficiently compensated, and the overvoltage will become more critical with as the operational voltage levels of the cable increases.

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海上风电场稳定性研究

风能是欧洲最重要的可再生能源。风电大渗透下的系统网络运行稳定性已成为不同发电类型的电力系统新结构中最关键的问题之一。本文对风电场与电网的HVDC和HVAC连接方式进行了比较。高压直流输电在维护系统稳定性方面更有优势。然而，本研究的重点是风电场的暖通空调连接，因为其成本较低，具有广泛的实际应用。基于海上风电场Alpha Ventus的拓扑结构，在PSS/NETOMAC软件中建立了仿真模型。利用该模型对风电场接点的稳态电压和功率因数进行了分析，并与电网规范对无功交换和电压稳定的要求进行了比较。研究了电缆开关对电压的影响。仿真结果表明，如果电缆补偿不充分，在电缆切换过程中会产生过电压，并且随着电缆工作电压水平的增加，过电压会变得更加严重。

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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2010 5th International Conference on Critical Infrastructure (CRIS)

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