直驱式海上风电场与高压直流系统的同步振荡

Fei He, Xiangping Kong, Chi Zhang, Miao Zhu, Y. Chi, Yan Li, XiaoqingYu, Anni Yu
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引用次数: 0

摘要

2010年以来,风电大规模并网,使中国能源结构发生了巨大变化。截至2017年底,中国风电累计装机容量1.64亿千瓦,主要集中在“三北”地区。到2020年,中国风电装机容量将达到2.1亿千瓦。风电具有波动性、非线性复杂性和多时间尺度等特点。其并网运行将对电力系统产生一定的影响。此外,由于中国能源和负荷反向分布的特点,在处理长距离输电时,由于其容量大、电压等级高、损耗低的优点,接入vdc - hvdc将是首选。目前,中国主要采用风、火结合的方式接入高压直流输电系统,实现风能的远距离传输。“十三五”期间,新增省际输电约1.3亿千瓦,建设直流等输电通道,实现可再生能源输电比重最大化。目前,中国正处于可再生能源大规模集群并网阶段。电力系统的供电结构和输电方式发生了重大变化,振荡已成为常态。然而,对于风电场与并网高压直流系统的次同步振荡机理的研究尚未透彻,尚不可能有完整的理论体系和公认的建模方法。此外,中国高普及率的可再生能源分散接入发展迅速,负荷侧电力电子设备接入比例高,将加剧振荡的发生。由于模态和负载结构的不同,次同步振荡的产生和相互作用是复杂的,但相关研究是基于高比例电力电子器件的次同步振荡特性。因此,研究直驱风电机组次同步振荡的产生过程,将为引领风电机组产业升级提供理论依据。研究多组直驱风电场次同步振荡的相互作用,为提高风电的友好性提供理论依据。
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Synchronous Oscillation of Direct Drive Offshore Wind Farm Connected to HVDC System
Since 2010, wind power has been connected to the grid on a large scale, resulting in great changes in China's energy structure. By the end of 2017, China's cumulative wind power installed capacity was 164 million KW, mainly concentrated in the "Three North" areas of China. By 2020, the installed capacity of wind power in China has reached 210 million KW. Wind power generation is know for it’s fluctuation, nonlinear complexity and multiple time scales. Its grid connected operation will have a certain impact on the power system. In addition, due to the characteristics of energy and load reverse distribution in China, when dealing with long-distance transmission, access to VSC-HVDC would be the first thought because of its advantages of large capacity, high voltage level and low loss. At present, China mainly uses wind and fire binding to connect to HVDC transmission system to realize long-distance transmission of wind energy. During the 13th Five Year Plan period, China added about 130 million kilowatts of inter provincial power transmission, built DC and other transmission channels, and maximized the proportion of renewable energy transmission. At present, China is in the stage of large-scale cluster grid connection of renewable energy. Significant changes have taken place in the power supply structure and transmission mode of the power system, and oscillation has become the norm. However, research ragarding the subsynchronous oscillation mechanism of wind farm and grid connected HVDC system is not through, and it is impossible to talk about the complete theoretical system and recognized modeling method. In addition, the decentralized access of renewable energy with high penetration rate in China is developing rapidly, and the access proportion of power electronic equipment on the load side is high, which will aggravate the occurrence of oscillation. The generation and interaction of subsynchronous oscillation are complex due to different modes and load structures, but the related research is based on the subsynchronous oscillation characteristics of high proportion power electronic devices. Therefore, the research on the generation process of subsynchronous oscillation of direct drive wind turbine will provide a theoretical basis for leading the industrial upgrading of wind turbine. The interaction of subsynchronous oscillation of multiple groups of direct driven wind farms is studied to provide a theoretical basis for improving the friendliness of wind power.
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