引用本文: | 柯贤波,程林,牛栓保,张振宇,韩华玲,贾一超.基于测试和运行数据的新能源快速调频参数动态修正算法[J].控制理论与应用,2022,39(3):546~522.[点击复制] |
KE Xian-bo,CHENG Lin,NIU Shuan-bao,ZHANG Zhen-yu,Han Hua-ling,JIA Yi-chao.Study on parameters real-time revising of primary frequency modulation of renewable energy power station using test and operation data[J].Control Theory and Technology,2022,39(3):546~522.[点击复制] |
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基于测试和运行数据的新能源快速调频参数动态修正算法 |
Study on parameters real-time revising of primary frequency modulation of renewable energy power station using test and operation data |
摘要点击 1650 全文点击 497 投稿时间:2021-05-29 修订日期:2021-12-22 |
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DOI编号 10.7641/CTA.2021.10459 |
2022,39(3):546-522 |
中文关键词 电力系统 新能源发电 一次调频 参数修正 |
英文关键词 power system renewable energy generation primary frequency modulation parameter revising |
基金项目 国家电网有限公司科技项目(高占比新能源送端大电网风电场和光伏电站频率支撑能力协同控制和响应参数优化配置研究)资助. |
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中文摘要 |
随着新能源发电接入电力系统比例的不断提升, 电力系统对新能源发电参与系统一次调频提出了具体要
求. 频率调差系数是评估新能源电站一次调频调节量的重要指标, 系统对于新能源电站的调差率是预设的. 然而系
统发生频率波动时, 无法预知新能源电站的运行状态, 单一控制参数下新能源电站无法保证调频量满足系统需求.
鉴于此, 本文提出了基于调频量闭环控制的新能源电站一次调频控制参数动态修正方法, 根据新能源电站的运行状
态, 动态调整其频率调差系数, 使得新能源电站运行在不同状态下均可以满足调频要求, 支撑系统频率稳定性. |
英文摘要 |
With the continuous increase of the proportion of renewable energy power generation connected to power
system, the power system has put forward specific requirements for the primary frequency modulation of the renewable
energy power generation system. The frequency droop coefficient is an important index for evaluating the amount of primary
frequency adjustment of the renewable energy power generation station. The frequency droop coefficient of the system
for the renewable energy power generation station is preset. However, when the frequency of power system fluctuates,
it is impossible to predict the operation status of the renewable energy power generation station. Under a single control
parameter, the renewable energy power generation station cannot guarantee that the frequency modulation amount can meet
the system requirements. Therefore, a real-time correction method for the primary frequency modulation control parameters
of the renewable energy power generation station is proposed, based on the closed-loop control of the frequency modulation.
According to the operating state of the renewable energy power generation station, the frequency droop coefficient is
adjusted in real time, so that the renewable energy power generation station can meet the frequency regulation requirements
in different states and support system frequency stability. |
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