基于负荷最小化风电机组控制策略的输出功率最大化风电场有功功率调度

2015 International Conference on Sustainable Mobility Applications, Renewables and Technology (SMART) Pub Date : 2015-11-01 DOI:10.1109/SMART.2015.7399215

Baohua Zhang, Weihao Hu, P. Hou, M. Soltani, Zhe Chen

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引用次数: 6

摘要

在风电场控制设计(WF)中包含尾流效应可以增加风力涡轮机(WTs)的总捕获功率，这通常通过降额逆风风力涡轮机来实现。然而，在没有适当控制策略的情况下降低WT将增加结构载荷，导致失速模式下的运行。因此，在降低结构载荷的同时，应考虑降额操作的小波变换控制策略。此外，为了最大限度地提高WF的总输出功率，WF内部传输系统上的电能损耗也是不可忽略的。本文提出了一种基于小波降额策略并考虑传输损耗的最优有功功率调度策略，以使总输出功率最大化。选取各小波变换的有功功率基准作为优化变量。采用部分群优化算法求解该问题。仿真结果表明了该策略的有效性。

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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Wind farm active power dispatch for output power maximizing based on a wind turbine control strategy for load minimizing

Inclusion of the wake effect in the wind farm control design (WF) can increase the total captured power by wind turbines (WTs), which is usually implemented by derating upwind WTs. However, derating the WT without a proper control strategy will increase the structural loads, caused by operation in stall mode. Therefore, the WT control strategy for derating operation should be considered in the attempt at maximizing the total captured power while reducing structural loads. Moreover, electrical power loss on the transmission system inside a WF is also not negligible for maximizing the total output power of the WF. In this paper, an optimal active power dispatch strategy based on a WT derating strategy and considering the transmission loss is proposed for maximizing the total output power. The active power reference of each WT is chosen as the optimization variable. A partial swarm optimizing algorithm is used for solving the problem. Simulation results show the effectiveness of the proposed strategy.

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2015 International Conference on Sustainable Mobility Applications, Renewables and Technology (SMART)

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