Towards integrated wind farm control: Interfacing farm flow and power plant controls

Advanced Control for Applications Pub Date : 2022-05-09 DOI:10.1002/adc2.105

Konstanze Kölle, Tuhfe Göçmen, Paula B. Garcia-Rosa, Vlaho Petrović, Irene Eguinoa, Til Kristian Vrana, Qian Long, Vasilis Pettas, Abhinav Anand, Thanasis K. Barlas, Nicolaos Cutululis, Andreas Manjock, John Olav Tande, Renzo Ruisi, Ervin Bossanyi

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引用次数: 4

Abstract

Concepts for control of wind farms (WFs) can be clustered into two distinct concepts, namely, wind power plant control (WPPC) and wind farm flow control (WFFC). WPPC is concerned with the connection to the power system, compliance with grid codes, and provision of power system services. This comprises the traditional way of operating a WF without consideration of aerodynamic turbine interaction. However, flow phenomena like wake effects can have a large impact on the overall performance of the WF. WFFC considers such aerodynamic phenomena in the WF operation. It can be viewed as a new feature that shall be integrated with the existing control functions. The interaction of these different control concepts is discussed in this article, leading to an identification of the challenges whose solutions will contribute to a successful integration of electrical system and aerodynamic aspects of WF control.

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迈向综合风电场控制:连接风电场流量和发电厂控制

风电场控制的概念可以分为两个不同的概念，即风电场控制(WPPC)和风电场流量控制(WFFC)。WPPC关注的是与电力系统的连接、遵守电网规范和提供电力系统服务。这包括不考虑气动涡轮相互作用的WF的传统操作方式。然而，像尾迹效应这样的流动现象对WF的整体性能有很大的影响。WFFC在WF运行中考虑了这种空气动力学现象。它可以被看作是一个新的功能，应该与现有的控制功能相结合。本文讨论了这些不同控制概念的相互作用，从而确定了挑战，这些挑战的解决方案将有助于WF控制的电气系统和空气动力学方面的成功集成。

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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来源期刊

Advanced Control for Applications

CiteScore

2.60

自引率

0.00%

发文量