Active Power Coordination Control for Wind and Energy Storage System

2022 9th International Conference on Electrical and Electronics Engineering (ICEEE) Pub Date : 2022-03-29 DOI:10.1109/ICEEE55327.2022.9772593

Murat Can Sinim, M. Taplamacioglu

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Abstract

Wind turbines are the one of the important steps to reach carbon zero target for countries. Therefore, there have been huge investment for wind turbines for an onshore and offshore. Due to wind fluctuations, wind turbines are still defined as an intermittent power sources in literature. In order to improve the wind turbine penetration, mitigating negative effects and increasing benefits makes important contribution to support from grid operator and market players. In addition to this, energy storage integration to wind turbine can provide further support to mitigate the negative effects such as unforeseen wind speed as well as intermittency. This positive support increases the control of active power output. In this paper, the research on the energy storage integration to wind turbine system are conducted. As a case study, 4.2 MW output power wind turbine model is used with real time measured wind speed data which is gathered from in Turkey. Li-ion energy storage system (ESS) and its technical data from one real product is chosen in this study. All necessary operation is carried out on Python.

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风电与储能系统有功协调控制

风力涡轮机是各国实现零碳目标的重要步骤之一。因此，对陆上和海上风力涡轮机进行了巨大的投资。由于风力的波动，风力发电机在文献中仍然被定义为间歇性电源。为了提高风电机组的渗透率，减轻负面影响，增加效益，对电网运营商和市场参与者的支持做出了重要贡献。除此之外，风力涡轮机的储能集成可以提供进一步的支持，以减轻诸如不可预见的风速和间歇性等负面影响。这种积极的支持增加了对有功功率输出的控制。本文对风电系统的储能集成进行了研究。作为一个案例研究，使用4.2 MW输出功率的风力发电机模型和实时测量的风速数据，这些数据来自土耳其。本研究选取了一个实际产品的锂离子储能系统及其技术数据。所有必要的操作都在Python上执行。

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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2022 9th International Conference on Electrical and Electronics Engineering (ICEEE)

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