Optimal Shunt Reactor Planning for Offshore Wind Farm

IF 3.8 2区工程技术 Q2 ENGINEERING, ELECTRICAL & ELECTRONIC IEEE Transactions on Power Delivery Pub Date : 2024-09-03 DOI:10.1109/TPWRD.2024.3453669

Guan-Yi Li;Christian Sinatra;Wei-Yun Huang;Gary W. Chang

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Abstract

Offshore wind farms (OWFs) significantly produce capacitive reactive power through their submarine connection to the main grid. Grid-connected resources must regulate their reactive power output to maintain reliable system operation. Excessive capacitive reactive power can be economically mitigated with the optimal planning of shunt reactors. This paper proposes an optimal shunt reactor planning method using the Equilibrium Optimizer (EO) algorithm. The proposed method is assessed in an actual OWF located on the west coast of Taiwan. The test consists of four cases with different shunt reactor configurations each. The results indicate that the ideal allocation of shunt reactors for the studied system consists of a smaller offshore shunt reactor capacity and a larger onshore shunt reactor capacity, each split into several individual shunt reactors. However, limited space availability and weight capacity on the OWF and the complexity of controlling too many shunt reactors may warrant less ideal allocation of shunt reactors. Furthermore, the solutions from the proposed EO-based method are superior to three other metaheuristic algorithms and one traditional solver.

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海上风电场并联电抗器的优化规划

海上风电场（OWFs）通过与主电网的海底连接产生大量电容性无功功率。并网资源必须调节其无功功率输出，以维持系统的可靠运行。通过并联电抗器的优化规划，可以经济地缓解过大的容性无功功率。本文提出了一种使用均衡优化器（EO）算法的并联电抗器优化规划方法。本文提出的方法在位于台湾西海岸的一个实际 OWF 中进行了评估。测试包括四个案例，每个案例都有不同的并联电抗器配置。结果表明，所研究系统的理想并联电抗器配置包括一个较小的离岸并联电抗器容量和一个较大的陆上并联电抗器容量，每个并联电抗器分成几个单独的并联电抗器。然而，由于海上工作平台的可用空间和重量有限，以及控制过多并联电抗器的复杂性，并联电抗器的分配可能并不那么理想。此外，所提出的基于 EO 方法的解决方案优于其他三种元启发式算法和一种传统求解器。

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

IEEE Transactions on Power Delivery 工程技术-工程：电子与电气

CiteScore

9.00

自引率

13.60%

发文量

513

审稿时长

6 months

期刊介绍： The scope of the Society embraces planning, research, development, design, application, construction, installation and operation of apparatus, equipment, structures, materials and systems for the safe, reliable and economic generation, transmission, distribution, conversion, measurement and control of electric energy. It includes the developing of engineering standards, the providing of information and instruction to the public and to legislators, as well as technical scientific, literary, educational and other activities that contribute to the electric power discipline or utilize the techniques or products within this discipline.

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