WIND POWER PLANT LAYOUT OPTIMIZATION USING PARTICLE SWARM OPTIMIZATION

Turkish Journal of Engineering and Environmental Sciences Pub Date : 2021-04-01 DOI:10.31127/tuje.698856

I. Çelik, C. Yıldız, M. Sekkeli

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引用次数: 4

Abstract

The use of wind energy has rapidly increased in recent years. In parallel with this rapid increase, Wind Power Plant (WPP) installation has become an important research topic. The selection of wind turbine location in WPP installation effects turbine output power. If the appropriate turbine position is not selected, the total generation of WPP is decreased. The purpose of this study was to determine the locations that wind turbines can achieve the highest energy generation. In this study, an optimization model was proposed to achieve the best WPP layout. In the first stage, field data and Wind Atlas Analysis and Application Program (WAsP) software were used to obtain wind speed distributions in the region where the WPP will be installed. . These distributions were used in the developed optimization model in MATLAB. The actual power curve of a wind turbine was used in the model to calculate energy generation. In the second stage, the locations of the wind turbine were determined by particle swarm optimization (PSO) method. In the final stage, the results of developed MATLAB model were compared with WASP to check accuracy. The difference between MATLAB model and WAsP software was found as 0.04%. This result showed that this model performed a calculation with acceptable accuracy. In addition, it was seen that wind turbines were located to the high wind velocity regions with the solution of the developed optimization model.

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基于粒子群算法的风电场布局优化

近年来，风能的使用迅速增加。与此同时，风力发电厂(WPP)的安装也成为一个重要的研究课题。WPP安装中风力机位置的选择影响着风力机的输出功率。如果不选择合适的涡轮机位置，则WPP的总发电量会减少。这项研究的目的是确定风力涡轮机可以达到最高发电量的位置。在本研究中，提出了一个优化模型，以实现最佳的WPP布局。在第一阶段，利用现场数据和Wind Atlas Analysis and Application Program (WAsP)软件获得WPP将要安装区域的风速分布。这些分布在MATLAB中用于开发的优化模型。模型采用风力机的实际功率曲线计算发电量。第二阶段，采用粒子群优化方法确定风力机的位置。在最后阶段，将开发的MATLAB模型的结果与WASP进行比较，以检查准确性。MATLAB模型与WAsP软件的差异为0.04%。结果表明，该模型的计算精度可以接受。此外，通过所建立的优化模型的解可以看出，风力机位于高风速区域。

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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Turkish Journal of Engineering and Environmental Sciences

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