Optimizing wind farm layout for enhanced electricity extraction using a new hybrid PSO-ANN method

IF 1.9 Q4 ENERGY & FUELS
Mariam El Jaadi , Touria Haidi , Abdelaziz Belfqih , Mounia Farah , Atar Dialmy
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引用次数: 0

Abstract

With the growing need for renewable energy, wind farms are playing an important role in generating clean power from wind resources. The best wind turbine architecture in a wind farm has a major influence on the energy extraction efficiency. This paper describes a unique strategy for optimizing wind turbine locations on a wind farm that combines the capabilities of particle swarm optimization (PSO) and artificial neural networks (ANNs). The PSO method was used to explore the solution space and develop preliminary turbine layouts, and the ANN model was used to fine- tune the placements based on the predicted energy generation. The proposed hybrid technique seeks to increase energy output while considering site-specific wind patterns and topographical limits. The efficacy and superiority of the hybrid PSO-ANN methodology are proved through comprehensive simulations and comparisons with existing approaches, giving exciting prospects for developing more efficient and sustainable wind farms. The integration of ANNs and PSO in our methodology is of paramount importance because it leverages the complementary strengths of both techniques. Furthermore, this novel methodology harnesses historical data through ANNs to identify optimal turbine positions that align with the wind speed and direction and enhance energy extraction efficiency. A notable increase in power generation is observed across various scenarios. The percentage increase in the power generation ranged from approximately 7.7% to 11.1%. Owing to its versatility and adaptability to site-specific conditions, the hybrid model offers promising prospects for advancing the field of wind farm layout optimization and contributing to a greener and more sustainable energy future.

利用新的 PSO-ANN 混合方法优化风电场布局以提高发电量
随着对可再生能源的需求日益增长,风力发电场在利用风力资源生产清洁电力方面发挥着重要作用。风电场中最佳的风力涡轮机结构对能源提取效率有重大影响。本文介绍了一种结合粒子群优化(PSO)和人工神经网络(ANN)功能的独特风电场风机位置优化策略。PSO 方法用于探索解决方案空间并制定初步的涡轮机布局,而 ANN 模型则用于根据预测的发电量对布局进行微调。所提出的混合技术旨在提高能量输出,同时考虑到特定地点的风力模式和地形限制。通过综合模拟以及与现有方法的比较,证明了 PSO-ANN 混合方法的有效性和优越性,为开发更高效、更可持续的风电场带来了令人振奋的前景。在我们的方法中,将 ANN 和 PSO 融合在一起至关重要,因为它充分利用了这两种技术的互补优势。此外,这种新颖的方法还能通过 ANNs 利用历史数据,确定与风速和风向一致的最佳涡轮机位置,提高能源提取效率。在各种情况下,发电量都有显著提高。发电量增加的百分比约为 7.7% 至 11.1%。由于其多功能性和对特定地点条件的适应性,该混合模型为推进风电场布局优化领域的发展提供了广阔前景,并为实现更绿色、更可持续的能源未来做出了贡献。
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
Global Energy Interconnection
Global Energy Interconnection Engineering-Automotive Engineering
CiteScore
5.70
自引率
0.00%
发文量
985
审稿时长
15 weeks
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