一种新的基于MPPT的独立光伏系统扩展灰狼优化器:不同场景下四种智能MPPT技术的性能评估

IF 2.1 Q2 ENGINEERING, MULTIDISCIPLINARY Inventions Pub Date : 2023-11-07 DOI:10.3390/inventions8060142
Mohammed Yousri Silaa, Oscar Barambones, Aissa Bencherif, Abdellah Rahmani
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引用次数: 0

摘要

光伏(PV)系统在清洁能源系统中起着至关重要的作用。有效的最大功率点跟踪(MPPT)技术是优化其性能的关键。然而,在快速变化的环境因素和各种操作条件下,传统的MPPT方法存在局限性和挑战。为了解决这些挑战,本文提出了一种新的扩展灰狼优化器(EGWO)的性能评估。EGWO经过精心设计,通过快速跟踪和保持最大功率点(MPP)来提高光伏系统的效率。在本研究中,EGWO与其他著名的MPPT技术,包括灰狼优化器(GWO)、平衡优化算法(EOA)、粒子群优化(PSO)和sin cos算法(SCA)技术进行了比较。为了评估这些MPPT方法,采用集成DC/DC升压变换器的光伏模块模型,并使用Simulink-MATLAB软件在标准测试条件(STC)和各种环境条件下进行仿真。特别是,结果表明,新型EGWO技术优于GWO、EOA、PSO和SCA技术,并且在STC和可变条件下都具有快速的跟踪速度、优异的动态响应、高鲁棒性和最小的功率波动。因此,使用所提出的EGWO技术可以实现0.09 W的功率波动。最后,根据这些结果,所提出的方法可以提供能源消耗的改善。这些发现强调了采用新型MPPT EGWO来提高光伏系统中MPPT的效率和性能的潜在好处。对这种智能技术的进一步探索可能会在优化光伏系统性能方面取得重大进展,使其成为现实世界应用的一个有前途的选择。
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A New MPPT-Based Extended Grey Wolf Optimizer for Stand-Alone PV System: A Performance Evaluation versus Four Smart MPPT Techniques in Diverse Scenarios
Photovoltaic (PV) systems play a crucial role in clean energy systems. Effective maximum power point tracking (MPPT) techniques are essential to optimize their performance. However, conventional MPPT methods exhibit limitations and challenges in real-world scenarios characterized by rapidly changing environmental factors and various operating conditions. To address these challenges, this paper presents a performance evaluation of a novel extended grey wolf optimizer (EGWO). The EGWO has been meticulously designed in order to improve the efficiency of PV systems by rapidly tracking and maintaining the maximum power point (MPP). In this study, a comparison is made between the EGWO and other prominent MPPT techniques, including the grey wolf optimizer (GWO), equilibrium optimization algorithm (EOA), particle swarm optimization (PSO) and sin cos algorithm (SCA) techniques. To evaluate these MPPT methods, a model of a PV module integrated with a DC/DC boost converter is employed, and simulations are conducted using Simulink-MATLAB software under standard test conditions (STC) and various environmental conditions. In particular, the results demonstrate that the novel EGWO outperforms the GWO, EOA, PSO and SCA techniques and shows fast tracking speed, superior dynamic response, high robustness and minimal power fluctuations across both STC and variable conditions. Thus, a power fluctuation of 0.09 W could be achieved by using the proposed EGWO technique. Finally, according to these results, the proposed approach can offer an improvement in energy consumption. These findings underscore the potential benefits of employing the novel MPPT EGWO to enhance the efficiency and performance of MPPT in PV systems. Further exploration of this intelligent technique could lead to significant advancements in optimizing PV system performance, making it a promising option for real-world applications.
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来源期刊
Inventions
Inventions Engineering-Engineering (all)
CiteScore
4.80
自引率
11.80%
发文量
91
审稿时长
12 weeks
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