Hardware implementation of a novel hybrid MPPT technique for fast tracking of GMPP in solar PV system under PSCs

IF 0.8 4区 工程技术 Q4 ENGINEERING, ELECTRICAL & ELECTRONIC Circuit World Pub Date : 2023-05-02 DOI:10.1108/cw-06-2022-0183
Praveen Kumar Bonthagorla, Suresh Mikkili
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引用次数: 0

Abstract

Purpose To generate electricity, solar photovoltaic (PV) systems are among the best, most eco-friendly and most cost-effective solutions available. Extraction of maximum possible electricity from the solar PV system is complicated by a number of factors brought on by the ever-changing weather conditions under which it must operate. Many conventional and evolutionary algorithm-based maximum power point tracking (MPPT) techniques have the limitation of not being able to extract maximum power under partial shade and rapidly varying irradiance. Hence, the purpose of this paper is to propose a novel hybrid slime mould assisted with perturb and observe (P&O) global MPPT technique (HSMO) for the hybrid bridge link-honey comb (BL-HC) configured PV system to enhance the better maximum power during dynamic and steady state operations within less time. Design/methodology/approach In this method, a hybridization of two algorithms is proposed to track the true with faster convergence under PSCs. Initially, the slime mould optimization (SMO) algorithm is initiated for exploration of optimum duty cycles and later P&O algorithm is initiated for exploitation of global duty cycle for the DC–DC converter to operate at GMPP and for fast convergence. Findings The effectiveness of the proposed HSMO MPPT is compared with adaptive coefficient particle swarm optimization (ACPSO), flower pollination algorithm and SMO MPPT techniques in terms of tracked GMPP, convergence time/tracking speed and efficacy under six complex partial shading conditions. From the results, it is noticed that the proposed algorithm tracks the true GMPP under most of the shading conditions with less tracking time when compared to other MPPT techniques. Originality/value This paper proposes a novel hybrid slime mould assisted with perturb and observe (P&O) global MPPT technique (HSMO) for the hybrid BL-HC configured PV system enhance the better maximum power under partial shading conditions (PSCs). This method operated in two stages as SMO for exploration and P&O for exploitation for faster convergence and to track true GMPP under PSCs. The proposed approach largely improves the performance of the MPP tracking of the PV systems. Initially, the proposed MPPT technique is simulated in MATLAB/Simulink environment. Furthermore, an experimental setup has been designed and implemented. Simulation results obtained are validated through experimental results which prove the viability of the proposed technique for an efficient green energy solution.
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PSCs下太阳能光伏系统GMPP快速跟踪的新型混合MPPT技术的硬件实现
太阳能光伏发电系统是目前最好、最环保、最具成本效益的解决方案之一。从太阳能光伏系统中提取最大可能的电力是复杂的,因为它必须在不断变化的天气条件下运行。许多传统的和基于进化算法的最大功率点跟踪(MPPT)技术存在不能在部分阴影和快速变化的辐照度下提取最大功率的局限性。因此,本文的目的是提出一种新的混合黏菌辅助扰动和观测(P&O)全局MPPT技术(HSMO),用于混合桥链-蜂巢(BL-HC)配置的光伏系统,以在更短的时间内提高动态和稳态运行时的最佳功率。在该方法中,提出了两种算法的杂交来跟踪真值,在psc下收敛速度更快。首先提出黏菌优化(SMO)算法,探索最优占空比,然后提出P&O算法,利用DC-DC变换器在GMPP下运行的全局占空比,快速收敛。在6种复杂部分遮阳条件下,将HSMO MPPT算法与自适应系数粒子群算法(ACPSO)、花授粉算法和SMO MPPT技术在跟踪GMPP、收敛时间/跟踪速度和有效性方面进行了比较。从结果中可以看出,与其他MPPT技术相比,该算法在大多数遮阳条件下都能跟踪真实的GMPP,并且跟踪时间更短。本文提出了一种新的混合黏菌辅助扰动和观测(P&O)全局MPPT技术(HSMO),用于混合BL-HC配置的光伏系统,提高了部分遮阳条件下(PSCs)的最大功率。该方法分为两个阶段,即SMO(用于勘探)和P&O(用于开发),以便更快地收敛并跟踪psc下的真正GMPP。所提出的方法在很大程度上提高了光伏系统的MPP跟踪性能。首先在MATLAB/Simulink环境下对所提出的MPPT技术进行了仿真。此外,还设计并实现了实验装置。通过实验验证了仿真结果,证明了该技术作为一种高效的绿色能源解决方案的可行性。
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
Circuit World
Circuit World 工程技术-材料科学:综合
CiteScore
2.60
自引率
0.00%
发文量
33
审稿时长
>12 weeks
期刊介绍: Circuit World is a platform for state of the art, technical papers and editorials in the areas of electronics circuit, component, assembly, and product design, manufacture, test, and use, including quality, reliability and safety. The journal comprises the multidisciplinary study of the various theories, methodologies, technologies, processes and applications relating to todays and future electronics. Circuit World provides a comprehensive and authoritative information source for research, application and current awareness purposes. Circuit World covers a broad range of topics, including: • Circuit theory, design methodology, analysis and simulation • Digital, analog, microwave and optoelectronic integrated circuits • Semiconductors, passives, connectors and sensors • Electronic packaging of components, assemblies and products • PCB design technologies and processes (controlled impedance, high-speed PCBs, laminates and lamination, laser processes and drilling, moulded interconnect devices, multilayer boards, optical PCBs, single- and double-sided boards, soldering and solderable finishes) • Design for X (including manufacturability, quality, reliability, maintainability, sustainment, safety, reuse, disposal) • Internet of Things (IoT).
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