ENHANCEMENT OF MPPT MODULE FOR PARTIAL SHADING PHOTOVOLTAIC SYSTEM UNDER UNIFORM IRRADIANCE CONDITIONS

IF 0.6 Q3 ENGINEERING, MULTIDISCIPLINARY

IIUM Engineering Journal Pub Date : 2023-07-04 DOI:10.31436/iiumej.v24i2.2752

H. Mohammed, Rosmiwati Mohd Mokhtar, H. Ali

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引用次数: 0

Abstract

Maximum Power Point Tracking (MPPT) algorithms play a critical role in maximizing the output power of solar panels. Different MPPT techniques are evaluated based on several criteria, such as tracking speed, simplicity, and accuracy with changes in solar irradiance and ambient temperature. Under partial shading conditions (PSCs), conventional techniques fail to track global maximum power points (GMPP). This paper aims to present an automatic and accurate method to fix the complexity of determining the accurate lookup table data in an automatic and fast process under uniform irradiance conditions (UICs) and PSCs. The proposed method runs the photovoltaic (PV) module with all potential irradiance and temperature. It automatically calculates the perfect voltage reference (Vref) for all potential PV system cases. The Vref is collected in an array, sent into a two-dimensional lookup table, and used for controlling the boost converter. Simulation results verify the effectiveness of the proposed method. In addition, a comparison was also made with the conventional perturb and observe (P&O) method. Under UICs, the proposed method takes less time than the conventional P&O algorithm to reach the MPP. The time difference between them is ?t = 0.133 sec and ?t = 0.04 sec for the first scanning process at t = 0 sec and sudden change irradiance at t = 1.5 sec, respectively. As for PSCs, the proposed method reached the GMPP during pattern 104 (first peak) without any power loss, while the P&O MPPT was able to track the GMPP but with power losses of 2729.97 watts. ABSTRAK: Algoritma Penjejakan Titik Kuasa Maksimum (MPPT) memainkan peranan penting dalam memaksimumkan kuasa keluaran panel solar. Teknik MPPT yang berbeza dinilai berdasarkan beberapa kriteria seperti kelajuan pengesanan, kesederhanaan, dan ketepatan dengan perubahan dalam sinaran suria dan suhu ambien. Di bawah keadaan teduhan separa (PSC), teknik konvensional gagal menjejak titik kuasa maksimum global (GMPP). Kajian ini bertujuan bagi membentangkan kaedah automatik dan tepat bagi membetulkan kesusahan dalam menentukan carian data berjadual secara tepat, automatik dan pantas di bawah keadaan sinaran seragam (UIC) dan PSC. Kaedah yang dicadangkan menjalankan modul fotovoltaik (PV) dengan semua potensi sinaran dan suhu dan mengira rujukan voltan sempurna (Vref) secara automatik bagi semua kes yang berpotensi dalam sebarang jenis sistem PV. Vref dikumpul dalam tata susunan, dihantar ke dalam jadual carian dua dimensi, dan digunakan bagi mengawal penukar rangsangan. Keputusan simulasi mengesahkan keberkesanan kaedah yang dicadangkan. Perbandingan juga dibuat dengan kaedah konvensional perhati dan ganggu (P&O). Di bawah UIC, kaedah yang dicadangkan mengambil masa yang lebih singkat berbanding algoritma konvensional P&O bagi mencapai MPP. Perbezaan masa antara keduanya adalah masing-masing, ?t = 0.133 saat dan ?t = 0.04 saat bagi proses pengimbasan pertama iaitu pada t = 0 saat dan sinaran perubahan mendadak pada t = 1.5 saat. Bagi PSC, kaedah yang dicadangkan mencapai GMPP semasa corak 104 (puncak pertama) tanpa kehilangan kuasa manakala MPPT P&O dapat mengesan GMPP tetapi dengan pengurangan kuasa sebanyak 2729.97 watt.

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均匀照度条件下部分遮阳光伏系统MPPT模块的增强

最大功率点跟踪(MPPT)算法是实现太阳能电池板输出功率最大化的关键。不同的MPPT技术基于几个标准进行评估，如跟踪速度、简单性和随太阳辐照度和环境温度变化的准确性。在部分遮阳条件下，传统技术无法跟踪全局最大功率点(GMPP)。本文旨在提出一种自动准确的方法，以解决在均匀辐照条件(UICs)和PSCs下自动快速确定准确查找表数据的复杂性。所提出的方法在所有潜在辐照度和温度下运行光伏(PV)模块。它自动计算所有潜在光伏系统情况下的完美电压基准(Vref)。Vref被收集到一个数组中，发送到一个二维查找表中，并用于控制升压转换器。仿真结果验证了该方法的有效性。此外，还与常规的扰动观测(P&O)方法进行了比较。在uic下，该方法比传统的P&O算法更快地达到MPP。第一次扫描过程在t = 0秒和突变辐照度在t = 1.5秒时的时间差分别为t = 0.133秒和t = 0.04秒。对于PSCs，所提出的方法在模式104(第一个峰值)达到GMPP时没有任何功率损失，而P&O MPPT能够跟踪GMPP，但功率损失为2729.97瓦。摘要:Penjejakan Titik Kuasa Maksimum (MPPT)算法在太阳能电池板上的应用。Teknik MPPT yang berbeza dinilai berdasarkan berbera kria perperti kelajuan penesanan, kesederhanan, danketepatan denengan perubahan dalam sinaran suria dan suhu ambien。dibawah keadaand teduhansepara (PSC)，技术与传统的全球性的menjejak titik kuasa maksimum (GMPP)。Kajian ini bertujuan bagi memberbtangkan kaedah automatik dan tepat bagi memberbetulkan kesusahan dalam menentukan caran data berjual secara tepat, automatik dan pandas di bawah keadan sinaran seragam (UIC) dan PSC。Kaedah yang dicadangkan menjalankan组件fotovoltaik (PV) denan semua potential sinaran an suhu dan mengira rujukan voltan sempurna (Vref) secara automatik bagi semua kes yang berpotentisi dalam sebarang jenis系统PV。Vref dikumpul dalam tata susunan, dihantar ke dalam jalian dua dimensions, dan digunakan bagi mengawal penukar rangsangan。Keputusan simulasi mengesahkan keberkesanan kaedah yang dicadangkan。Perbandingan juga dibuat dengan kaedah konvensional perhati dan ganggu (P&O)。杨凯达，杨凯达，杨立强，等。一种基于模糊模糊算法的常规P&O bagi算法。Perbezaan masa antara keduanya adalah masing-masing， ?t = 0.133 saat dan ?t = 0.04 saat bagi proses pengimbasan perama iatiu padt = 0 saat dan sinaran perubahan mendadak padt = 1.5 saat。巴吉PSC, kaedah yang dicadangkan menapai GMPP semasa corak 104 (puncak pertama) tanpa kehilangan kuasa manakala MPPT P&O dapat mengesan GMPP tetapi dengan pengurangan kuasa sebanyak 2729.97瓦。

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

IIUM Engineering Journal ENGINEERING, MULTIDISCIPLINARY-

CiteScore

2.10

自引率

20.00%

发文量

审稿时长

40 weeks

期刊介绍： The IIUM Engineering Journal, published biannually (June and December), is a peer-reviewed open-access journal of the Faculty of Engineering, International Islamic University Malaysia (IIUM). The IIUM Engineering Journal publishes original research findings as regular papers, review papers (by invitation). The Journal provides a platform for Engineers, Researchers, Academicians, and Practitioners who are highly motivated in contributing to the Engineering disciplines, and Applied Sciences. It also welcomes contributions that address solutions to the specific challenges of the developing world, and address science and technology issues from an Islamic and multidisciplinary perspective. Subject areas suitable for publication are as follows: -Chemical and Biotechnology Engineering -Civil and Environmental Engineering -Computer Science and Information Technology -Electrical, Computer, and Communications Engineering -Engineering Mathematics and Applied Science -Materials and Manufacturing Engineering -Mechanical and Aerospace Engineering -Mechatronics and Automation Engineering