Development of a Comprehensive Matlab/Simulink Based Model for High-Efficiency 2nd Generation Photovoltaic (PV) Modules | Bentham Science

Muhammad Naveed Shaikh; Qayyum Zafar; Antonis Papadakis

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Development of a Comprehensive Matlab/Simulink Based Model for High-Efficiency 2nd Generation Photovoltaic (PV) Modules | Bentham Science

机译：高效第二代光伏（PV）模块的全面MATLAB / SIMULINK基于MATLAB / SIMULINK基于模型的开发 Bentham Science.

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The accurate energy yield prediction of a PV system under various environmentalconditions is important for designing a high-performance PV system.Objective: The robust and cost-effective digital simulation studies on PV systems have the advantagein comparison to studies based on measurements because they provide the opportunity for sensitivityanalysis on various design parameters of the PV system.Methods: Herein, we present the development and implementation of a generalized photovoltaiccomputational model using Matlab/Simulink software package. The model is based on the equivalentdiode circuit approach. It is designed to simulate two ubiquitous and high performing 2nd generationphotovoltaic (PV) modules constructed with Cadmium Telluride (CdTe) and Copper Indium Galliumdi-Selenide (CIGS) photoactive thin films, respectively. The values of key input parameters to thesimulator, i.e., parallel resistor (Rp) and series resistor (Rs) have been computed by an efficientNewton-Raphson iteration method.Results: The output current-voltage (I-V) and power-voltage (P-V) characteristic curves of theaforementioned PV modules have been simulated by taking two input variables (ambient irradianceand temperature) into consideration. The electrical performance of both PV modules under variousenvironmental conditions have been mathematically investigated by the solution of classical non-linearequations.Conclusion: The developed PV model has been validated with the experimental results obtainedfrom standard PV module datasheets provided by manufacturers. The relative error between thesimulated and experimental values of various photovoltaic parameters for CdTe and CIGS PV modulesat Standard Test Conditions (STC) has been observed to be below 3%.

机译：在各种环境条件下PV系统的精确能源产量预测对于设计高性能PV系统是重要的。目的：PV系统的稳健和经济高效的数字仿真研究具有基于测量的研究的优势比较，因为它们提供了基于测量的研究PV系统的各种设计参数分析的机会。方法：这里，我们使用Matlab / Simulink软件包提供了广义光伏计算机模型的开发和实现。该模型基于等同的电路方法。它旨在分别模拟与碲化镉（CdTe）和铜铟镓硒（CIGS）光活性薄膜构成的两种无处不在的和高效的第二代第二代（PV）模块。通过高效的内蒙顿-Raphson迭代方法计算了对仿管器，即，并联电阻（RP）和串联电阻（RS）的键输入参数的值。结果：输出电流 - 电压（IV）和电源电压（PV）通过考虑两个输入变量（环境IRRADIANCEND温度）来模拟Theaulationed PV模块的特征曲线。通过经典的非线性等级的解决方案已经在数学上研究了PV模块的电气性能。结论：已发达的PV模型已通过制造商提供的标准PV模块数据表获得的实验结果验证。已经观察到CDTE和CIGS PV Moduesat标准试验条件（STC）各种光伏参数的显影和实验值之间的相对误差低于3％。

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来源
《Current Nanoscience》 |2020年第4期|共10页
作者
Muhammad Naveed Shaikh; Qayyum Zafar; Antonis Papadakis;
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作者单位

Department of Electrical Engineering School of Engineering Frederick University;

Department of Physics School of Science University of Management and Technology;

Department of Electrical Engineering School of Engineering Frederick University;

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原文格式 PDF
正文语种 eng
中图分类特种结构材料;
关键词
2nd generation photovoltaic (PV) modules; equivalent diode circuit; photovoltaic parameters; computationalmodelling; Newton-Raphson iteration method; Matlab/Simulink;

机译：第二代光伏（PV）模块;等效二极管电路;光伏参数;计算发出的;牛顿 - 拉赛迭代方法;matlab / simulink;

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1. Development of a Comprehensive Matlab/Simulink Based Model for High-Efficiency 2nd Generation Photovoltaic (PV) Modules | Bentham Science [J] . Muhammad Naveed Shaikh, Qayyum Zafar, Antonis Papadakis Current Nanoscience . 2020,第4期

机译：高效第二代光伏（PV）模块的全面MATLAB / SIMULINK基于MATLAB / SIMULINK基于模型的开发 Bentham Science.
2. A comprehensive MATLAB Simulink PV system simulator with partial shading capability based on two-diode model [J] . Kashif Ishaque, Zainal Salam, Syafaruddin Solar Energy . 2011,第9期

机译：全面的MATLAB Simulink PV系统模拟器，具有基于二二极管模型的部分阴影功能
3. Mathematical modeling of photovoltaic cell/module/arrays with tags in Matlab/Simulink [J] . Xuan Hieu Nguyen, Minh Phuong Nguyen Environmental Systems Research . 2015,第1期

机译：Matlab / Simulink中带有标签的光伏电池/模块/阵列的数学建模
4. A Comprehensive Modelling of Photovoltaic Module Characteristic Curve in MATLAB/Simulink [C] . Rodney H. G. Tan, Matthew Y. W. Teow IET International Conference on Clean Energy and Technology . 2017

机译：MATLAB / SIMULINK中光伏模块特征曲线综合建模
5. Applying the spin model-checker to model-based designs implemented in Matlab Simulink/Stateflow. [D] . Seigman, Paul. 2006

机译：将旋转模型检查器应用于Matlab Simulink / Stateflow中实现的基于模型的设计。
6. Current Characteristics Estimation of Si PV Modules Based on Artificial Neural Network Modeling [O] . Xiaobo Xu, Xiaocheng Zhang, Zhaowu Huang, 2019

机译：基于人工神经网络建模的硅光伏组件电流特性估计
7. Modeling and Simulation of Photovoltaic Module and Array Based on One and Two Diode Model Using Matlab/Simulink [O] . Bouraiou Ahmed, Hamouda Messaoud, Chaker Abdelkader, 2015

机译：基于Matlab / Simulink的一二极管和两二极管模型的光伏模块和阵列的建模与仿真
8. Determination of Optimum Mounting Configurations for Flat-Plate Photovoltaic Modules Based on a Structured Field Experiment and Simulated Results from PVFORM, a Photovoltaic System Performance Model [R] . Menicucci, D. F. 1986

机译：基于pVFORm，光伏系统性能模型的结构化现场实验和模拟结果确定平板光伏组件的最佳安装配置

Development of a Comprehensive Matlab/Simulink Based Model for High-Efficiency 2nd Generation Photovoltaic (PV) Modules | Bentham Science

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