Simulation and experimental validation of hill-climbing algorithm for maximum power point tracking of solar photovoltaic plant

Khatri Megha; Kumar Atul

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Simulation and experimental validation of hill-climbing algorithm for maximum power point tracking of solar photovoltaic plant

机译：太阳能光伏厂最大功率点跟踪山坡算法的仿真与实验验证

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Variation of solar irradiances plays an important role in changing the parameters of a photovoltaic (PV) module. This communication includes a mathematical model, system design, control algorithm and experimental set-up to obtain the maximum power point on P-V and I-V curves of an array. Discussions have been done on all the units of the system and a simulation model developed in MATLAB software using the proposed method. The resultant system is capable of tracking maximum power point without steady-state oscillations and errors in changing environmental conditions. The feasibility and improved functionality of the proposed system have been tested successfully in the laboratory.

机译：太阳能辐射的变化在改变光伏（PV）模块的参数方面发挥着重要作用。该通信包括数学模型，系统设计，控制算法和实验设置，以获得阵列的P-V和I-V曲线上的最大功率点。在系统的所有单位和使用该方法的Matlab软件中开发的所有单位都进行了讨论。所得到的系统能够跟踪没有稳态振荡的最大功率点和改变环境条件的误差。在实验室中已经成功地测试了所提出的系统的可行性和改进功能。

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来源
《Current Science: A Fortnightly Journal of Research》 |2017年第7期|共7页
作者
Khatri Megha; Kumar Atul;
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作者单位

Ansal Univ Sch Engn &

Technol Gurgaon 122003 India;

Ansal Univ Sch Engn &

Technol Gurgaon 122003 India;

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原文格式 PDF
正文语种 eng
中图分类自然科学现状及发展;
关键词
Hill-climbing algorithm; maximum power point tracking; photovoltaic solar system;

机译：爬山算法;最大功率点跟踪;光伏太阳系;

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1. Simulation and experimental validation of hill-climbing algorithm for maximum power point tracking of solar photovoltaic plant [J] . Khatri Megha, Kumar Atul Current Science: A Fortnightly Journal of Research . 2017,第7期

机译：太阳能光伏厂最大功率点跟踪山坡算法的仿真与实验验证
2. Maximum power tracking for photovoltaic power system: Development and experimental comparison of two algorithms [J] . Issam Houssamo, Fabrice Locment, Manuela Sechilariu Renewable energy . 2010,第10期

机译：光伏发电系统的最大功率跟踪：两种算法的开发和实验比较
3. Mathematical Analysis of Maximum Power Points and Currents Based Maximum Power Point Tracking in Solar Photovoltaic System: a Solar Powered Water Pump Application [J] . A. G. E. Mousa, S. H. E. Abdel Aleem, A. M. Ibrahim International review of electrical engineering . 2016,第1期

机译：太阳能光伏系统中基于最大功率点和电流的最大功率点跟踪的数学分析：太阳能水泵应用
4. Advanced Maximum Power Point Tracking Scheme for Centralized Inverters for Large Solar Photovoltaic Power Plants [C] . Prashant Jain, Vivek Agarwal, Bishnu Prasad Muni, IEEE Photovoltaic Specialist Conference . 2017

机译：大型太阳能光伏发电厂集中逆变器的先进最大功率点跟踪方案
5. Analysis of Maximum Power Point Tracking Algorithms for Single Stage Photovoltaic Power Plants under Realistic Partial Shading Conditions Caused by Moving Clouds. [D] . Azuaje Berbeci, Bernardo J. 2017

机译：在移动云引起的实际局部遮蔽条件下，单级光伏电站的最大功率点跟踪算法分析。
6. Comparative Analysis of Robustness and Tracking Efficiency of Maximum Power Point in Photovoltaic Generators Using Estimation of the Maximum Power Point Resistance by Irradiance Measurement Processing [O] . Juan Ríos, Juan Manuel Enrique, Antonio Javier Barragán, 2020

机译：光伏发电机最大功率点鲁棒性和跟踪效率的比较分析辐照测量处理最大功率点电阻估计
7. Grid Tied Solar Photovoltaic Power Plants with Constant Power Injection Maximum Power Point Tracking Algorithm [O] . Rahul Wilson Kotla, Srinivasa Rao Yarlagadda 2020

机译：网格绑定太阳能光伏发电厂，具有恒功率注射最大功率点跟踪算法

Simulation and experimental validation of hill-climbing algorithm for maximum power point tracking of solar photovoltaic plant

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