基于算法结构的光伏电池MPPT控制器的研究与比较分析

Jasvir Singh, Puneet Chopra and Simerpreet Singh
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引用次数: 0

摘要

由于各种能源的使用不断增加,太阳能由于其几个优点而成为非常受欢迎的可再生能源。光伏发电系统在许多国家的能源生产和利用中得到了广泛的应用。但光伏电池在发电和电力系统中的应用也面临着效率低、成本高等亟待解决的问题。主要集中在如何提高效率。由于光伏(PV)阵列通常表现出非线性的功率电压(P-V)特性曲线,该曲线随隔离度和温度的变化而变化。为了获得良好的效率,最大功率点跟踪(MPPT)是一项非常重要的技术。已经提出并正在研究的各种传统mppt方案包括爬坡(HC),扰动和观察(P&O)和增量电导(INC)等。在本研究工作中,探索了粒子群算法和GSA算法等高效跟踪的优化方法。这种类型的控制(MPPT)的基本和考虑的问题是如何达到最佳优化状态,这可以通过使用进化算法来实现。pso算法具有并行处理、鲁棒性好、找到全局最优解的概率高等特点。在PSO中加入GSA可以改善其性能。加入本文提出的dgsapso算法的优势在于,通过粒子休眠和激活控制、最优粒子数算法和搜索序列选择,大大缩短了搜索时间,有助于减小输出波形的波动,从而提高了优化效率。与其他广泛使用的方法相比,它可以实现最大功率的平稳启动,并且在更短的时间内实现。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A Research Study and Comparative Analysis of MPPT Controllers for PV Cells with Algorithmatic Structures
Due to continues increase in usage of various sources of Energies, Solar energy becomes very popular source of renewable energy due to its several advantages. Systems such as Photovoltaic (PV) power systems have been widely used in many applications of generation and utilization of energy in many countries. But also, there are many urgent problems to cop up with the applications of PV Cells for the purpose of Power Generation and in the power systems such as low efficiency, high cost etc. The main Concentration is to how to improve efficiency. Since generally Photovoltaic (PV) arrays exhibit a nonlinear power–voltage (P–V) characteristic curve which have a variation with isolation and temperature. To achieve good efficiency, Maximum Power Point Tracking (MPPT) is a very important technology. There are various conventional MPPT schemes have been proposed and working on including Hill-Climbing (HC) , Perturb and Observe (P&O) , and Incremental Conductance (INC) etc. In this research work, the optimization methods for efficient tracking such as PSO and GSA are explored. The very essential and considered issue of this type of control (MPPT) is to how to achieve the best optimized status and this can be achieved by using evolutionary algorithms. PSO algorithm owns the characteristics methods like parallel processing, good robustness, and high probability of finding global optimal solution. By adding GSA with PSO ,it can be improved. Advantage of adding proposed GSAPSO algorithm greatly shortens the searching time, helpful in reducing the fluctuation of output waveform and thus improves the optimization and efficiency through particles dormancy and activation control, optimal number of particles algorithm and search sequence selection. It achieves a smooth starting for maximum power and achieves it in less time than the widely used other methods.
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