基于萤火虫算法的光伏Cuk变换器最大功率跟踪

Elkha Jurnal Teknik Elektro Pub Date : 2022-04-20 DOI:10.26418/elkha.v14i1.52461

S. Siswoko, H. K. Safitri, Oktriza Melfazen

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引用次数: 4

摘要

印度尼西亚日照强度高(每天长达10小时)，利用太阳能电池板吸收太阳能，是利用可再生能源的绝佳机会。吸收的太阳能被引导到具有Cuk转换器拓扑的DC/DC转换器电路中，因此它可以用于小电流波纹。最大功率点跟踪(MPPT)方法是太阳能电池板获得最优功率的必要条件。为了优化MPPT值，使用FFA (Firefly Algorithm)算法支持其性能。本研究主要通过观察FFA参数(即萤火虫种群和随机参数)的变化，利用MPPT方法在Cuk转换器拓扑上生成最优功率。FFA嵌入微控制器成功优化了MPPT性能，在萤火虫种群= 25，吸收系数(γ) = 0.5，随机值(α) = 0.6，迭代= 10时获得最佳响应，最优功率为25.7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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MPPT using Firefly Algorithm for Cuk Converter in Photovoltaic

High intensity of sunlight in Indonesia (up to 10 hours per day) is a great opportunity to be utilized as renewable energy by absorbing solar energy using solar panels. The absorbed solar energy is channeled into a DC/DC converter circuit with a Cuk converter topology so that it can be used with small current ripples. The Maximum Power Point Tracker (MPPT) method is needed to get optimum power from solar panels. To optimize the MPPT value, its performance is supported by using the Firefly Algorithm (FFA). This study focused on observing changes in FFA parameters, i.e., firefly populations and random parameters to generate optimal power on Cuk converter topology with MPPT method. FFA embedded in microcontrollers has successfully optimized MPPT performance with the best response obtained in the firefly population = 25, absorption coefficient (γ) = 0.5, random value (α) = 0.6, iteration = 10, with an optimal power of 25.7 Watts.

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来源期刊

Elkha Jurnal Teknik Elektro

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审稿时长

10 weeks