从光伏系统中提取各种直流和交流负载的峰值功率

2024 Third International Conference on Power, Control and Computing Technologies (ICPC2T) Pub Date : 2024-01-18 DOI:10.1109/ICPC2T60072.2024.10475038

Himanshu Sekhar Sahu, Shashank Kumar, Papul Changmai, S. K. Nayak

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引用次数: 0

摘要

本文介绍了利用电流显式方程确定光伏（PV）面板 MPP 的方法，电流显式方程仅是电压的函数。使用近似直线表达式，从隐式 V-I 特性推导出电流显式方程。从隐式电流表达式中获得的各种面板额定电流的 V-I 曲线用于实现建议的光伏系统电流表达式。在不同的环境条件下（DEC），建议的显式 V-I 表达式可用于直接估算光伏系统的 MPP。使用 MATLAB 程序，将应用建议算法获得的 DEC 下的面板 MPP 与各种现有技术进行对比。结果显示，使用所开发方法估算出的电池板 MPP 与实际 MPP 值非常接近。此外，使用开发的方法估算的峰值功率与测量的峰值功率之间的误差很小（%）。因此，使用开发的方法计算出的电池板估计 MPP 更为精确。

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Peak Power Extraction from a PV System for Various DC and AC Loads

This paper describes the MPP determination of a photovoltaic (PV) panel using the explicit equation of current, which is only a function of voltage. Using an approximation of a straight line expression, the explicit equation of current is derived from implicit V-I characteristics. The V-I curves obtained from an implicit expression of current for various panel ratings are used to implement the proposed PV system expression of current. Under various environmental conditions (DEC), the proposed explicit V-I expression is used to directly estimate the MPP of a PV system. Using the MATLAB program, the MPP of the panel at DEC obtained by applying the proposed algorithm is contrasted with various existing techniques. The estimated MPP of a panel using the developed method closely matches the actual MPP values, according to the results. Additionally, there is little (%) error between estimated peak power using the developed method and measured peak power. As a result, a panel's estimated MPP calculated using the developed method is more precise.

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2024 Third International Conference on Power, Control and Computing Technologies (ICPC2T)

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