Optimizing the accuracy of electrical models of PV systems operating under non-ideal conditions

Diego Torres-Lobera, S. Valkealahti
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引用次数: 1

Abstract

Photovoltaic (PV) technology permits us to harness and transform solar radiation into electricity. However, PV power generators are still a marginal share in the global power generation capacity. One of the main reasons for it is that PV systems are greatly dependent on the atmospheric conditions affecting their operation. Furthermore, series connection of PV cells is prone to power losses when the electrical characteristics of the cells are dissimilar or the cells operate under non-uniform operating conditions. Accurate electrical models are required to analyze PV systems under non-ideal operating conditions, for example, to optimize the design of grid inverters. This paper proposes a method to optimize the accuracy of the electrical models based on a sensitivity analysis of the parameters of the model and on the evaluation of the normalized root mean square error between the measured and simulated P-V characteristics continuously by the second.
优化非理想工况下光伏系统电模型的准确性
光伏(PV)技术使我们能够利用太阳辐射并将其转化为电能。然而,光伏发电在全球发电能力中所占的份额仍然很小。其中一个主要原因是光伏系统在很大程度上依赖于影响其运行的大气条件。此外,当电池的电特性不相同或电池在不均匀的工作条件下工作时,光伏电池串联容易产生功率损耗。为了分析非理想运行条件下的光伏系统,例如优化电网逆变器的设计,需要精确的电气模型。本文提出了一种基于模型参数的灵敏度分析和连续秒测量值与模拟值之间的归一化均方根误差评价的电模型精度优化方法。
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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