Improved Model for Forecasting Global Solar Irradiance During Sunny and Cloudy Days

B. Burduhos, M. Neagoe
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引用次数: 1

Abstract

Abstract A precise estimation of the electrical energy produced daily by photovoltaic (PV) systems is important both for PV owners and for electrical grid operators. It can be achieved if the received solar irradiance can be accurately estimated during any type of daily solar profile (clear, cloudy, mixed sky), not only average solar profile for larger periods of time, e.g. one month or season, as used in PV system design. The paper firstly describes an existing mathematical model, based on the Meliss approach, which uses mean monthly coefficients for estimating average direct and diffuse solar irradiance. This model is satisfactory for monthly/annual intervals but is not useful for daily estimations. Therefore in the second part of the paper an algorithm which allows to generate daily variations of the model’s coefficients for clear and cloudy sky conditions is proposed. The improved model with variable coefficients was tested during several representative days and can be used for estimating the effect which different meteorological conditions as fog/dew/frost have on the quantity and quality of the solar irradiance received by a PV convertor.
预测晴天和阴天全球太阳辐照度的改进模式
准确估算光伏发电系统每天产生的电能对光伏发电用户和电网运营商都很重要。如果能够在任何类型的每日太阳轮廓(晴朗、多云、混合天空)中准确地估计接收到的太阳辐照度,而不仅仅是光伏系统设计中使用的较长时间(例如一个月或一个季节)的平均太阳轮廓,就可以实现这一目标。本文首先描述了一个现有的基于Meliss方法的数学模型,该模型使用平均月系数来估计平均直射和漫射太阳辐照度。这个模型对于每月/每年的间隔是令人满意的,但是对于每天的估计是无用的。因此,在论文的第二部分提出了一种算法,该算法允许在晴朗和多云的天空条件下生成模型系数的日变化。改进的变系数模型在几个有代表性的日子里进行了测试,可以用来估计不同气象条件(如雾/露/霜)对光伏变流器接收太阳辐照度的数量和质量的影响。
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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