Impact of Aerosol on the Estimation Accuracy of Solar Radiation

Calinoiu Delia-Gabriela, Paulescu Marius
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Abstract

Abstract The paper is focused on the solar irradiance estimation in clear-sky conditions and an aerosol-loaded atmosphere. Two parametric models developed by our group and three empirical models are tested. The estimates of the parametric models are based on three atmospheric parameters (ozone, nitrogen dioxide and water vapor column content) and the aerosol properties quantified by means of several specific parameters (Ångström turbidity coefficient, single scattering albedo, asymmetry factor). The empirical models contain no inputs for aerosol properties. Data collected from 10 stations were used to test the models. The inputs for the parametric models were retrieved from Aerosol Robotic Network - AERONET. Global and diffuse solar irradiance data at high-quality standards were retrieved from the Baseline Surface Radiation Network BSRN. A comparative analysis of the models’ accuracy in estimating clear-sky solar irradiance is discussed from the perspective of aerosol proprieties.
气溶胶对太阳辐射估算精度的影响
摘要本文主要研究了晴空条件下大气气溶胶负荷下太阳辐照度的估算。本文对两个参数模型和三个实证模型进行了检验。参数模式的估计是基于三个大气参数(臭氧、二氧化氮和水蒸气柱含量)和几个特定参数(Ångström浊度系数、单次散射反照率、不对称因子)量化的气溶胶特性。经验模式不包含气溶胶特性的输入。从10个站点收集的数据用于测试模型。参数模型的输入从气溶胶机器人网络- AERONET中检索。高质量标准的全球和漫射太阳辐照度数据来自基线表面辐射网络BSRN。从气溶胶特性的角度比较分析了模式在估算晴空太阳辐照度时的精度。
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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