Developing a new model for predicting global solar radiation on a horizontal surface located in Southwest Region of Algeria

NRIAG Journal of Astronomy and Geophysics Pub Date : 2020-01-01 DOI:10.1080/20909977.2020.1746892

N. Bailek, K. Bouchouicha, Y. Abdel-Hadi, M. EL-Shimy, Abdeldjalil Slimani, B. Jamil, Abdallah Djaafari

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引用次数: 17

Abstract

ABSTRACT Global solar radiation data is essential in the design of solar energy conversion devices. The most widely used model in the estimation of the global solar radiation coming to the earth’s surface is the Angtröm-Prescott model. In this model, relative sunshine duration plays an important role. In the current study, it was attempted to review different models and to determine the best performing model developed for the city of Bechar and two locations of Algerian Big South desert for solar energy projects and compare them with the different established models available in the literature up until now, based on measured sunshine hours data. The new models give high accuracies on the application, where (R2) ranges between 0.70 and 0.99. In addition, MBE and RMSE values are very low in the studied stations. The results presented in this paper are quite useful for quick estimation of global solar radiation data required for performance evaluation of solar collector used for different applications of solar energy.

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在阿尔及利亚西南地区建立一个预测全球太阳辐射水平面上的新模式

摘要:在太阳能转换装置的设计中，全球太阳辐射数据是必不可少的。在估计到达地球表面的全球太阳辐射时，使用最广泛的模型是Angtröm-Prescott模型。在该模式中，相对日照时数起着重要作用。在目前的研究中，它试图回顾不同的模型，并确定为贝查尔市和阿尔及利亚大南部沙漠的两个地点开发的太阳能项目的最佳模型，并将它们与迄今为止文献中可用的不同已建立的模型进行比较，这些模型基于测量的日照时数数据。新模型在应用上给出了很高的精度，其中(R2)范围在0.70到0.99之间。此外，研究台站的MBE和RMSE值都很低。本文的研究结果对于快速估算不同太阳能应用场合的太阳能集热器性能所需的太阳总辐射数据具有重要意义。

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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NRIAG Journal of Astronomy and Geophysics

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