Estimation of Solar Insolation and Angstrom–Prescott Coefficients Using Sunshine Hours over Nepal

IF 2.1 4区地球科学 Q3 METEOROLOGY & ATMOSPHERIC SCIENCES

Advances in Meteorology Pub Date : 2022-06-22 DOI:10.1155/2022/3593922

U. Joshi, P. M. Shrestha, Suraj Maharjan, A. Bhattarai, N. Bhattarai, N. P. Chapagain, I. B. Karki, K. Poudyal

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引用次数: 1

Abstract

The amount of solar insolation that reaches the Earth in one hour is sufficient to fulfill its annual energy budget. One of the challenges for harvesting this energy is due to a lack of relevant data. In the least developed countries like Nepal, the number of observation stations is insufficient. This data gap can be filled by employing credible empirical models to estimate solar insolation in regions where insolation measurements are not available. In this paper, Angstrom–Prescott model parameters are estimated for fifteen different locations of Nepal. Then, correlation is developed for the prediction of solar insolation using only sunshine hour data. The different statistical parameters such as root mean square error (RMSE = 1.958), mean bias error (MBE = −0.018), mean percentage error (MPE = 2.973), coefficient of residual mass (CRM = 0.001), and correlation coefficient (r = 0.909) were used to validate the developed coefficients. The resulting Angstrom–Prescott coefficients are a = 0.239 and b = 0.508. These coefficients can be utilized for the prediction of solar energy at different parts of the country in similar weather conditions.

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利用尼泊尔日照时数估算太阳日照和Angstrom-Prescott系数

每小时到达地球的太阳辐射量足以满足地球一年的能量收支。收集这种能量的挑战之一是由于缺乏相关数据。在尼泊尔等最不发达国家，观测站的数量不足。这一数据缺口可以通过采用可靠的经验模型来估计无法获得日照测量的地区的太阳日照来填补。本文估计了尼泊尔15个不同地点的Angstrom-Prescott模式参数。然后，建立了仅利用日照时数预测太阳日晒的相关关系。采用均方根误差(RMSE = 1.958)、平均偏置误差(MBE =−0.018)、平均百分比误差(MPE = 2.973)、剩余质量系数(CRM = 0.001)和相关系数(r = 0.909)等统计参数对拟合系数进行验证。得到的埃斯特-普雷斯科特系数a = 0.239, b = 0.508。这些系数可用于类似天气条件下全国不同地区的太阳能预报。

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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来源期刊

Advances in Meteorology 地学天文-气象与大气科学

CiteScore

5.30

自引率

3.40%

发文量

审稿时长

>12 weeks

期刊介绍： Advances in Meteorology is a peer-reviewed, Open Access journal that publishes original research articles as well as review articles in all areas of meteorology and climatology. Topics covered include, but are not limited to, forecasting techniques and applications, meteorological modeling, data analysis, atmospheric chemistry and physics, climate change, satellite meteorology, marine meteorology, and forest meteorology.