TITLE:
Performance of Incoming Solar Radiation Components in Partial Annular Solar Eclipse on June 21st, 2020 in Helwan, Egypt
AUTHORS:
Samy A. Khalil, A. H. Hassan, U. Ali Rahoma, A. Abulwfa, Ashraf S. Khamees
KEYWORDS:
Solar Radiation Components, Annular Solar Eclipse, Color Portion, Transparency and Link and Angstrom Turbidity
JOURNAL NAME:
Open Journal of Applied Sciences,
Vol.11 No.3,
March
18,
2021
ABSTRACT: Observing and studying the solar radiation during solar eclipses is important in knowing the changes that occur to the environmental elements during this event. The main objective of this paper is the performance of the incoming variation of solar radiation components, global, direct and diffuse and their fractions during the partial annular solar eclipse on June 21st, 2020 in Helwan, Egypt (Lat. 29.866°N and Long. 31.20°E) has been made. A pyrheliometer for measuring the direct solar radiation, in three different bands; direct yellow (Y), direct red (R), direct infrared (IR), and also the total direct band (I); A pyranometers for measuring the different components of global solar radiation (G), global ultraviolet (GUV), global infrared (GIR) and a meteorological station to measure the different meteorological parameters. The duration of the solar eclipse was 01 h:59 m, and the maximum magnitude of the eclipse in this region was 0.449. The depression is clear at the solar radiation of all components due to the annular solar eclipse, while the depressions of the diffuse and global infrared solar radiation are lower. In all direct radiation compounds (I,Y,RandIR) are greatly affected by the eclipse. The diffuse fractionKdis higher in the early time, before the partial eclipse, but during the partial annular eclipse timeKdvalues are suffers variation and through the day, where the values ofKdlies betweenKtandKUV. The values of direct infrared solar radiation are dominant before and after the partial annular solar eclipse. The intensity of color bands (W∙m−2∙nm−1) areDIB3 >DIB2 >DIB4, andDIB1 is opposite direction withDIB3 andDIB2, the highest intensity is direct red and the lowest intensity is the direct infrared. The highest values of extinction coefficient in (GIR) solar radiation and the lowest values occur in (GUV) solar radiation, while the values of (G) solar radiation occur between them. In general trend, the values of extinction coefficient during the partial eclipse are increasing, while the minimum values of extinction coefficient occur at noon time due to the air mass is less value in the noon.