Estimation of atmospheric turbidity over Adrar city in Algeria

Estimation of atmospheric turbidity over Adrar city in Algeria

Under a cloudless sky atmospheric turbidity causes attenuation of solar radiation reaching the earth's surface. The Linke’s turbidity factor (TL) and the Ångström’s turbidity coefficients (β) are the most frequently used atmospheric turbidity indices. TL and β are a key input for several models...

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Main Authors: Y. Marif, D. Bechki, M. Zerrouki, M.M. Belhadj, H. Bouguettaia, H. Benmoussa
Format: Article
Language:English
Published: Elsevier 2019-04-01
Series:Journal of King Saud University: Science
Online Access:http://www.sciencedirect.com/science/article/pii/S1018364717304391
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spelling doaj-67ebbec4aba4482daafc4be7197eb0af2020-11-25T02:17:46ZengElsevierJournal of King Saud University: Science1018-36472019-04-01312143149Estimation of atmospheric turbidity over Adrar city in AlgeriaY. Marif0D. Bechki1M. Zerrouki2M.M. Belhadj3H. Bouguettaia4H. Benmoussa5Univ. Ouargla, Fac. des Mathématiques et Sciences de la Matière, Lab. Développement des énergies nouvelles et renouvelables dans les zones arides et sahariennes, LENREZA, P.O. Box 511, Ouargla 30 000, Algeria; Corresponding author.Univ. Ouargla, Fac. des Mathématiques et Sciences de la Matière, Lab. Développement des énergies nouvelles et renouvelables dans les zones arides et sahariennes, LENREZA, P.O. Box 511, Ouargla 30 000, AlgeriaUniv. Ouargla, Fac. des Mathématiques et Sciences de la Matière, Lab. Développement des énergies nouvelles et renouvelables dans les zones arides et sahariennes, LENREZA, P.O. Box 511, Ouargla 30 000, AlgeriaUniv. Ouargla, Fac. des Mathématiques et Sciences de la Matière, Lab. Développement des énergies nouvelles et renouvelables dans les zones arides et sahariennes, LENREZA, P.O. Box 511, Ouargla 30 000, AlgeriaUniv. Ouargla, Fac. des Mathématiques et Sciences de la Matière, Lab. Développement des énergies nouvelles et renouvelables dans les zones arides et sahariennes, LENREZA, P.O. Box 511, Ouargla 30 000, AlgeriaDépartement de Mécanique, Faculté de Technologie, Université El Hadj Lakhdar, 05000 Batna, AlgeriaUnder a cloudless sky atmospheric turbidity causes attenuation of solar radiation reaching the earth's surface. The Linke’s turbidity factor (TL) and the Ångström’s turbidity coefficients (β) are the most frequently used atmospheric turbidity indices. TL and β are a key input for several models that assess the solar radiation under clear skies. In this paper, the Linke and Ångström turbidities were obtained from radiometric and meteorological data recorded in the Sahara desert area of Adrar region, Algeria, during October 2012–May 2015. It is observed that there is a high correlation between atmospheric turbidity caused by aerosols and meteorological parameters. A comparison has also been carried out with results acquired in Ghardaïa and Tamanrasset regions. In addition to verify the appropriateness of the theoretical Linke turbidity factor formula presented in Algerian solar atlas, the monthly mean theoretical values are compared with the experimental monthly average values. Keywords: Solar radiation, Atmospheric turbidity, Linke factor, Ångström coefficient, Adrarhttp://www.sciencedirect.com/science/article/pii/S1018364717304391
collection DOAJ
language English
format Article
sources DOAJ
author Y. Marif
D. Bechki
M. Zerrouki
M.M. Belhadj
H. Bouguettaia
H. Benmoussa
spellingShingle Y. Marif
D. Bechki
M. Zerrouki
M.M. Belhadj
H. Bouguettaia
H. Benmoussa
Estimation of atmospheric turbidity over Adrar city in Algeria
Journal of King Saud University: Science
author_facet Y. Marif
D. Bechki
M. Zerrouki
M.M. Belhadj
H. Bouguettaia
H. Benmoussa
author_sort Y. Marif
title Estimation of atmospheric turbidity over Adrar city in Algeria
title_short Estimation of atmospheric turbidity over Adrar city in Algeria
title_full Estimation of atmospheric turbidity over Adrar city in Algeria
title_fullStr Estimation of atmospheric turbidity over Adrar city in Algeria
title_full_unstemmed Estimation of atmospheric turbidity over Adrar city in Algeria
title_sort estimation of atmospheric turbidity over adrar city in algeria
publisher Elsevier
series Journal of King Saud University: Science
issn 1018-3647
publishDate 2019-04-01
description Under a cloudless sky atmospheric turbidity causes attenuation of solar radiation reaching the earth's surface. The Linke’s turbidity factor (TL) and the Ångström’s turbidity coefficients (β) are the most frequently used atmospheric turbidity indices. TL and β are a key input for several models that assess the solar radiation under clear skies. In this paper, the Linke and Ångström turbidities were obtained from radiometric and meteorological data recorded in the Sahara desert area of Adrar region, Algeria, during October 2012–May 2015. It is observed that there is a high correlation between atmospheric turbidity caused by aerosols and meteorological parameters. A comparison has also been carried out with results acquired in Ghardaïa and Tamanrasset regions. In addition to verify the appropriateness of the theoretical Linke turbidity factor formula presented in Algerian solar atlas, the monthly mean theoretical values are compared with the experimental monthly average values. Keywords: Solar radiation, Atmospheric turbidity, Linke factor, Ångström coefficient, Adrar
url http://www.sciencedirect.com/science/article/pii/S1018364717304391
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AT dbechki estimationofatmosphericturbidityoveradrarcityinalgeria
AT mzerrouki estimationofatmosphericturbidityoveradrarcityinalgeria
AT mmbelhadj estimationofatmosphericturbidityoveradrarcityinalgeria
AT hbouguettaia estimationofatmosphericturbidityoveradrarcityinalgeria
AT hbenmoussa estimationofatmosphericturbidityoveradrarcityinalgeria
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