Prediction of Global, Diffused and Direct Solar Radiation for Oriented and Inclined Surface Based on Meteorological Data for efficient energy use in the south of Tunisia
The determination of solar radiation data at a given geographic location is very important for the development of solar applications and for the evaluation of their performances. The current paper provides the determinations for horizontal, inclined and oriented surface the global, diffuses and dire...
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Format: | Article |
Language: | Arabic |
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Faculty of engineering, Tanta University
2022-03-01
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Series: | Journal of Engineering Research - Egypt |
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Online Access: | https://erjeng.journals.ekb.eg/article_226538_bcecd6278a7e704d678220045dbbcc21.pdf |
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author | mahmoud ben amara Elhem Rdhaounia moncef balghouthi |
author_facet | mahmoud ben amara Elhem Rdhaounia moncef balghouthi |
author_sort | mahmoud ben amara |
collection | DOAJ |
description | The determination of solar radiation data at a given geographic location is very important for the development of solar applications and for the evaluation of their performances. The current paper provides the determinations for horizontal, inclined and oriented surface the global, diffuses and direct solar radiation by making the comparison between “MATLAB” simulation model and the climatology measured data for ten years provided by a high precision meteorological station installed in Tataouine (32°93′latitude, 10°45′ longitude) in the south of Tunisia where the available solar resources are very important. The global and direct solar radiation variability was assessed on hourly, monthly and seasonally scales. The statistical test methods were used in order to indicate the performance of the model. It shows a good potential for the use in estimating values of solar radiation components on different surface`s kinds in the nearby locations where measurements of the sunshine data are not available. Such accurate knowledge is very useful for the site selection of solar power plants for both photovoltaic and concentrated thermal systems. |
first_indexed | 2024-03-13T04:17:32Z |
format | Article |
id | doaj.art-3bdb54e68ee943aab4a8437817b3e899 |
institution | Directory Open Access Journal |
issn | 2356-9441 2735-4873 |
language | Arabic |
last_indexed | 2024-03-13T04:17:32Z |
publishDate | 2022-03-01 |
publisher | Faculty of engineering, Tanta University |
record_format | Article |
series | Journal of Engineering Research - Egypt |
spelling | doaj.art-3bdb54e68ee943aab4a8437817b3e8992023-06-20T20:00:04ZaraFaculty of engineering, Tanta UniversityJournal of Engineering Research - Egypt2356-94412735-48732022-03-0161667310.21608/erjeng.2022.114745.1047226538Prediction of Global, Diffused and Direct Solar Radiation for Oriented and Inclined Surface Based on Meteorological Data for efficient energy use in the south of Tunisiamahmoud ben amara0Elhem Rdhaounia1moncef balghouthi2Physics department, Faculty of sciences, University of Gabes (UnivGb), TunisiaPhysics department, Faculty of sciences, University of Gabes (UnivGb), TunisiaReaserch Center of Energy CRTEn TunisiaThe determination of solar radiation data at a given geographic location is very important for the development of solar applications and for the evaluation of their performances. The current paper provides the determinations for horizontal, inclined and oriented surface the global, diffuses and direct solar radiation by making the comparison between “MATLAB” simulation model and the climatology measured data for ten years provided by a high precision meteorological station installed in Tataouine (32°93′latitude, 10°45′ longitude) in the south of Tunisia where the available solar resources are very important. The global and direct solar radiation variability was assessed on hourly, monthly and seasonally scales. The statistical test methods were used in order to indicate the performance of the model. It shows a good potential for the use in estimating values of solar radiation components on different surface`s kinds in the nearby locations where measurements of the sunshine data are not available. Such accurate knowledge is very useful for the site selection of solar power plants for both photovoltaic and concentrated thermal systems.https://erjeng.journals.ekb.eg/article_226538_bcecd6278a7e704d678220045dbbcc21.pdfsolar radiationinclined and oriented surfacemeteorological parametersenergysouth of tunisia |
spellingShingle | mahmoud ben amara Elhem Rdhaounia moncef balghouthi Prediction of Global, Diffused and Direct Solar Radiation for Oriented and Inclined Surface Based on Meteorological Data for efficient energy use in the south of Tunisia Journal of Engineering Research - Egypt solar radiation inclined and oriented surface meteorological parameters energy south of tunisia |
title | Prediction of Global, Diffused and Direct Solar Radiation for Oriented and Inclined Surface Based on Meteorological Data for efficient energy use in the south of Tunisia |
title_full | Prediction of Global, Diffused and Direct Solar Radiation for Oriented and Inclined Surface Based on Meteorological Data for efficient energy use in the south of Tunisia |
title_fullStr | Prediction of Global, Diffused and Direct Solar Radiation for Oriented and Inclined Surface Based on Meteorological Data for efficient energy use in the south of Tunisia |
title_full_unstemmed | Prediction of Global, Diffused and Direct Solar Radiation for Oriented and Inclined Surface Based on Meteorological Data for efficient energy use in the south of Tunisia |
title_short | Prediction of Global, Diffused and Direct Solar Radiation for Oriented and Inclined Surface Based on Meteorological Data for efficient energy use in the south of Tunisia |
title_sort | prediction of global diffused and direct solar radiation for oriented and inclined surface based on meteorological data for efficient energy use in the south of tunisia |
topic | solar radiation inclined and oriented surface meteorological parameters energy south of tunisia |
url | https://erjeng.journals.ekb.eg/article_226538_bcecd6278a7e704d678220045dbbcc21.pdf |
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