Data on combination of parabolic solar system with CH4 cycle and power tower solar system with Cu–Cl cycle for hydrogen production in the city of Ghardaia (Algeria)

Data on combination of parabolic solar system with CH4 cycle and power tower solar system with Cu–Cl cycle for hydrogen production in the city of Ghardaia (Algeria)

This data show the combination of parabolic through solar system with CH4 cycle and power tower solar system with Cu–Cl cycle for hydrogen production capacity in the city of Gharadaia which is located in the south of Algeria. A proper measurement of meteorological factors such as temperature, humidi...

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Main Authors: Chawki Ameur menad, Rabah Gomri, Djemoui Lalmi
Format: Article
Language:English
Published: Elsevier 2018-12-01
Series:Data in Brief
Online Access:http://www.sciencedirect.com/science/article/pii/S2352340918313271
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spelling doaj-5fb7ed9c7efc4480b60eb38fb59952c22020-11-25T02:18:59ZengElsevierData in Brief2352-34092018-12-012112671276Data on combination of parabolic solar system with CH4 cycle and power tower solar system with Cu–Cl cycle for hydrogen production in the city of Ghardaia (Algeria)Chawki Ameur menad0Rabah Gomri1Djemoui Lalmi2Climatic Department, University Mentouri Constantine 1, 25000 Constantine, Algeria; Corresponding author.Climatic Department, University Mentouri Constantine 1, 25000 Constantine, AlgeriaResearch Unit in Applied Renewable Energy (URAER-CDER), BP:88, Gart Team ZI, 47133 Bounoura, Ghardaia, AlgeriaThis data show the combination of parabolic through solar system with CH4 cycle and power tower solar system with Cu–Cl cycle for hydrogen production capacity in the city of Gharadaia which is located in the south of Algeria. A proper measurement of meteorological factors such as temperature, humidity, and solar irradiation has been done in the city of Ghardaia due to the solar concentration in this city. In the meantime thermo-chemical systems (Cu–Cl, CH4 cycles) have been integrated with the thermal solar systems through.http://www.sciencedirect.com/science/article/pii/S2352340918313271
collection DOAJ
language English
format Article
sources DOAJ
author Chawki Ameur menad
Rabah Gomri
Djemoui Lalmi
spellingShingle Chawki Ameur menad
Rabah Gomri
Djemoui Lalmi
Data on combination of parabolic solar system with CH4 cycle and power tower solar system with Cu–Cl cycle for hydrogen production in the city of Ghardaia (Algeria)
Data in Brief
author_facet Chawki Ameur menad
Rabah Gomri
Djemoui Lalmi
author_sort Chawki Ameur menad
title Data on combination of parabolic solar system with CH4 cycle and power tower solar system with Cu–Cl cycle for hydrogen production in the city of Ghardaia (Algeria)
title_short Data on combination of parabolic solar system with CH4 cycle and power tower solar system with Cu–Cl cycle for hydrogen production in the city of Ghardaia (Algeria)
title_full Data on combination of parabolic solar system with CH4 cycle and power tower solar system with Cu–Cl cycle for hydrogen production in the city of Ghardaia (Algeria)
title_fullStr Data on combination of parabolic solar system with CH4 cycle and power tower solar system with Cu–Cl cycle for hydrogen production in the city of Ghardaia (Algeria)
title_full_unstemmed Data on combination of parabolic solar system with CH4 cycle and power tower solar system with Cu–Cl cycle for hydrogen production in the city of Ghardaia (Algeria)
title_sort data on combination of parabolic solar system with ch4 cycle and power tower solar system with cu–cl cycle for hydrogen production in the city of ghardaia (algeria)
publisher Elsevier
series Data in Brief
issn 2352-3409
publishDate 2018-12-01
description This data show the combination of parabolic through solar system with CH4 cycle and power tower solar system with Cu–Cl cycle for hydrogen production capacity in the city of Gharadaia which is located in the south of Algeria. A proper measurement of meteorological factors such as temperature, humidity, and solar irradiation has been done in the city of Ghardaia due to the solar concentration in this city. In the meantime thermo-chemical systems (Cu–Cl, CH4 cycles) have been integrated with the thermal solar systems through.
url http://www.sciencedirect.com/science/article/pii/S2352340918313271
work_keys_str_mv AT chawkiameurmenad dataoncombinationofparabolicsolarsystemwithch4cycleandpowertowersolarsystemwithcuclcycleforhydrogenproductioninthecityofghardaiaalgeria
AT rabahgomri dataoncombinationofparabolicsolarsystemwithch4cycleandpowertowersolarsystemwithcuclcycleforhydrogenproductioninthecityofghardaiaalgeria
AT djemouilalmi dataoncombinationofparabolicsolarsystemwithch4cycleandpowertowersolarsystemwithcuclcycleforhydrogenproductioninthecityofghardaiaalgeria
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