Theoretical analysis and mathematical modeling of a solar cogeneration system in Morocco

Theoretical analysis and mathematical modeling of a solar cogeneration system in Morocco

This article is part of a theoretical study based on the mathematical analysis of the new technology of solar cogeneration using the parabolic trough concentrator and the photovoltaic cell. Our main objective is to study the thermal performance of the parabolic cylindrical concentrator in the Rabat-...

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Main Authors: Saad Eddin Lachhab, A. Bliya, E. Al Ibrahmi, L. Dlimi
Format: Article
Language:English
Published: AIMS Press 2019-11-01
Series:AIMS Energy
Subjects:
solar cogeneration
parabolic trough collector
energy balance
rk4
Online Access:https://www.aimspress.com/article/10.3934/energy.2019.6.743/fulltext.html
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spelling doaj-e3c0af3d25934bfd9ea64849c567e7772020-11-25T02:18:55ZengAIMS PressAIMS Energy2333-83262333-83342019-11-017674375910.3934/energy.2019.6.743Theoretical analysis and mathematical modeling of a solar cogeneration system in MoroccoSaad Eddin Lachhab0 A. Bliya1E. Al Ibrahmi2L. Dlimi3Laboratory of Renewable Energies and Environment, Faculty of Sciences, Ibn Tofail University, BP. 133. 14000-Kenitra, MoroccoLaboratory of Renewable Energies and Environment, Faculty of Sciences, Ibn Tofail University, BP. 133. 14000-Kenitra, MoroccoLaboratory of Renewable Energies and Environment, Faculty of Sciences, Ibn Tofail University, BP. 133. 14000-Kenitra, MoroccoLaboratory of Renewable Energies and Environment, Faculty of Sciences, Ibn Tofail University, BP. 133. 14000-Kenitra, MoroccoThis article is part of a theoretical study based on the mathematical analysis of the new technology of solar cogeneration using the parabolic trough concentrator and the photovoltaic cell. Our main objective is to study the thermal performance of the parabolic cylindrical concentrator in the Rabat-Salé-Kénitra region of Morocco. The methodology is based on solving the energy balance equation of the thermal collector whose elements are the absorber, glass and fluid. The performance of these equations is obtained by the Runge Kutta (RK4) method based on experimental data extracted from the PVGIS software. The numerical solution is found by the Matlab code. The validation test is verified on the studied region of Rabat-Salé-Kénitra. The results of the comparison between the numerical solution and the experimental data corresponding to the different temperature of the thermal collector are encouraging. Finally the thermal performance of the collector is satisfied.https://www.aimspress.com/article/10.3934/energy.2019.6.743/fulltext.htmlsolar cogenerationparabolic trough collectorenergy balancerk4
collection DOAJ
language English
format Article
sources DOAJ
author Saad Eddin Lachhab
A. Bliya
E. Al Ibrahmi
L. Dlimi
spellingShingle Saad Eddin Lachhab
A. Bliya
E. Al Ibrahmi
L. Dlimi
Theoretical analysis and mathematical modeling of a solar cogeneration system in Morocco
AIMS Energy
solar cogeneration
parabolic trough collector
energy balance
rk4
author_facet Saad Eddin Lachhab
A. Bliya
E. Al Ibrahmi
L. Dlimi
author_sort Saad Eddin Lachhab
title Theoretical analysis and mathematical modeling of a solar cogeneration system in Morocco
title_short Theoretical analysis and mathematical modeling of a solar cogeneration system in Morocco
title_full Theoretical analysis and mathematical modeling of a solar cogeneration system in Morocco
title_fullStr Theoretical analysis and mathematical modeling of a solar cogeneration system in Morocco
title_full_unstemmed Theoretical analysis and mathematical modeling of a solar cogeneration system in Morocco
title_sort theoretical analysis and mathematical modeling of a solar cogeneration system in morocco
publisher AIMS Press
series AIMS Energy
issn 2333-8326
2333-8334
publishDate 2019-11-01
description This article is part of a theoretical study based on the mathematical analysis of the new technology of solar cogeneration using the parabolic trough concentrator and the photovoltaic cell. Our main objective is to study the thermal performance of the parabolic cylindrical concentrator in the Rabat-Salé-Kénitra region of Morocco. The methodology is based on solving the energy balance equation of the thermal collector whose elements are the absorber, glass and fluid. The performance of these equations is obtained by the Runge Kutta (RK4) method based on experimental data extracted from the PVGIS software. The numerical solution is found by the Matlab code. The validation test is verified on the studied region of Rabat-Salé-Kénitra. The results of the comparison between the numerical solution and the experimental data corresponding to the different temperature of the thermal collector are encouraging. Finally the thermal performance of the collector is satisfied.
topic solar cogeneration
parabolic trough collector
energy balance
rk4
url https://www.aimspress.com/article/10.3934/energy.2019.6.743/fulltext.html
work_keys_str_mv AT saadeddinlachhab theoreticalanalysisandmathematicalmodelingofasolarcogenerationsysteminmorocco
AT abliya theoreticalanalysisandmathematicalmodelingofasolarcogenerationsysteminmorocco
AT ealibrahmi theoreticalanalysisandmathematicalmodelingofasolarcogenerationsysteminmorocco
AT ldlimi theoreticalanalysisandmathematicalmodelingofasolarcogenerationsysteminmorocco
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