Effect of the thermal insulators on the thermal and energetic performance of the envelope of a house located in Marrakesh

Thermal insulation has become essential, firstly to ensure the thermal comfort of the occupants and secondly to save energy and that’s why we find more and more varieties of insulators (organic, inorganic and synthetic) in the Moroccan market, depending on the need when to make the right choice. Thi...

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Main Authors: Farah Eddib, Moulay Abdellah Lamrani
Format: Article
Language:English
Published: Elsevier 2019-09-01
Series:Alexandria Engineering Journal
Online Access:http://www.sciencedirect.com/science/article/pii/S1110016819300821
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spelling doaj-d139cc4035af4686831649ec41588ab22021-06-02T04:55:19ZengElsevierAlexandria Engineering Journal1110-01682019-09-01583937944Effect of the thermal insulators on the thermal and energetic performance of the envelope of a house located in MarrakeshFarah Eddib0Moulay Abdellah Lamrani1Corresponding author.; Department of Physics, Cadi Ayyad University, Marrakesh, MoroccoDepartment of Physics, Cadi Ayyad University, Marrakesh, MoroccoThermal insulation has become essential, firstly to ensure the thermal comfort of the occupants and secondly to save energy and that’s why we find more and more varieties of insulators (organic, inorganic and synthetic) in the Moroccan market, depending on the need when to make the right choice. This paper presents the theoretical part of a thermal and an energetic study of the envelop of a house located in the city of Marrakesh (Morocco), by using four types of insulators, that are mostly used in Moroccan markets, for different thicknesses to determine the most suitable insulator for Marrakech climate and its optimal thickness. The insulators studied are: Expanded Polystyrene, glass wool, rock wool and wood fiber. The numerical simulations were realized using the software of thermal dynamic simulation TRNSYS. The results show that for a thickness of 8 cm of the wood fiber insulator saves about 7% for heating and 14% for cooling loads. For temperatures, in January temperatures are higher by 0.26 °C, and in July are lower by 0.49 °C. Keywords: Thermal comfort, Energy consumption, Thermal insulation, Thermal dynamic simulation, TRNSYShttp://www.sciencedirect.com/science/article/pii/S1110016819300821
collection DOAJ
language English
format Article
sources DOAJ
author Farah Eddib
Moulay Abdellah Lamrani
spellingShingle Farah Eddib
Moulay Abdellah Lamrani
Effect of the thermal insulators on the thermal and energetic performance of the envelope of a house located in Marrakesh
Alexandria Engineering Journal
author_facet Farah Eddib
Moulay Abdellah Lamrani
author_sort Farah Eddib
title Effect of the thermal insulators on the thermal and energetic performance of the envelope of a house located in Marrakesh
title_short Effect of the thermal insulators on the thermal and energetic performance of the envelope of a house located in Marrakesh
title_full Effect of the thermal insulators on the thermal and energetic performance of the envelope of a house located in Marrakesh
title_fullStr Effect of the thermal insulators on the thermal and energetic performance of the envelope of a house located in Marrakesh
title_full_unstemmed Effect of the thermal insulators on the thermal and energetic performance of the envelope of a house located in Marrakesh
title_sort effect of the thermal insulators on the thermal and energetic performance of the envelope of a house located in marrakesh
publisher Elsevier
series Alexandria Engineering Journal
issn 1110-0168
publishDate 2019-09-01
description Thermal insulation has become essential, firstly to ensure the thermal comfort of the occupants and secondly to save energy and that’s why we find more and more varieties of insulators (organic, inorganic and synthetic) in the Moroccan market, depending on the need when to make the right choice. This paper presents the theoretical part of a thermal and an energetic study of the envelop of a house located in the city of Marrakesh (Morocco), by using four types of insulators, that are mostly used in Moroccan markets, for different thicknesses to determine the most suitable insulator for Marrakech climate and its optimal thickness. The insulators studied are: Expanded Polystyrene, glass wool, rock wool and wood fiber. The numerical simulations were realized using the software of thermal dynamic simulation TRNSYS. The results show that for a thickness of 8 cm of the wood fiber insulator saves about 7% for heating and 14% for cooling loads. For temperatures, in January temperatures are higher by 0.26 °C, and in July are lower by 0.49 °C. Keywords: Thermal comfort, Energy consumption, Thermal insulation, Thermal dynamic simulation, TRNSYS
url http://www.sciencedirect.com/science/article/pii/S1110016819300821
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