The Impact of Arid Climate on the Indoor Thermal Comfort in the South-East of Morocco

The Impact of Arid Climate on the Indoor Thermal Comfort in the South-East of Morocco

The main objective of this work is to study the heat transfer through an administrative building’s envelope in Errachidia City in Morocco. A numerical simulation based on the finite element method was made to describe the effect of introducing several thermal insulators (air, hemp wool, glass wool,...

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Main Authors: Lamya Lairgi, Rachid Lagtayi, Abdelmajid Daya, Rabie Elotmani, Mohammed Touzani
Format: Article
Language:English
Published: Hindawi Limited 2021-01-01
Series:International Journal of Photoenergy
Online Access:http://dx.doi.org/10.1155/2021/5554629
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spelling doaj-039fc00bee914274a6ba0b8c9c8375bc2021-09-06T00:01:39ZengHindawi LimitedInternational Journal of Photoenergy1687-529X2021-01-01202110.1155/2021/5554629The Impact of Arid Climate on the Indoor Thermal Comfort in the South-East of MoroccoLamya Lairgi0Rachid Lagtayi1Abdelmajid Daya2Rabie Elotmani3Mohammed Touzani4Department of PhysicsDepartment of SciencesDepartment of PhysicsSciences for Energy Laboratory LabSIPEDepartment of PhysicsThe main objective of this work is to study the heat transfer through an administrative building’s envelope in Errachidia City in Morocco. A numerical simulation based on the finite element method was made to describe the effect of introducing several thermal insulators (air, hemp wool, glass wool, rock wool, and extruded polystyrene) of different thicknesses (5 cm, 10 cm, and 15 cm) on the heat transfer through the building’s envelope under different climatic conditions. For the stationary regime, the summer period was chosen on August 7th, 2019, at 17 h, while the winter period was opted on January 1st, 2020, at 7 h. Otherwise, for the transitional regime, the summer period was chosen from August 1st to 8th, 2019, and the winter period from January first to 8th, 2020. The physical model analyzes the temperature variation at the different layers of the wall. It depends on the indoor temperature, the instantaneous climatic conditions of the outdoor air, solar radiations, and the thermal properties of the building’s envelope. The results show that the air gap is a good thermal insulator; it acts as a damper of temperature and heat flux.http://dx.doi.org/10.1155/2021/5554629
collection DOAJ
language English
format Article
sources DOAJ
author Lamya Lairgi
Rachid Lagtayi
Abdelmajid Daya
Rabie Elotmani
Mohammed Touzani
spellingShingle Lamya Lairgi
Rachid Lagtayi
Abdelmajid Daya
Rabie Elotmani
Mohammed Touzani
The Impact of Arid Climate on the Indoor Thermal Comfort in the South-East of Morocco
International Journal of Photoenergy
author_facet Lamya Lairgi
Rachid Lagtayi
Abdelmajid Daya
Rabie Elotmani
Mohammed Touzani
author_sort Lamya Lairgi
title The Impact of Arid Climate on the Indoor Thermal Comfort in the South-East of Morocco
title_short The Impact of Arid Climate on the Indoor Thermal Comfort in the South-East of Morocco
title_full The Impact of Arid Climate on the Indoor Thermal Comfort in the South-East of Morocco
title_fullStr The Impact of Arid Climate on the Indoor Thermal Comfort in the South-East of Morocco
title_full_unstemmed The Impact of Arid Climate on the Indoor Thermal Comfort in the South-East of Morocco
title_sort impact of arid climate on the indoor thermal comfort in the south-east of morocco
publisher Hindawi Limited
series International Journal of Photoenergy
issn 1687-529X
publishDate 2021-01-01
description The main objective of this work is to study the heat transfer through an administrative building’s envelope in Errachidia City in Morocco. A numerical simulation based on the finite element method was made to describe the effect of introducing several thermal insulators (air, hemp wool, glass wool, rock wool, and extruded polystyrene) of different thicknesses (5 cm, 10 cm, and 15 cm) on the heat transfer through the building’s envelope under different climatic conditions. For the stationary regime, the summer period was chosen on August 7th, 2019, at 17 h, while the winter period was opted on January 1st, 2020, at 7 h. Otherwise, for the transitional regime, the summer period was chosen from August 1st to 8th, 2019, and the winter period from January first to 8th, 2020. The physical model analyzes the temperature variation at the different layers of the wall. It depends on the indoor temperature, the instantaneous climatic conditions of the outdoor air, solar radiations, and the thermal properties of the building’s envelope. The results show that the air gap is a good thermal insulator; it acts as a damper of temperature and heat flux.
url http://dx.doi.org/10.1155/2021/5554629
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