Evolution of the Average Temperature of the Interior Atmosphere of a Habitable Cell Made of Foamed Concrete in Burkina Faso

Ouédraogo, Adelaïde Lareba; Malbila, Etienne; Dabilgou, Dieudonné; Amadou, Fati Oumarou; Ouédraogo, Souleymane; Ouédraogo, Salifou; Messan, Adamah; Kam, Sié; Bathiébo, Dieudonné Joseph; Kieno, Florent P.; Blanchart, Philippe

doi:10.9734/psij/2022/v26i230308

PSIJ

2022

DOI: 10.9734/psij/2022/v26i230308

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Evolution of the Average Temperature of the Interior Atmosphere of a Habitable Cell Made of Foamed Concrete in Burkina Faso

Adelaïde Lareba Ouédraogo

Etienne Malbila

Dieudonné Dabilgou

et al.

Abstract: Aims: The energy domain is responsible for the production of many gaseous, liquid and solid pollutants, strongly contributing to climate change. The provision of bioclimatic habitats to households is therefore necessary since it will contribute to the reduction of energy consumption. This work consists in making a study of the thermal behavior of a habitat designed with foamed concrete (FC) in order to evaluate its thermal performance for the improvement of its thermal comfort and to compare its average intern… Show more

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2024

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Optimization of Thermal Comfort in Compressed Earth Block (CEB) Buildings in Burkina Faso

Maiga,

Sagna,

Toussakoe

et al. 2024

SJEE

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The objective of this study is to evaluate the impact of orientation on the thermal comfort of bioclimatic buildings in general, and in particular those built with compressed earth blocks. A first experimental study confirmed that compressed earth blocks have good thermal inertia, and made it possible to determine the number of annual hours of thermal comfort in the room. The results showed a thermal phase shift of 6 hours with a temperature difference of 10°C between the outside and the inside of the room, for an annual total of 4788 hours of comfort (54.65%) compared to 2158 hours of discomfort (49.80%), with a hygrothermal index (HIT) of 1.6 and an annual cooling requirement of 753.55 kWh. Subsequently, dynamic thermal simulations (DTS) carried out on different orientations made it possible to optimize the thermal comfort and energy consumption of the premises studied. The NORTHEAST and SOUTH-EAST orientation of the facades, with the two windows of the premises, made it possible to achieve 78.1% thermal comfort, or 6833 hours, a HIT of 0.5 and an annual power requirement of cooling of 523.78 kWh. Finally, similar work was carried out to propose optimal orientations for bioclimatic buildings in the three climatic zones of Burkina Faso.

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Optimization of Thermal Comfort in Compressed Earth Block (CEB) Buildings in Burkina Faso

Maiga,

Sagna,

Toussakoe

et al. 2024

SJEE

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show abstract

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Evolution of the Average Temperature of the Interior Atmosphere of a Habitable Cell Made of Foamed Concrete in Burkina Faso

Cited by 1 publication

References 15 publications

Optimization of Thermal Comfort in Compressed Earth Block (CEB) Buildings in Burkina Faso

Optimization of Thermal Comfort in Compressed Earth Block (CEB) Buildings in Burkina Faso

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