Instrumentation and experimental hygrothermal investigations of a raw compressed earth brick house in Sense-City equipment: From material to building scaleDataverse

Instrumentation and experimental hygrothermal investigations of a raw compressed earth brick house in Sense-City equipment: From material to building scaleDataverse

Raw earth is a material of interest in the building sector. It has the advantages of being sustainable, being readily available and having a low-energy manufacturing process. Unfortunately, only a few case studies of instrumented earthen houses exist in the literature. Thus, a raw compressed earth b...

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Main Authors: Julien Waeytens, Myriam Duc, Yan Ulanowski, Laurent Ibos, Thibaut Colinart, Hadi Nasser, Mostafa Mortada, Hamza Allam, Abderrahim Boudenne, Nicolas Dujardin, Kamel Zibouche, Etienne Gourlay, Jean-Pierre Monchau, Fionn McGregor
Format: Article
Language:English
Published: Elsevier 2025-07-01
Series:Case Studies in Construction Materials
Subjects:
Instrumentation
Experiments
Measurement data analysis
Earth construction
Hygrothermal behavior
Sense-City
Online Access:http://www.sciencedirect.com/science/article/pii/S2214509525005121
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Summary:Raw earth is a material of interest in the building sector. It has the advantages of being sustainable, being readily available and having a low-energy manufacturing process. Unfortunately, only a few case studies of instrumented earthen houses exist in the literature. Thus, a raw compressed earth brick (CEB) test house was specifically built and extensively instrumented for research purposes in Sense-City equipment at Champs-sur-Marne, France. A wide variety of sensors were deployed in the walls and in the indoor and outdoor environments for monitoring energy efficiency, hygrothermal behavior and thermal comfort. The CEB was studied from the material scale with chemical and hygrothermal characterization tests to the building scale during different seasons. After the instrumentation and practical techniques for the placement of temperature and humidity sensors in the walls and of heat flux sensors on wall surfaces for long-term monitoring were presented, an experimental analysis of the sensor outputs was carried out. Although the low wall thermal resistance was estimated at 0.34 m2.K.W-1 via the ISO 9869-1 standard method, the CEB hygroscopic wall had the abilities to regulate the indoor temperature and humidity and dampen and delay hot outdoor temperatures during summer heat waves. Especially in winter periods, concerning the humidity in walls, we observed different humidity levels depending on wall orientation and height-dependent humidity variation in walls exposed to rain. All the measurement data are provided in the associated data article.
ISSN:2214-5095

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