4.7 Article

Towards the determination of carbon dioxide retention in earthen materials

Journal

BUILDING AND ENVIRONMENT
Volume 239, Issue -, Pages -

Publisher

PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.buildenv.2023.110415

Keywords

Indoor air quality; Earthen materials; Carbon dioxide adsorption; Adsorption enthalpy; Thermogravimetry; Differential Scanning Calorimetry

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Due to its hygroscopic properties, raw earth can passively regulate indoor humidity. The high sorption properties of clay minerals in earth can also attract molecules like carbon dioxide (CO2), potentially buffering indoor CO2. This paper presents an innovative methodology using thermogravimetric (TG) and calorimetric (DSC) analysis to characterize the interactions between clay and CO2 at the microscopic level, focusing on the dry state. Results demonstrate a CO2 adsorption capacity of 134 mg/kg at 5000 ppm and 35 degrees C, along with reversible physisorption, providing initial evidence of indoor air's passive CO2 regulation capacity. The determination of adsorption enthalpies based on the amount adsorbed reveals high values (-74 kJ/mol to -40 kJ/mol), indicating strong energy heterogeneity of the material.
Thanks to its hygroscopic properties, raw earth can passively buffer indoor humidity. The high sorption properties of clay minerals present in earth also attract other molecules, such as carbon dioxide (CO2), this can potentially lead to indoor CO2 buffering. It would improve air quality in buildings and their resilience towards mechanised ventilation systems. However, there is currently no protocol to evaluate this potential. This paper aims to present a innovative methodology based on thermogravimetric (TG) and calorimetric (DSC) analysis to characterise the interactions between clay and CO2 at the microscopic scale by focusing on the dry state. Results show a CO2 adsorption capacity of 134 mg/kg at 5000 ppm at 35 degrees C associated with a reversible physisorption process and provides first evidence of a passive CO2 regulation capacity of the indoor air. Determination of the adsorption enthalpies as a function of the amount adsorbed revealed high values (from -74 kJ/mol to -40 kJ/mol) which are characteristic of a strong energetic heterogeneity of the material.

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