In order to reduce the carbon emissions resulting from buildings constructions, some non-conventional materials are emerging, especially the ones of natural origin. In this scenario new building components have been developed as thermal insulating systems such as wood, straw, and cork. In the present paper a multi-sheet wall was investigated by analyzing the thermal properties of each layer by means of a new experimental apparatus named Small Hot-Box. It is composed from the outside towards the inside by a ‘cocciopesto’ mortar, a thick layer of straw, a wooden planking, an air interspace of about 5 cm, and a final raw earth plaster, for a total thickness of about 50 cm. Results showed thermal conductivities in accordance to Literature values both for the wood (0.089 W/mK) and for the straw (0.065 W/mK). For the ‘cocciopesto’ and the earth-based plasters no many Literature data are available: the thermal conductivities are equal to 0.92 and 0.98 W/mK respectively. The total thermal transmittance of the wall could be estimated by combining the results and considering the real scale thickness of each layer.

An innovative multilayer wall composed of natural materials: experimental characterization of the thermal properties and comparison with other solutions

Cinzia Buratti
Writing – Review & Editing
;
Elisa Belloni
Writing – Original Draft Preparation
;
Francesca Merli
Investigation
;
2018

Abstract

In order to reduce the carbon emissions resulting from buildings constructions, some non-conventional materials are emerging, especially the ones of natural origin. In this scenario new building components have been developed as thermal insulating systems such as wood, straw, and cork. In the present paper a multi-sheet wall was investigated by analyzing the thermal properties of each layer by means of a new experimental apparatus named Small Hot-Box. It is composed from the outside towards the inside by a ‘cocciopesto’ mortar, a thick layer of straw, a wooden planking, an air interspace of about 5 cm, and a final raw earth plaster, for a total thickness of about 50 cm. Results showed thermal conductivities in accordance to Literature values both for the wood (0.089 W/mK) and for the straw (0.065 W/mK). For the ‘cocciopesto’ and the earth-based plasters no many Literature data are available: the thermal conductivities are equal to 0.92 and 0.98 W/mK respectively. The total thermal transmittance of the wall could be estimated by combining the results and considering the real scale thickness of each layer.
2018
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11391/1444019
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