Physical and mechanical characterization of gypsum boards containing phase change materials for latent heat storage

Physical and mechanical characterization of gypsum boards containing phase change materials for latent heat storage

This article describes the design and manufacture of a gypsum board which, despite its 45 % wt content of phase change materials, meets the minimum physical and mechanical requirements laid down in the legislation on gypsum plasters (Spanish and European standard UNE EN 13279 and Spanish specificati...

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Main Authors: A. Oliver-Ramírez, A. García-Santos, F. J. Neila-González
Format: Article
Language:English
Published: Consejo Superior de Investigaciones Científicas 2011-09-01
Series:Materiales de Construccion
Subjects:
gypsum
pcm
thermal energy
storage
latent heat
physical properties
mechanical properties
Online Access:http://materconstrucc.revistas.csic.es/index.php/materconstrucc/article/view/645
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spelling doaj-ec44e270fc8c4a7297030c1144e217162021-05-05T07:36:29ZengConsejo Superior de Investigaciones CientíficasMateriales de Construccion0465-27461988-32262011-09-016130346548410.3989/mc.2011.53309622Physical and mechanical characterization of gypsum boards containing phase change materials for latent heat storageA. Oliver-Ramírez0A. García-Santos1F. J. Neila-González2Universidad Politécnica de MadridUniversidad Politécnica de MadridUniversidad Politécnica de MadridThis article describes the design and manufacture of a gypsum board which, despite its 45 % wt content of phase change materials, meets the minimum physical and mechanical requirements laid down in the legislation on gypsum plasters (Spanish and European standard UNE EN 13279 and Spanish specifications for gypsum acceptance, RY 85). Under this design, a one-metre square, 1.5-cm thick board contains 4.75 kg of PCM, much more than in any prior drylining (the maximum attained to date is 3 kg per m2). The mechanical and physical characteristics of this new composite were previously improved with two joint-action additives: polypropylene fibres and melamine formaldehyde as a dispersing agent. In the 20-30 ºC temperature range, a gypsum board 1.5 cm thick containing this percentage of PCMs can store five times more thermal energy than conventional plasterboard of the same thickness, and the same amount of energy as half-foot hollow brick masonry.http://materconstrucc.revistas.csic.es/index.php/materconstrucc/article/view/645gypsumpcmthermal energystoragelatent heatphysical propertiesmechanical properties
collection DOAJ
language English
format Article
sources DOAJ
author A. Oliver-Ramírez
A. García-Santos
F. J. Neila-González
spellingShingle A. Oliver-Ramírez
A. García-Santos
F. J. Neila-González
Physical and mechanical characterization of gypsum boards containing phase change materials for latent heat storage
Materiales de Construccion
gypsum
pcm
thermal energy
storage
latent heat
physical properties
mechanical properties
author_facet A. Oliver-Ramírez
A. García-Santos
F. J. Neila-González
author_sort A. Oliver-Ramírez
title Physical and mechanical characterization of gypsum boards containing phase change materials for latent heat storage
title_short Physical and mechanical characterization of gypsum boards containing phase change materials for latent heat storage
title_full Physical and mechanical characterization of gypsum boards containing phase change materials for latent heat storage
title_fullStr Physical and mechanical characterization of gypsum boards containing phase change materials for latent heat storage
title_full_unstemmed Physical and mechanical characterization of gypsum boards containing phase change materials for latent heat storage
title_sort physical and mechanical characterization of gypsum boards containing phase change materials for latent heat storage
publisher Consejo Superior de Investigaciones Científicas
series Materiales de Construccion
issn 0465-2746
1988-3226
publishDate 2011-09-01
description This article describes the design and manufacture of a gypsum board which, despite its 45 % wt content of phase change materials, meets the minimum physical and mechanical requirements laid down in the legislation on gypsum plasters (Spanish and European standard UNE EN 13279 and Spanish specifications for gypsum acceptance, RY 85). Under this design, a one-metre square, 1.5-cm thick board contains 4.75 kg of PCM, much more than in any prior drylining (the maximum attained to date is 3 kg per m2). The mechanical and physical characteristics of this new composite were previously improved with two joint-action additives: polypropylene fibres and melamine formaldehyde as a dispersing agent. In the 20-30 ºC temperature range, a gypsum board 1.5 cm thick containing this percentage of PCMs can store five times more thermal energy than conventional plasterboard of the same thickness, and the same amount of energy as half-foot hollow brick masonry.
topic gypsum
pcm
thermal energy
storage
latent heat
physical properties
mechanical properties
url http://materconstrucc.revistas.csic.es/index.php/materconstrucc/article/view/645
work_keys_str_mv AT aoliverramirez physicalandmechanicalcharacterizationofgypsumboardscontainingphasechangematerialsforlatentheatstorage
AT agarciasantos physicalandmechanicalcharacterizationofgypsumboardscontainingphasechangematerialsforlatentheatstorage
AT fjneilagonzalez physicalandmechanicalcharacterizationofgypsumboardscontainingphasechangematerialsforlatentheatstorage
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