A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
PCM containing indoor plaster for thermal comfort and energy saving in buildings
Phase change materials (PCM) are used with the aim to improve the thermal inertia of the buildings leading to an enhanced indoor thermal comfort and energy saving. This paper presents a new innovative plaster incorporating PCM for indoor use. Mechanical and thermal properties of the new material are herewith presented, as well as the fire resistance behaviour and life-time study undertaken by accelerated thermal cycling. After 4400 thermal cycles no changes were observed in the material properties and fire classification B was obtained according to standard UNE-EN 13501-1.Thermal simulations were performed to study the optimal distribution and amount of this material inside the building. Two cubicles of 2.5mx2.5mx2.5m were built to be monitored. The results showed that the new plaster is effective to diminish the thermal oscillations inside the buildings, with temperature peak decrease and energy saving in the range of 2 deg C and 10% respectively.
PCM containing indoor plaster for thermal comfort and energy saving in buildings
Phase change materials (PCM) are used with the aim to improve the thermal inertia of the buildings leading to an enhanced indoor thermal comfort and energy saving. This paper presents a new innovative plaster incorporating PCM for indoor use. Mechanical and thermal properties of the new material are herewith presented, as well as the fire resistance behaviour and life-time study undertaken by accelerated thermal cycling. After 4400 thermal cycles no changes were observed in the material properties and fire classification B was obtained according to standard UNE-EN 13501-1.Thermal simulations were performed to study the optimal distribution and amount of this material inside the building. Two cubicles of 2.5mx2.5mx2.5m were built to be monitored. The results showed that the new plaster is effective to diminish the thermal oscillations inside the buildings, with temperature peak decrease and energy saving in the range of 2 deg C and 10% respectively.
PCM containing indoor plaster for thermal comfort and energy saving in buildings
Phasenübergangsstoffe enthaltender Innenputz für thermische Behaglichkeit und Energieeinsparung in Gebäuden
Zamalloa, Alejo (author) / Embil, Maria Jose (author) / Zubillaga, Oihana (author) / Zuniga, Jon (author) / Cano, Francisco (author) / Flores, Ivan (author)
2008
7 Seiten, 5 Bilder, 1 Tabelle, 6 Quellen
(nicht paginiert)
Conference paper
Storage medium
English
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