Caracterización térmica de placas de yeso con material de cambio de fase incorporado

Oliver, A.; Neila, F. J.; García, A.

doi:10.3989/ic.09.036

Cited by 5 publications

(4 citation statements)

References 10 publications

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“…This causes a rapid setting of the material [ 3 ]. Adhesion capacity to ceramic materials and a high capacity of hygrothermal regulation are also properties that make it an ideal interior coating [ 4 ]. High surface hardness that evolves inversely with the water content and its good acoustic and fireproof insulation also contribute to its great performance in buildings.…”

Section: Introductionmentioning

confidence: 99%

Characterization of a New Lightened Gypsum-Based Material Reinforced with Fibers

2021

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This paper shows the characterization of a new lightened gypsum-based material for use in buildings. A plaster material has been designed with a polymeric compound based on polyvinyl acetate, bicarbonate and a boric acid solution, which reduce the density and thermal conductivity by up to 20% and 30%, respectively. In addition, tests have been carried out with the lightened plaster material reinforced with glass (GF), basalt (BF), polypropylene (PPF) and wood (WF) fibers. A significant improvement in mechanical properties was achieved. All samples obtained resistance values greater than 2 MPa in flexion and 3 MPa in compression. Physico-chemical analysis were also carried out. The study is completed with a statistical analysis, where confidence intervals have been obtained for the mean at 95% confidence for each of the physical properties studied.

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Section: Introductionmentioning

confidence: 99%

Characterization of a New Lightened Gypsum-Based Material Reinforced with Fibers

2021

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“…Reported concrete solutions may contain about 5% in weight [31]. For gypsum board applications, PCM usually ranges from 26% to 44.5% in weight, according to Oliver, Neila and García [32]. Micronal powder solutions from BASF [33] are the most commonly used.…”

Section: Pcm-based Scenariosmentioning

confidence: 99%

Passive cooling through phase change materials in buildings. A critical study of implementation alternatives

et al. 2019

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“…The applications of PCM can be extended to several disciplines such as medicine, sports and construction [8][9]. The integration of PCM in building materials such as concrete, ceramics, glass and hollow brick [10][11][12][13][14][15][16] is a way to enhance the storage capacity of building envelope and then to rationalize the use of renewable and non-renewable energies.…”

Section: Introductionmentioning

confidence: 99%

Numerical study of building materials filled by PCM for thermal energy storage

Souci¹,

Houat²

2018

Epitoanyag - JSBCM

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Phase change material (PCMs) is used to equilibrate the temperature fluctuation and to store energy in several practical application areas such as electronics, automobile industry and also buildings. In this paper, an example of the application of phase change material in the building application is investigated. The physical problem of phase change is solved by using a numerical study based on the finite element method. The PCM selected in this study, is incorporated directly within the building materials for improving its capacity of thermal storage. Two different building materials are selected according to their usual applying as construction materials for residential buildings. The numerical results have been checked and validated with an experimental model and the error is estimated. The results reveal the potential of PCM in the enhancement on the thermal inertia of the wall and effectively reduced the fluctuation of the interior surface temperature. In addition, with the increasing filling amount of PCM, the thermal response of the building material will be more effective through improving its thermal insulation and stored more of energy as a latent heat.

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Caracterización térmica de placas de yeso con material de cambio de fase incorporado

Cited by 5 publications

References 10 publications

Characterization of a New Lightened Gypsum-Based Material Reinforced with Fibers

Characterization of a New Lightened Gypsum-Based Material Reinforced with Fibers

Passive cooling through phase change materials in buildings. A critical study of implementation alternatives

Numerical study of building materials filled by PCM for thermal energy storage

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