Experimental and numerical thermal performance assessment of a multi-layer building envelope component made of biocomposite materials

Beñat Arregi, Roberto Garay-Martinez, Julen Astudillo, Miriam García, Juan Carlos Ramos

Producción científica: Contribución a una revistaArtículorevisión exhaustiva

21 Citas (Scopus)

Resumen

Building envelope systems are rapidly evolving, driven by increasingly stringent requirements for limiting energy consumption. Current trends favour lightweight, prefabricated wall assemblies with high levels of insulation, which have been shown to be particularly sensitive to thermal bridging through anchoring and framing elements. This paper presents a self-supporting multi-layer wall component made from bio-based materials, where novel biocomposite profiles are used instead of conventional metallic frames. The thermal performance of the proposed solution is calculated from numerical modelling and characterised through in-situ measurement of a full-scale prototype. For the plane areas of the wall with continuous insulation, theoretical calculations are broadly in line with results from experimental monitoring (7–15% deviation). Additionally, an area along a framing profile was specifically monitored, and it was found that the numerical model overestimated thermal resistance with a deviation of 121%. The presence of air gaps between the rigid insulation and framing elements, linked to the fabrication process of the prototype, was identified as a plausible cause. A subsequent explanatory numerical assessment, considering the effect of such cavities in the numerical model, provided results that are consistent with measurements from the experiment and previous literature. The study aims at demonstrating the insulation levels achievable with the use of novel bio-based materials of low thermal conductivity, and more generally, contributing to a better understanding of the thermal performance of framed lightweight insulated assemblies in service conditions, by monitoring and modelling the impact of thermal bridges and workmanship at framing elements.
Idioma originalInglés
Número de artículo109846
Páginas (desde-hasta)109846
Número de páginas1
PublicaciónEnergy and Buildings
Volumen214
DOI
EstadoPublicada - 1 may 2020

Palabras clave

  • Building envelope
  • Biocomposites
  • In-situ measurements
  • Heat flow meter method
  • Thermal resistance

Project and Funding Information

  • Project ID
  • info:eu-repo/grantAgreement/EC/FP7/609067/EU/FOREST BASED COMPOSITES FOR FAÇADES AND INTERIOR PARTITIONS TO IMPROVE INDOOR AIR QUALITY IN NEW BUILDS AND RESTORATION/OSIRYS
  • Funding Info
  • The research leading to these results has received funding from the European Union’s Seventh Framework Programme (FP7/2007–2013) under grant agreement ID 609067.

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