Bio‐based phase change material for enhanced building energy efficiency: A study of beech and thermally modified beech wood for wall structures

Author:

Grzybek Jakub12ORCID,Nazari Meysam3ORCID,Jebrane Mohamed3ORCID,Terziev Nasko3ORCID,Tippner Jan2ORCID,Petutschnigg Alexander14ORCID,Schnabel Thomas15ORCID

Affiliation:

1. Department of Green Engineering and Circular Design Salzburg University of Applied Sciences Kuchl Austria

2. Faculty of Forestry and Wood Technology, Department of Wood Science and Technology Mendel University in Brno Brno Czech Republic

3. Department of Forest Biomaterials and Technology Swedish University of Agricultural Sciences Uppsala Sweden

4. Department of Material Sciences and Process Engineering University of Natural Resources and Life Sciences (BOKU) Tulln Austria

5. Faculty for Design of Furniture and Wood Engineering Transilvania University of Brasov Brasov Romania

Abstract

AbstractThis study investigated the impregnation of beech and thermally modified beech (TMB) with a ternary mixture of capric acid, palmitic acid, and stearic acid as a bio‐based phase change material (BPCM). Finite element method (FEM) was used to complement the experimental analysis by providing new insights into computational methods for simulating the behavior of BPCMs in untreated and TMB. The analyzed specimens namely beech and TMB were impregnated with BPCM; the TMB achieved 54% weight percentage gain (WPG) while untreated beech got 37%. Accordingly, a greater increase in the latent heat was obtained for TMB up to 90 J/g, while for untreated beech with BPCM up to 75 J/g. Impregnated specimens absorbed less moisture at relative humidity of air above 50%, likely caused by the high uptake and hydrophobic nature of the BPCM. The study highlights the research gap in performing mathematical simulations on wood samples with BPCM using material thermal properties derived from differential scanning calorimetry or T‐History analysis. It shows that the direct use of these values for simulations leads to unacceptable outputs that result in high errors. The root mean square error for untreated and TMB samples impregnated with BPCM was in the range from 1.06 to 3.1 while that for untreated samples was in the range from 0.57 to 0.87, indicating that the main challenge in simulating and characterizing the samples is due to the interaction of the phase change material with the wood structure.

Funder

Österreichische Forschungsförderungsgesellschaft

Publisher

Wiley

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