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Evaluation of thermal properties of phase change material-integrated artificial stone according to biochar loading content

•Strength and thermal properties of PCM-integrated artificial stone with added biochar are evaluated.•Artificial stone material comprising a PCM-impregnated lightweight aggregate is examined.•Spruce tree, rise husk, and miscanthus straw biochars are used.•Optimal biochar application ratio is derived...

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Bibliographic Details
Published in:Construction & building materials 2021-10, Vol.305, p.124682, Article 124682
Main Authors: Kim, Young Uk, Yun, Beom Yeol, Nam, Jihee, Choi, Ji Yong, Wi, Seunghwan, Kim, Sumin
Format: Article
Language:English
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Summary:•Strength and thermal properties of PCM-integrated artificial stone with added biochar are evaluated.•Artificial stone material comprising a PCM-impregnated lightweight aggregate is examined.•Spruce tree, rise husk, and miscanthus straw biochars are used.•Optimal biochar application ratio is derived. Biochar is biomass that has undergone pyrolysis and contains many pores; therefore, it can effectively be used as a building material. This experiment aims to improve the thermal performance of artificial stone finishes used as interior veneers. A phase change material (PCM) with a high latent heat performance and biochar, an eco-friendly material, were used in the experiment. n-Octadecane was incorporated into lightweight aggregates; spruce tree, rise husk, and miscanthus straw biochars were utilized. The strength performance of specimens using biochar was found to be slightly degraded when 6% biochar was incorporated, and biochar use within 4% was found to yield similar or higher strength results. Moreover, the thermal conductivity decreased as the amount of biochar in the mixture increased; these thermal conductivity characteristics depended on the pore characteristics of the biochar type. It was demonstrated that the use of 6% biochar reduced the peak temperature of the specimen by 4–5 °C. Using biochar that reuses waste can have environmental benefits; biochar can facilitate efficient use of thermal energy and indoor temperature control when used in combination with PCM.
ISSN:0950-0618
1879-0526
DOI:10.1016/j.conbuildmat.2021.124682