Issue 1, 2023

Passive climate regulation with transpiring wood for buildings with increased energy efficiency

Abstract

Buildings are significant end-users of global energy. About 20% of the energy consumption worldwide is used for maintaining a comfortable indoor climate. Therefore, passive systems for indoor temperature and humidity regulation that can respond to environmental changes are very promising to reduce buildings’ energy consumption. We developed a process to improve the responsiveness of wood to humidity changes by laser-drilling microscopic holes and incorporating a hygroscopic salt (calcium chloride). The resulting “transpiring wood” displays superior water adsorption capacity and high moisture exchange rate, allowing regulation of humidity and temperature by the exchange of moisture with the surrounding air. We proved that the hygrothermal performance of transpiring wood can be used to regulate indoor climate, with associated energy savings, for various climate types, thus favoring its application in the building sector. The reduction of temperature fluctuations, thanks to the buffering of temperature peaks, can lead to an indirect energy saving of about 10% for cooling and between 4–27% for heating depending on the climate. Furthermore, our transpiring wood meets different sustainability criteria, from raw materials to the fabrication process, resulting in a product with a low overall environmental impact and that is easy to recycle.

Graphical abstract: Passive climate regulation with transpiring wood for buildings with increased energy efficiency

Supplementary files

Article information

Article type
Communication
Submitted
16 8 2022
Accepted
15 11 2022
First published
16 11 2022
This article is Open Access
Creative Commons BY-NC license

Mater. Horiz., 2023,10, 257-267

Passive climate regulation with transpiring wood for buildings with increased energy efficiency

Y. Ding, C. H. Dreimol, R. Zboray, K. Tu, S. Stucki, T. Keplinger, G. Panzarasa and I. Burgert, Mater. Horiz., 2023, 10, 257 DOI: 10.1039/D2MH01016J

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