Biodesign and thermal comfort in living facades with mycelium in buildings in Arequipa, Peru

Authors

Keywords:

Biodesign, mycelium, living façades, thermal comfort, energy simulation

Abstract

The city of Arequipa has a cold, semi-arid climate with high solar radiation and daily temperature variations of up to 15°C, which increases energy demand and reduces indoor comfort. In this context, biodesign and the use of biomaterials emerge as sustainable alternatives. This study evaluates two building envelope solutions: facades with microalgae bioreactors and mycelium panels, both compared to a conventional facade. A mixed-methods approach was applied, including energy simulation with EnergyPlus, on-site monitoring for 60 days, and post-occupancy evaluation with 60 users, in addition to a life cycle analysis to estimate emissions. The results show reductions of up to 18% in cooling loads with microalgae and 15% with mycelium, as well as a 25% increase in thermal comfort. Furthermore, an estimated decrease in emissions of between 8% and 14% was also observed. These findings show that living facades improve thermal comfort, reduce energy consumption, and contribute to sustainability in Andean climates.

Published

2026-06-26

How to Cite

Rodríguez Valverde, G. D. (2026). Biodesign and thermal comfort in living facades with mycelium in buildings in Arequipa, Peru. Arquitek, (29), 07–14. Retrieved from https://revistas.upt.edu.pe/ojs/index.php/arquitek/article/view/1434

Issue

Section

Articles