Design and Simulation for Technological Integration of Bio-Based Components in Façade System Modules
-
Published:2024-04-16
Issue:4
Volume:14
Page:1114
-
ISSN:2075-5309
-
Container-title:Buildings
-
language:en
-
Short-container-title:Buildings
Author:
Pracucci Alessandro12ORCID, Vandi Laura1ORCID, Morganti Luca13ORCID, Fernández Ana Gallego4ORCID, Nunez Diaz Miguel4, Navarro Muedra Arsenio5ORCID, Győri Viktor6ORCID, Kouyoumji Jean-Luc7, Astudillo Larraz Julen8ORCID
Affiliation:
1. Focchi Spa, Via Cornacchiara 805, 47824 Rimini, Italy 2. Levery s.r.l. Società Benefit, Via Pisino 66, 47814 Rimini, Italy 3. Department of Architecture, University of Ferrara, Via Quartieri 8, 44121 Ferrara, Italy 4. ENAR Envolventes Arquitectónicas, C/Chile, 10, 28290 Madrid, Spain 5. AIMPLAS Technological Institute of Polymers, 46980 Valencia, Spain 6. Omikron-Dokk Muanyagipari Kft, Andor Utca 21 Fszt.1, 1119 Budapest, Hungary 7. Institut Technologique FCBA, Allée de Boutaut, 33000 Bordeaux, France 8. TECNALIA, Basque Research and Technology Alliance (BRTA), Area Anardi 5, 20730 Azpeitia, Spain
Abstract
Driven by environmental sustainability concerns, the integration of bio-based components in curtain wall systems is gaining traction in both research and the construction market. This paper explores the development and validation of a bio-based façade system within the Basajaun H2020 project (2019–2024). The project aimed to demonstrate the feasibility of introducing environmentally friendly bio-based components into the mature curtain wall façade industry. The paper focuses on identifying technological solutions for replacing key components such as frame profiles, insulation, and the tightness system with bio-based and less environmentally impactful alternatives, presenting the results achieved in the façade system design of the Basajaun project. These solutions aimed at creating a bio-composite-based curtain wall façade that adheres to the current building envelope standards and normative, implementing diverse façade typologies for vision panels, opaque sections, and integrated windows and, moreover, engineering the prefabrication process for industrialization and enabling wider market replication and simplified transport and installation. The results demonstrate that the Basajaun façade successfully integrates selected components and meets the performance requirements set by regulations: the façade is designed to withstand a maximum and typical wind load of 3.5 kN/m2 and a typical load of 1.5 kN/m2, the weighted sound reduction index obtained is Rw = 44 dB, and the thermal transmittance of the vision façade is 0.74 W/m2K while that of the entire opaque façade is 0.27 W/m2K (an additional internal wall is required to achieve the requested thermal transmittance)—the values are in accordance with reference standards and design requirements. However, questions remain regarding the workability of bio-based profiles as a commercially viable, ready-to-market solution that can replace traditional aluminum profiles in the curtain wall façade industry.
Reference60 articles.
1. Pörtner, H.-O., Roberts, D.C., Poloczanska, E.S., Mintenbeck, K., Tignor, M., Craig, M., Langsdorf, S., Löschke, S., and Möller, V. (2022). Climate Change 2022: Impacts, Adaptation and Vulnerability, Cambridge University Press. Contribution of Working Group II to the Sixth Assessment Report of the Intergovernmental Panel on Climate Change. 2. Adams, M., Burrows, V., Richardson, S., Drinkwater, J., Gamboa, C., Collin, C., Ostenfeld Riemann, L., Porteron, S., and Qvist Secher, A. (2019). Bringing Embodied Carbon Upfront: Coordinated Action for the Building and Construction Sector to Tackle Embodied Carbon, World Green Building Council. 3. Assessment of Distilled Lavender Stalks as Bioaggregate for Building Materials: Hygrothermal Properties, Mechanical Performance and Chemical Interactions with Mineral Pozzolanic Binder;Ratiarisoa;Constr. Build. Mater.,2016 4. Renewable and Sustainable Biobased Materials: An Assessment on Biofibers, Biofilms, Biopolymers and Biocomposites;Vinod;J. Clean. Prod.,2020 5. Fan, M., and Fu, F. (2017). Advanced High Strength Natural Fibre Composites in Construction, Woodhead Publishing.
|
|