EFFECTS OF PHOTOBIOREACTOR FAÇADES ON THERMAL AND VISUAL PERFORMANCE OF AN OFFICE IN IZMIR
Abstract
Keywords
multi-objective optimization, microalgae photobioreactor, building performance, thermal-visual comfort
Supporting Institution
Project Number
Thanks
References
- [1] Zhao J, Du Y. Multi-objective optimization design for windows and shading configuration considering energy consumption and thermal comfort: A case study for office building in different climatic regions of China. Sol Energy 2020; 206; 997-1017.
- [2] Kim KH. A feasibility study of an algae façade system. In: Proceedings of international conference on sustainable building Asia (SB13): 8–10 July 2013, Seoul, South Korea. pp. 333-341.
- [3] Decker M, Hahn G, Harris LM. Bio-Enabled Façade Systems Managing Complexity of Life through Emergent Technologies. In Herneoja A, Österlund T, Markkanen P, editors, Complexity & Simplicity - Proceedings of the 34th eCAADe Conference - Volume 1: 22-26 August 2016, University of Oulu, Oulu, Finland. pp. 603-612.
- [4] Lo Verso VRM, Javadi MHS, Pagliolico S, Carbonaro C, Sassi G. Photobioreactors as a Dynamic Shading System Conceived for an Outdoor Workspace of the State Library of Queensland in Brisbane: Study of Daylighting Performances. J Daylighting 2019; 6; 148-168.
- [5] Cervera Sardá R, Vicente CA. Case Studies on the Architectural Integration of Photobioreactors in Building Façades. In: Pacheco Torgal F, Buratti C, Kalaiselvam S, Granqvist CG, Ivanov V, editors, Nano and Biotech Based Materials for Energy Building Efficiency. Cham: Springer, 2016. pp. 457-484.
- [6] Negev E, Yezioro A, Polikovsky M, Krobos A, Cory J, Shashua-Bar L, Golberg A. Algae window for reducing energy consumption of building structures in the Mediterranean city of Tel-Aviv, Israel, Energy Build 2019; 204; 109460. [7] Köktürk G, Yaman Y, Tokuç A. Parametric analysis of the effect of a biomass producing facade element on energy, lighting and thermal comfort in Ankara climate. EKSEN Dokuz Eylül Üniversitesi Mimarlık Fakültesi Dergisi 2022; 3(1); 20-33. (article in Turkish with an abstract in English)
- [8] ASHRAE Technical Report American society of heating, ventilating, and air conditioning engineers [ASHRAE] guideline 14. Measurement of energy and demand savings 2014.
- [9] Acar U, Kaska O, Tokgoz N. Multi-objective optimization of building envelope components at the preliminary design stage for residential buildings in Turkey. J Build Eng 2021; 42; 102499.
- [10] Goia F. Search for the optimal window-to-wall ratio in office buildings in different European climates and the implications on total energy saving potential. Sol Energy 2016; 132; 467–492.
- [11] Badeche M, Bouchahm Y. Design optimization criteria for windows providing low energy demand in office buildings in Algeria. Environmental and Sustainability Indicators 2020; 6; 100024.