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Optimising Design Parameters of a Building-Integrated Photovoltaic Double-Skin Facade in Different Climate Zones in Australia

Siliang Yang, Francesco Fiorito, A.B. Sproul, Deo Prasad

2023Buildings20 citationsDOIOpen Access PDF

Abstract

Energy used in buildings is mainly attributed to provide the desired thermal comfort, which could result in an increase in carbon emission and, in turn, lead to further environmental degradation. A Building-Integrated Photovoltaic Double-Skin Façade (BIPV-DSF) is a promising way to maintain indoor thermal comfort, obtained with low environmental impact and energy consumption. The appropriate design of BIPV-DSFs can maximise indoor thermal comfort and energy efficiency for buildings. This paper presents optimal BIPV-DSF design solutions, which are dedicated to offering comfortable and energy-efficient buildings, through optimisation of the most important design parameters of a BIPV-DSF under three different climate conditions in Australia. The results illustrate how thermal transmittance (U-value) and solar heat gain coefficient (SHGC) of windows of the BIPV-DSF, as the most important design parameters, were optimised for application in the context of different climates, operation modes, and orientations. The paper contributes to the matters concerning the integrated effect of BIPV-DSFs on thermal comfort and energy performance in buildings.

Topics & Concepts

Building-integrated photovoltaicsFacadePhotovoltaic systemThermal comfortArchitectural engineeringContext (archaeology)ThermalEnvironmental scienceEfficient energy useThermal transmittanceSolar gainSolar energyAutomotive engineeringComputer scienceEngineeringCivil engineeringMeteorologyThermal resistanceElectrical engineeringPhysicsPaleontologyBiologyBuilding Energy and Comfort OptimizationWind and Air Flow StudiesUrban Heat Island Mitigation
Optimising Design Parameters of a Building-Integrated Photovoltaic Double-Skin Facade in Different Climate Zones in Australia | Litcius