Adaptation of double skin facade for warm climate from a wind harvesting perspective in tall buildings

Soha Matour; Veronica Garcia-Hansen; Robin Drogemuller; Sara Omrani

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Adaptation of double skin facade for warm climate from a wind harvesting perspective in tall buildings

Conference paper

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Adaptation of double skin facade for warm climate from a wind harvesting perspective in tall buildings

Soha Matour, Veronica Garcia-Hansen, Robin Drogemuller and Sara Omrani

Proceedings of the 53rd International Conference of Architectural Science Association, pp.625-634

International Conference of Architectural Science Association, 53rd (Roorkee, India, 28-Nov-2019–30-Nov-2019)

Architectural Science Association (ANZAScA)

2019

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Abstract

Cavity openings

CFD

Double Skin Facade (DSF)

Wind-driven airflow

Different opening configurations for a double skin façade (DSF) integrated in a tall building are investigated in terms of flow characteristics within the cavity of the DSF using CFD simulations. The main issue of naturally ventilated DSF in warm climates is cavity overheating risk which can be alleviated by means of airflow enhancement in the system's cavity. Previous research has demonstrated the effectiveness of lateral openings in DSF. This research goes a step further, by addressing the impact of front openings number on external skin of DSF. Four case studies are assessed; lateral openings only, one, three and five front openings. The results show that applying openings on external skin could double the average air velocity along the cavity compared to the case with lateral openings. In perpendicular wind direction, increasing the front openings number could be effective just in low wind condition while in different wind speeds, one central opening outperforms other cases in terms of cavity airflow uniformity and velocity. Therefore, by optimizing DSF openings for different building heights and wind directions, DSF with front openings can be introduced as an adapted classification for DSF in warm climates which is capable of improving cavity natural ventilation.

Details

Title: Adaptation of double skin facade for warm climate from a wind harvesting perspective in tall buildings
Authors: Soha Matour (Author) - Queensland University of Technology
Veronica Garcia-Hansen (Author) - Queensland University of Technology
Robin Drogemuller (Author) - Queensland University of Technology
Sara Omrani (Author) - Queensland University of Technology
Publication details: Proceedings of the 53rd International Conference of Architectural Science Association, pp.625-634
Conference details: International Conference of Architectural Science Association, 53rd (Roorkee, India, 28-Nov-2019–30-Nov-2019)
Publisher: Architectural Science Association (ANZAScA)
Date published: 2019
Organisation Unit: University of the Sunshine Coast, Queensland; School of Law and Society
Language: English
Record Identifier: 99679181102621
Output Type: Conference paper

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