Abstract
Many cities are undergoing rapid urbanisation and intensification with the unintended consequence of creating dense urban fabric with deep ‘urban canyons’. Urban densification can trap longwave radiation impacting on local atmospheric conditions, contributing to the phenomena known as the Urban Heat Island (UHI). As global temperatures are predicted to increase, there is a critical need to better understand urban form and heat retention in cities and integrate analysis tools into the design decision making process to design cooler cities. This paper describes the application and validation of a novel three-dimensional urban canyon modelling approach calculating Sky View Factor (SVF), one important indicator used in the prediction of UHI. Our modified daylighting system based approach within a design modelling environment allows iterative design decision making informed by SVF on an urban design scale. This approach is tested on urban fabric samples from cities in both Australia and China. The new approach extends the applicability in the design process of existing methods by providing ‘real-time’ SVF feedback for complex three-dimensional urban scenarios. The modelling approach enables city designers to mix intuitive compositional design modelling with dynamic canyon feedback. The approach allows a greater understanding of existing and proposed urban forms and identifying potential canyon problem areas, improved decision making and design advocacy, and can potentially have an impact on cities’ temperature.
Highlights
Many of the world’s cities are undergoing rapid urbanisation and intensification (Brenner & Schmid, 2014; Koolhaas, Obrist, Boeri, Kwinter, & Tazi, 2001; Rode, 2013) with the unintended consequence of creating dense urban fabric with deep urban canyons
Urban Planning, 2016, Volume 1, Issue 3, Pages 25–37 lar, the Urban Heat Island (UHI) which can increase temperatures within urban centres considerably when compared to surrounding rural areas (Basara, Basara, Illston, & Crawford, 2010; Mills, 2004; Oke, 1981, 1988)
This paper describes the application and validation of a novel three-dimensional modelling approach to calculating Sky View Factor (SVF), an important indicator used in the prediction of UHI for existing as well as proposed urban design scenarios
Summary
Many of the world’s cities are undergoing rapid urbanisation and intensification (Brenner & Schmid, 2014; Koolhaas, Obrist, Boeri, Kwinter, & Tazi, 2001; Rode, 2013) with the unintended consequence of creating dense urban fabric with deep urban canyons. The urban canyon is considered by many to be the most important contributing factor to the UHI effect (Ibrahim, Nduka, Iguisi, & Ati, 2011) due to the strong correlation between them (Brandsma & Wolters, 2012; Kakon & Nobuo, 2009; Unger, 2009), and is a critical variable considered by microclimate researchers in the study of Urban Heat Island (Ewenz, Bennett, Chris Kent, Guan, & Clay, 2012). It is the measurement of this variable that is the focus of this paper. This modelling and analysis approach is tested on urban samples from cities within Australia and China which experience climatic extremes and provide a range of different urban morphologies
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