Abstract
For hot regions, studies have been advocating re-adopting the courtyard pattern for its thermal advantages. Aiming at developing thermally comfortable courtyards, studies have been exploring the impact of courtyards geometry on their shading and natural ventilation, which are the two environmental principles of courtyards. However, there is a lack of studies on the impact of manipulating courtyards geometry on the thermal sensation of occupants. This research investigates the impact of changing the courtyard geometry and the resulted shading on Mean Radiant Temperature (MRT) and Globe temperature (Tg). The latter represents the thermal perception of occupants and the former is the main effective factor on the thermal sensation of people in outdoor and semi-outdoor spaces. The research carried out simulation experiments to test 360 different courtyard configurations. The simulation experiments included using Envi-met and IES-VE simulation tools. The former was used to determine MRT and Tg, and the latter to determine shading levels. Baghdad was selected to represent an example of a hot city in which summer air temperature reaches around 50 °C. The results show that the difference in shading that results from changing the courtyard geometry can lead to a difference in MRT and Tg of up to 15°C.
Highlights
IntroductionThis research aims to address this knowledge gap
The results demonstrate the impact of changing courtyards geometry on shading, Mean Radiant Temperature (MRT) and Tg
Aiming at determining the impact of courtyard design on the thermal sensation of occupants, this study investigated the impact of courtyards geometry on their shading, MRT and the resulted thermal sensation of occupants, which has not been investigated properly by previous studies
Summary
This research aims to address this knowledge gap It explores the impact of having different shading levels on the Mean Radiant Temperature (MRT) in courtyards and the resulted thermal sensation of occupants. 2. Research aim and methodology This study aims to determine the impact of changing the geometric properties of courtyards and shading on MRT and the resulted thermal sensation of occupants. The research used to the following equation to determine Tg using the collected date from the simulation [30]: Tg= (MRT + 2.35 × air temperature × (Air velocity)0.5)/ (1 + 2.35 × (Air velocity)0.5) The simulation experiments were done for Bagdad in four days representing the annual possible thermal conditions. In Envi-met, to guarantee having results as close as possible to real-life conditions, the properties of a calibrated courtyard simulation model developed by a previous study were used [32]
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