We found a match
Your institution may have access to this item. Find your institution then sign in to continue.
- Title
Impact of Residential Building Layouts on Microclimate in a High Temperature and High Humidity Region.
- Authors
Jiang, Yingjie; Wu, Changguang; Teng, Mingjun
- Abstract
Microclimatic condition is a fundamental indicator for evaluating outdoor space livability and vitality. Research has shown that poorly designed building layouts can lead to discomfort; however, the mechanisms influencing outdoor microclimate based on residential building layout are unclear for high temperature and high humidity regions. This study explores the relationship between residential building layouts and the outdoor wind and thermal environment at the pedestrian level in Wuhan, a city renowned for high temperatures and high humidity. Six typical residential building layouts were simulated, using the ENVI-met numerical model, to determine the spatial distribution of wind speed and air temperature. The Universal Thermal Climate Index was adopted as a comprehensive index with which to assess spatial and diurnal variations in microclimates surrounding each building layout. Results showed that parallel building layouts formed a ventilation corridor that increased wind speeds by approximately 0.3 m/s. A staggered building layout, in line with the prevailing wind direction, facilitated airflow in the ventilation corridor and further increased wind speeds. Windward buildings blocked high-temperature airflows and reduced air temperatures by approximately 1 ℃ in parallel layouts, and 1.4 ℃ in enclosed layouts. However, the cooling effect of windward buildings on high-temperature airflow was weaker than the warming effect caused by the wind shadow effect and direct sunlight. Additionally, the performance of the thermal comfort of the enclosed type layout was significantly better, for most of the day, than the parallel type layout.
- Subjects
WUHAN (China); BUILDING layout; HIGH temperatures; DWELLINGS; ATMOSPHERIC temperature; WIND speed; HUMIDITY
- Publication
Sustainability (2071-1050), 2020, Vol 12, Issue 3, p1046
- ISSN
2071-1050
- Publication type
Article
- DOI
10.3390/su12031046