Effect of Canyon Geometry on Outdoor Thermal Comfort: A case-study of high-density, warm-humid climate

Date

2013-09-10

Advisors

Journal Title

Journal ISSN

ISSN

DOI

Volume Title

Publisher

PLEA (Passive and Low Energy Architecture)

Type

Conference

Peer reviewed

Yes

Abstract

A successful urban planning and design solution ought to present a comfortable setting for its pedestrians inside urban canyons, because it is fundamental to encourage a good quality urban life and promote health and wellbeing of humans. Recent findings have demonstrated that microclimate inside urban canyons has substantial influence upon the outdoor thermal comfort at the street level .This study, therefore, intends to devise early stage building and urban design strategies to improve outdoor thermal comfort. For this study, a number of existing urban canyons in Dhaka city have been chosen with a range of geometries combined with a variety of street orientations. The microclimatic characteristics of the canyons are analysed through a high resolution CFD microclimatic model: ENVI-met Version 4. Thermal comfort was evaluated with the PET index with the aid of RayMan1.2. Important findings include that deeper street canyons result in reduced air temperature but increased Tmrt thus presenting apparently conflicting design options to achieve outdoor comfort. However, such apparently conflicting findings offer the potential for designers to find a variety of canyon geometries appropriate for a tropical city context.

Description

The file attached to this record is the author's final peer reviewed version. The Publisher's final version can be found by following the URI link. Open access

Keywords

canyon geometry, mean radiant temperature, air temperature, thermal comfort

Citation

Sharmin, T. and Steemers, K. (2013) Effect of canyon geometry on outdoor thermal comfort: a case-study of high-density, warm-humid climate. In: Proceedings of PLEA 2013 - 29th International Conference Proceedings: Sustainable Architecture for a Renewable Future, Munich, Germany, September 2013.

Rights

Research Institute