Effect of stable stratification on dispersion within urban street canyons: A large-eddy simulation

Author(s)

Li, Xianxiang; Britter, Rex E; Norford, Leslie Keith

Abstract

This study employs a validated large-eddy simulation (LES) code with high tempo-spatial resolution to investigate the effect of a stably stratified roughness sublayer (RSL) on scalar transport within an urban street canyon. The major effect of stable stratification on the flow and turbulence inside the street canyon is that the flow slows down in both streamwise and vertical directions, a stagnant area near the street level emerges, and the vertical transport of momentum is weakened. Consequently, the transfer of heat between the street canyon and overlying atmosphere also gets weaker. The pollutant emitted from the street level ‘pools’ within the lower street canyon, and more pollutant accumulates within the street canyon with increasing stability. Under stable stratification, the dominant mechanism for pollutant transport within the street canyon has changed from ejections (flow carries high-concentration pollutant upward) to unorganized motions (flow carries high-concentration pollutant downward), which is responsible for the much lower dispersion efficiency under stable stratifications. Keywords: Large-eddy simulation (LES); Urban street canyon; Pollutant dispersion; Stable stratification

Date issued

2016-08

URI

https://hdl.handle.net/1721.1/124291

Department

Singapore-MIT Alliance in Research and Technology (SMART)
Massachusetts Institute of Technology. Department of Urban Studies and Planning
Massachusetts Institute of Technology. Department of Architecture

Journal

Atmospheric Environment

Publisher

Elsevier BV

Citation

Li, Xianxiang, et al. "Effect of stable stratification on dispersion within urban street canyons: A large-eddy simulation." Atmospheric Environment 144 (November 2016): 47-59 © 2016 Elsevier Ltd

Version: Original manuscript

ISSN

1352-2310