LiuCHBarthMC: Large-eddy simulation of flow and scalar transport in a modeled street canyon: J Appl Meteorol2002;41(6):660–673.
2.
SolazzoECaiXVardoulakisS: Modelling wind flow and vehicle-induced turbulence in urban streets: Atmos Environ2008;42(20):4918–4931.
3.
ZhangYWGuZLYuC: Time-series numerical simulation of wind flow within urban canopy layer and its integration effect for prediction of pollutant concentration variation: Indoor Built Environ2012;21(3):355–357.
4.
5.
UeharaKWakamatuSOokaR: Studies on critical Reynolds number indices for wind-tunnel experiments on flow within urban area: Boundary-Layer Meteorol2003;107:353–370.
6.
MochidaAMurakamiSKatoS: The similarity requirements for wind tunnel model studies of gas diffusion: J Wind Eng Jpn1994;59:23–28.
7.
WaltonAChengAYS: Large-eddy simulation of pollution dispersion in an urban street canyon - Part II: idealised canyon simulation: Atmos Environ2002;36(22):3615–3627.
8.
GuZLZhangYWLeiKB: Large eddy simulation of flow in a street canyon with tree planting under various atmospheric instability conditions: Sci China Technol Sci2010;53(7):1928–1937.
9.
TownsendAA: The Structure of Turbulent Shear Flow. London, Cambridge University Press, 1956.
10.
PavageauMSchatzmannM: Wind tunnel measurements of concentration fluctuations in an urban street canyon: Atmos Environ1999;33(24–25):3961–3971.
11.
12.
13.
GoldenJ: Scale Model Techniques. New York, New York University, 1961.
14.
MeroneyRNPavageauMRafailidisSSchatzmannM: Study of line source characteristics for 2-D physical modelling of pollutant dispersion in street canyons: J Wind Eng Ind Aerodyn1996;62:37–56.
15.
SnyderWHCastroIP: The critical Reynolds number for rough-wall boundary layers: J Wind Eng Ind Aerodyn2002;90(1):41–54.
16.
LoukaPBelcherSEHarrisonRG: Coupling between air flow in streets and the well-developed boundary layer aloft: Atmos Environ2000;34(16):2613–2621.
17.
LiXXLiuCHLeungDYCLamKM: Recent progress in CFD modelling of wind field and pollutant transport in street canyons: Atmos Environ2006;40(29):5640–5658.
18.
BaikJJKimJJ: On the escape of pollutants from urban street canyons: Atmos Environ2002;36(3):527–536.
19.
DucrosRComtePLesieurM: Large-eddy simulatiion of transition to turbulence in a boundary layer developing spatially over a flat plate: J Fluid Mech1996;326:1–36.
20.
ZhangYWGuZLLeeSCFuTMHoKF: Numerical simulation and in situ investigation of fine particle dispersion in an actual deep street canyon in Hong Kong: Indoor Built Environ2011;20(2):206–216.