1 |
Ng, W.Y., Chau, C.K. (2014) A modeling investigation of the impact of street and building configurations on personal air pollutant exposure in isolated deep urban canyons. Science of the Total Environment, 468-469, 429-448.
DOI
ScienceOn
|
2 |
Oke, T.R. (1988) Street design and urban canopy layer climate. Energy Bldg. 11, 103-113.
|
3 |
Richards, P.J., Hoxey, R.P. (1993) Appropriate boundary conditions for computational wind engineering models using the k-e model. Journal of Wind Engineering and Industrial Aerodynamics 46&47, 145-153.
|
4 |
Brantley, H.L., Hagler, G.S.W., Deshmukh, P.J., Baldauf, R.W. (2014) Field assessment of the effects of roadside vegetation on near-road black carbon and particulate matter. Science of the Total Environment, 468-469, 120-129.
DOI
ScienceOn
|
5 |
Sabatino, S.D., Buccolieri, R., Pulvirenti, B., Britter, R. (2007) Simulations of pollutant dispersion within idealized urban-type geometries with CFD and integral models. Atmospheric Environment 41, 8316-8329.
DOI
ScienceOn
|
6 |
Baldauf, R., Thoma, E., Khlystov, A., Isakov, V., Bowker, G., Long, T., Snow, R. (2008) Impacts of noise barriers on near-road air quality. Atmospheric Environment 42, 7502-7507.
DOI
ScienceOn
|
7 |
Blocken, B., Stathopoulos, T., Carmeliet, J. (2007) CFD simulation of the atmospheric boundary layer: wall function problems. Atmospheric Environment 41, 238-252.
DOI
ScienceOn
|
8 |
Bowker, G.E., Baldauf, R., Isakov, V., Khlystov, A., Petersen, W. (2007) The effects of roadside structures on the transport and dispersion of ultrafine particles from highways. Atmospheric Environment 41, 8128-8139.
DOI
ScienceOn
|
9 |
Gorle, C., Beeck, J., Rambaud, P., Tendeloo, G.V. (2009) CFD modelling of small particle dispersion: The influence of the turbulence kinetic energy in the atmospheric boundary layer. Atmospheric Environment 43, 673-681.
DOI
ScienceOn
|
10 |
Chang, C.-H., Meroney, R.N. (2003) Concentration and flow distributions in urban street canyons: wind tunnel and computational data. Journal of Wind Engineering and Industrial Aerodynamics 91, 1141-1154.
DOI
ScienceOn
|
11 |
Finn, D., Clawson, K.L., Carter, R.G., Rich, J.D., Eckman, R.M., Perry, S.G., Isakov, V., Heist, D.K. (2010) Tracer studies to characterize the effects of roadside noise barriers on near-road pollutant dispersion under varying atmospheric stability conditions. Atmospheric Environment 44, 204-214.
DOI
ScienceOn
|
12 |
FLUENT ver.6.3 (2006) User's Guide.
|
13 |
Hu, S.S., Fruin, S., Kozawa, K., Mara, S., Paulson, S.E., Winer, A.M. (2009) A wide area of air pollutant impact downwind of a freeway during pre-sunrise hours. Atmospheric Environment 43, 2541-2549.
DOI
ScienceOn
|
14 |
Hagler, G.S.W., Tang, W., Freeman, M.J., Heist, D.K., Perry, S.G., Vette, A.F. (2011) Model evaluation of roadside barrier impact on near-road air pollution. Atmospheric Environment 45, 2522-2530.
DOI
ScienceOn
|
15 |
HEI (2010) Traffic-related air pollution: a critical review of the literature on emissions, exposure, and health effects. HEI special report 17. Boston, MA: Health Effects Institute.
|
16 |
Heist, D.K., Perry, S.G., Brixey, L.A. (2009) A wind tunnel study of the effect of roadway configurations on the dispersion of traffic-related pollution. Atmospheric Environment 43, 5101-5111.
DOI
ScienceOn
|
17 |
Liu, C.H., Cheng, W.C., Leung, T.C.Y., Leung, D.Y.C. (2011) On the mechanism of air-pollutant re-entrainment in two dimensional idealized street canyons. Atmospheric Environment 45, 4763-4769.
DOI
ScienceOn
|
18 |
Steffens, J.T., Heist, D.K., Perry, S.G., Zhang, K.M. (2013) Modeling the effects of a solid barrier on pollutant dispersion under various atmospheric stability conditions. Atmospheric Environment 69, 76-85.
DOI
ScienceOn
|
19 |
Yang, Y., Gu, M., Chen, S., Jin, X. (2009) New inflow boundary conditions for modelling the neutral equilibrium atmospheric boundary layer in computational wind engineering. Journal of Wind Engineering and Industrial Aerodynamics 97(2), 88-95.
DOI
ScienceOn
|
20 |
Riddle, A., Carruthers, D., Sharpe, A., Stocker, C.M.J. (2004) Comparisons between FLUENT and ADMS for atmospheric dispersion modeling. Atmospheric Environment 38, 1029-1038.
DOI
ScienceOn
|