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Kim, J.-J., and J.-J. Baik, 2009: Effects of street-bottom and building-roof heating on flow in three-dimensional street canyons. Atmosphere, 27, 51-527 (in Korean with English abstract).
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Kim, J.-J., E. Pardyjak, D. Y. Kim, K. S. Han, and B. H. Kwon, 2014: Effects of building-roof cooling on flow and air temperature in urban street canyons. Asia-Pac. J. Atmos. Sci., 50, 365-375.
DOI
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Kim, M. J., R. J. Park, and J.-J. Kim, 2012: Urban air quality modeling with full O 3-NOx-VOC chemistry: Implications for O 3 and PM air quality in a street canyon. Atmos. Environ., 47, 330-340.
DOI
ScienceOn
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Kwak, K. H., J.-J. Baik, Y. H. Ryu, and S. H. Lee, 2015: Urban air quality simulation in a high-rise building area using a CFD model coupled with mesoscale meteorological and chemistry-transport models. Atmos. Environ., 100, 167-177.
DOI
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Kwon, A. R., and J.-J. Kim, 2014: Improvement of building-construction algorithm for using GIS data and analysis of flow and dispersion around buildings. Korean J. Remote Sens., 30, 731-742.
DOI
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Lee, J. H., J. W. Choi, and J.-J. Kim, 2009: The effects of an urban renewal plan on detailed air flows in an urban area. J. Korea Assoc. Geographic Inform. Studies, 12, 69-81.
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Lee, Y. S., and J.-J. Kim, 2011: Effects of an apartment complex on flow and dispersion in an urban area. Atmosphere, 21, 95-108 (in Korean with English abstract).
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Macdonald, R. W., R. F. Griffiths, and D. J. Hall, 1998: An improved method for the estimation of surface roughness of obstacle arrays. Atmos. Environ., 32, 1857-1864.
DOI
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Baik, J.-J., J.-J. Kim, and H. J. Fernando, 2003: A CFD model for simulating urban flow and dispersion. J. Appl. Meteorol., 42, 1636-1648.
DOI
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Baik, J.-J., S. B. Park, and J.-J. Kim, 2009: Urban flow and dispersion simulation using a CFD model coupled to a mesoscale model. J. Appl. Meteorol. Clim., 48, 1667-1681.
DOI
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Toparlar, Y., B. Blocken, P. Vos, G. J. F. van Heijst, W. D. Janssen, T. van Hooff, H. Montazeri, and H. J. P. Timmermans, 2015: CFD simulation and validation of urban microclimate: A case study for Bergpolder Zuid, Rotterdam. Build. Environ., 83, 79-90.
DOI
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Neofytou, P., M. Haakana, A. Venetsanos, A, Kousa, J. Bartzis, and J. Kukkonen, 2008: Computational fluid dynamics modelling of the pollution dispersion and comparison with measurements in a street canyon in Helsinki. Environmental Modeling & Assessment, 13, 439-448.
DOI
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Sabatino, S., R. Buccolieri, B. Pulvirenti, and R. Britter, 2007: Simulations of pollutant dispersion within idealised urban-type geometries with CFD and integral models. Atmos. Environ., 41, 8316-8329.
DOI
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Santiago, J. L., A. Martilli, and F. Martin, 2007: CFD simulation of airflow over a regular array of cubes. Part I: Three-dimensional simulation of the flow and validation with wind-tunnel measurements. Bound.-Layer Meteor., 122, 609-634.
DOI
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You, K. P., 2005: Wind tunnel experiment about effect of protection against wind according to the variation porosity of wind fence. Architectural, 21, 109-116.
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Zheng, M. H., Y. R. Guo, X. Q. Ai, T. Qin, Q. Wang, and J. M. Xu, 2010: Coupling GIS with CFD modeling to simulate urban pollutant dispersion. Mechanic Automation and Control Engineering (MACE), 2010 International Conference, 1785-1788.
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Chu, A. K. M., R. C. W. Kwok, and K. N. Yu, 2005: Study of pollution dispersion in urban areas using Computational Fluid Dynamics (CFD) and Geographic Information System (GIS). Environmental Modelling & Software, 20, 273-277.
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Britter, R. E., and S. R. Hanna, 2003: Flow and dispersion in urban areas. Annu. Rev. Fluid Mech., 35, 469-496.
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Brown, M. J., R. E. Lawson, D. S. DeCroix, and R. L. Lee, 2001: Comparison of centerline velocity measurements obtained around 2D and 3D building arrays in a wind tunnel. Int. Soc. Environ. Hydraulics, Tempe, AZ.
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Byon, J. Y., Y. J. Choi, and B. G. Seo, 2010: Evaluation of urban weather forecast using WRF-UCM (Urban Canopy Model) over Seoul. Atmosphere, 20, 13-26 (in Korean with English abstract).
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Franke, J., A. Hellsten, K. H. Schlunzen, and B. Carissimo, 2011: The COST 732 Best Practice Guideline for CFD simulation of flows in the urban environment:a summary. Int. J. Environ. Pollut., 44, 419-427.
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Gross, G., 2014: On the parametrization of urban land use in mesoscale models. Bound.-Layer Meteor., 150, 319-326.
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Kanda, M., A. Inagaki, T. Miyamoto, M. Gryschka, and S. Raasch, 2013: A new aerodynamic parametrization for real urban surfaces. Bound.-Layer Meteor., 148, 357-377.
DOI
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Kim, I. S., and Coauthors, 2003: The influence of around micrometeorology by development of Namak new town. Environ. Eng. Res., 5, 597-604.
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Kim, J.-J., 2007: The effects of obstacle aspect ratio on surrounding flows. Atmosphere, 17, 381-391 (in Korean with English abstract).
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