Environmental Engineering Reference
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dQ s normalized by net radiation Q has a common seasonality irrespective of the
difference of surface geometry, land use and latitude among the cities (Fig. 5.3).
Moreover, the values of dQ s / Q in COSMO and real fields show a significant wind
dependency. The large turbulent motions and corresponding multiple structure of
turbulent eddies were also observed in COSMO (Fig. 5.4).
References
Ashie, Y. and T. Kono, 2006: Numerical simulation of urban thermal environment of the water-
front area in Tokyo by using a five meter horizontal mesh resolution. Proc. 6th international
conference on urban climate. Goteborg, Sweden, 615-618.
Ashie, Y., T. Kono, and K. Takahashi, 2005: Development of numerical simulation model of urban
heat island, Annual report of the earth simulator center, April 2004-March 2005, The earth
simulator center, 85-88.
Ashie, Y., C. Vu Thanh, and T. Asaeda, 1999r: Building canopy model for the analysis of urban
climate. J. Wind Eng. Ind. Aero., 81, 237-248.
Best, M., 2006: Progress towards better weather forecasts for city dwellers: from short range to
climate change. Theor. Appl. Climatol., 84, 47-55.
Brutsaert, W., 1982: Evaporation into the Atmosphere. D. Reidel, Dordrecht, 299 p.
Hagishima, A., J. Tanimoto, and K. Narita, 2005: Intercomparisons of experimental convective heat
transfer coefficients and mass transfer coefficients of urban surfaces. Bound. Layer Meteor.,
117, 551-576.
Hanna S.R., and Chang J.C., 2001: Use of the kit fox field data to analyze dense gas dispersion
modeling issues. Atmos. Environ., 35, 2231-2242.
Inagaki, A. and M. Kanda, 2006: Turbulent organized structure over a reduced urban scale model,
Sixth Symposium on the Urban Environment, American Meterological Society, 29 January-2
February 2006, Atlanta, GA.
Kanda, M., 2006a: Large eddy simulations on the effects of surface geometry of building arrays on
turbulent organized structures. Bound. Layer Meteor., 118, 151-168.
Kanda, M., 2006b: Progress in the scale modeling of urban climate: Review. Theor. Appl.
Climatol., 84, 23-33
Kanda, M., 2006c: Atmospheric boundary layer and scalar dispersion with explicitly resolved
urban geometries using Large eddy simulation for city. Sixth Symposium on the Urban Envi-
ronment, American Meteorological Society, 29 January-2 February 2006, Atlanta, GA.
Kanda, M., R. Moriwaki, and F. Kasamatsu, 2004: Large eddy simulation of turbulent orga-
nized structure within and above explicitly resolved cubic arrays. Bound. Layer Meteor., 112,
343-368.
Kanda, M., T. Kawai, and K. Nakagawa, 2005a: A simple theoretical radiation scheme for regular
building arrays. Bound. Layer Meteor., 114, 71-90.
Kanda, M., T. Kawai, M. Kanega, R. Moriwaki, K. Narita, and A. Hagishima, 2005b: A simple
energy balance model for regular building arrays. Bound. Layer Meteor., 116, 423-443.
Kanda, M., M. Kanega, T. Kawai, R. Moriwaki, and H. Sugawara, 2007: Roughness lengths for
momentum and heat derived from outdoor urban scale models. J. Appl. Meteor. Cimatol., 46,
1067-1079.
Kogaki, T., T. Kobayashi, and N. Taniguchi, 1997: Large eddy simulation of flow around a rectan-
gular cylinder. Fluid Dyn. Res., 20, 11-24.
Kondo, H. and Y. Kikegawa, 2003: Temperature variation in the urban canopy with anthropogenic
energy use. Pure Appl. Geophys., 160, 317-324.
Kondo, H., Y. Genchi, Y. Kikegawa, Y. Ohashi, H. Yoshikado, and H. Komiyama, 2005:
Development of a multi-layer urban canopy model for the analysis of energy consumption
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