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Urban roughness

Urban heat Soil sub- Urban roughness Use of satellite... [Pg.2]

Module wiA correclitm of urban roughness parameters, displacement height, anthropogenic and storage flux, albedo... [Pg.174]

Approach based on improved urban roughness and fluxes... [Pg.324]

Figure 9.7 Sensitivity tests to urban features with the DMI-HIRLAM high resolution model shown as the difference fields (runs without vs. with modifications) for the 2-m temperature (upper row) and 10-m wind velocity (lower row) separately with the inclusion of the AHF (left) and urban roughness (right) over the Copenhagen and Malmo metropolitan areas on 30 March 2005. Figure 9.7 Sensitivity tests to urban features with the DMI-HIRLAM high resolution model shown as the difference fields (runs without vs. with modifications) for the 2-m temperature (upper row) and 10-m wind velocity (lower row) separately with the inclusion of the AHF (left) and urban roughness (right) over the Copenhagen and Malmo metropolitan areas on 30 March 2005.
Figure 9.8 Diurnal cycle (30 March 2005) of wind velocity at 10 m (wlOs, in m/s top panel) and air temperature at 2 m (T2m, in deg. °C lower panel) based on the DMI-HIRLAM high resolution control run (NOA), modified runs with added anthropogenic heat flux (max 200 W/m2) (A20) and urban roughness (max 2 m) (Z02) vs. observational data (obs) at Vaerlose urban station (55.77°N, 12.33°E) located in central Copenhagen (Baklanov et al., [38]). Figure 9.8 Diurnal cycle (30 March 2005) of wind velocity at 10 m (wlOs, in m/s top panel) and air temperature at 2 m (T2m, in deg. °C lower panel) based on the DMI-HIRLAM high resolution control run (NOA), modified runs with added anthropogenic heat flux (max 200 W/m2) (A20) and urban roughness (max 2 m) (Z02) vs. observational data (obs) at Vaerlose urban station (55.77°N, 12.33°E) located in central Copenhagen (Baklanov et al., [38]).
Bottema, M. (1997) Urban roughness modelling in relation to pollutant dispersion, Atmos. Em. 31, 3059-3075. [Pg.366]

Bottema, M., and Mestayer, P.G. (1998) Urban roughness mapping-validation techniques and some first results, J. Wind Engineering Industrial Aerodynamics, 74-76, 163-173. [Pg.366]

Kastner-Klein, P., Rotach, M and Fedorovich, E. (2000) Experimental study on mean flow and turbulence characteristics in an urban roughness sublayer, in Proceedings of 14th AMS Symposium on Boundary Layers and Turbulence, Aspen, CO, August 7-11, 2000. [Pg.385]

Kastner-Klein, P., and Rotach, M.W. (2004) Mean Flow and Turbulence Characteristics in an Urban Roughness Sublayer, Boundary-Layer Meteorology Vol. Ill, 55-84. [Pg.385]

Rotach, M.W.(1999) On the influence of the urban roughness sublayer on turbulence and dispersion, Atmospheric Environment 33, 4001 008. [Pg.401]

Zilitinkevich, S Baklanov, A.(2005) An analytical model of the mean-wind and the momentum flux profiles in the urban roughness layer. Ch. 3 in DMIScientific Report 04-08, ISBN 87-7478-510-9. (To be submitted to Boundary-Layer Meteorol.). [Pg.410]

See other pages where Urban roughness is mentioned: [Pg.174]    [Pg.16]    [Pg.290]    [Pg.315]    [Pg.317]    [Pg.321]    [Pg.322]    [Pg.324]    [Pg.325]    [Pg.326]    [Pg.326]    [Pg.330]    [Pg.330]    [Pg.330]   
See also in sourсe #XX -- [ Pg.16 , Pg.290 ]



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