= Convective boundary layer with horizontally homogeneous heating =
[[TracNav(gallery/toc)]]
The following visualizations are showing different flow aspects and phenomena of the convective boundary layer. All simulations are driven by a constant and horizontally homogeneous surface sensible (and latent) heat flux. The initial state is an atmosphere at rest with neutral stratification, capped by an inversion at about 800m. Simulations differ in domain size and grid resolution.\\
== Dust devils in the convective boundary layer (2012) #dustdevil2
{{{#!html
}}}
'''Project:''' [[imuk/projects/2011_01|Numerical impacts on the strength of simulated dust devils]] \\
\\
'''Responsible:''' [[imuk/members/hoffmann|Fabian Hoffmann]], [[imuk/members/maronga|Björn Maronga]]\\
\\
'''Description:''' This sequence shows the development of a large dust devil during a time period of 10 minutes. The shown region has a horizontal extent of 350 m x 300 m and is about 300 m high. The dust devil is made visible by a passive scalar which is advected by the flow. The surface flux of the passive scalar is calculated by a simple parametrization of the saltation process which depends on the friction velocity (White, 1979). Due to uncertainties in the parametrization of the surface flux, the displayed concentrations of the passive scalar are in arbitrary units. Dust concentrations in the order of magnitude of 0.1 g/m3 have been found for dust devils in field measurements (Renno et al., 2004).\\
||||='''Model Setup''' =||
||Total domain size (x|y|z):||768m x 768m x 945m||
||Grid spacing (x|y|z):||1m x 1m x 1m||
||Number of grid points (x|y|z):||768 x 768 x 832||
||Simulated time:||3h||
||CPU-time:||24h||
||Number of CPUs:||2048||
||Machine/ processor type:||SGI Altix ICE at HLRN||
||Visualization software:||VAPOR||
||DOI:||[http://dx.doi.org/10.5446/9352 10.5446/9352]||
----
== Structure parameter for temperature C,,T,,^2^ (2010) #structurel0
{{{#!html
}}}
'''Project:''' [[imuk/projects/2010_02|High-resolution LES studies of the turbulent structure of the lower atmospheric boundary layer over heterogeneous terrain and implications for the interpretation of scintillometer data]]\\
\\
'''Responsible:''' [[imuk/members/maronga|Björn Maronga]]\\
\\
'''Description:''' This visualization shows the turbulent structure parameter C,,T,,^2^ in the surface layer of a convectively driven boundary layer. Dark colors match to high values up to 0.01, whereas white colors represent lower values down to 0.001. All values which are out of range are set to transparent. Shown is the last half an hour of the simulation. The movie shows, that C,,T,,^2^ is high near the surface, decreasing with height. High values, in comparison with their horizontal environment can be observed in regions where warm air rises upward (plumes). These regions organize in hexagonal cells, which can also be seen in this sequence. Please note that the capping inversion in this simulation was in a height of about 400m.\\
||||='''Model Setup''' =||
||Total domain size (x|y|z):||1280m x 1280m x 1080m||
||Grid spacing (x|y|z):||5m x 5m x 5m||
||Number of grid points (x|y|z):||256 x 256 x 256||
||Simulated time:||1.5h||
||CPU-time:||1.5h||
||Number of CPUs:||64||
||Machine/ processor type:||SGI Altix ICE at HLRN / Intel Xeon Gainestown||
||Visualization software:||VAPOR||
----
== Horizontal cross-sections (2009) #crosssect
{{{#!td style="vertical-align:top; border: 0px solid"
{{{#!html
}}}
}}}
{{{#!td style="vertical-align:top; border: 0px solid""
{{{#!html
}}}
}}}
'''Project:''' [[imuk/projects/2008_05|Numerical Simulation of the interaction between the atmosphere and the wing circulation]]\\
\\
'''Responsible:''' [[imuk/members/helmke|Carolin Helmke]]\\
\\
'''Description:''' First sequence: Shown is the horizontal near-surface flow at z = 10m in a dry convective boundary layer. The particle color reflects the vertical velocity at the current particle position (red: upward, blue:downward). The near-surface flow is dominated by hexagonal cells with weak downdrafts in their centers and strong narrow updrafts within the lines of convergence between the cells. This flow pattern is sometimes called spoke-like pattern. Big plumes with cumulus clouds at their top can always be found at those centers where several spokes are merging. Although a very high grid resolution has been used, the pixel resolution used here does not allow to see any detailed small-scale flow structures. This sequence shows the last 15 minutes of a model run with 1.5 hours simulated time in total.\\
Second sequence: The simulation and particle features are the same as for the first sequence, but here only a part of the horizontal domain with a size of 400 m x 400 m is shown. The fine grid spacing allows to resolve vortex-like structures which develop within the convergence lines. Some of them are part of dust-devil-like vortices (see next sequence).\\
||||='''Model Setup''' =||
||Total domain size (x|y|z):||4096.0m x 4096.0m x 1859.7m||
||Grid spacing (x|y|z):||2m x 2m x 2m||
||Number of grid points (x|y|z):||2048 x 2048 x 450||
||Simulated time:||900s||
||CPU-time:||4.8h||
||Number of CPUs:||2048||
||Machine/ processor type:||SGI Altix ICE at HLRN / Intel Xeon Gainestown||
||Visualization software:||DSVR||
\\
||||||='''Download''' =||
||Video Format ||File size ||
||Flash (.flv) || 13.7mb||[[htdocs:gallery/movies/cbl_25fps_flash.flv|Download]] (2nd Sequence) ||
||MPEG (.avi) || 14.3mb||[[htdocs:gallery/movies/cbl_25fps_mpeg.avi|Download]] (2nd Sequence) ||
||Flash (.flv) || 3.1mb||[[htdocs:gallery/movies/cbl2_25fps_flash.flv|Download]] (3nd Sequence) ||
||MPEG (.avi) || 3.1mb||[[htdocs:gallery/movies/cbl2_25fps_mpeg.avi|Download]] (3rd Sequence) ||
----
== Dust devils (2006) #dustdevil1
{{{#!html
}}}
'''Project:''' [[imuk/projects/2006_02|LES of dust devils]]\\
\\
'''Responsible:''' [[imuk/members/franke|Theres Riechelmann]]\\
\\
'''Description:''' This animation displays 3d-views of the lower 150m of the same convective boundary layer as shown before. Particles are released near the surface in those areas, where the dynamic pressure is below a specified threshold of -2 Pa. This allows to visualize dust-devil like vortices, which always have a pressure minimum in their center. The particle color displays the magnitude of horizontal velocity (red: fast, blue: slow). At the end of the sequence, two dust devils with opposite rotation collide and cancel out each other due to conservation of angular momentum.\\
||||='''Model Setup''' =||
||Total domain size (x|y|z):||768m x 768m x 768m||
||Grid spacing (x|y|z):||2m x 2m x 2m||
||Number of grid points (x|y|z):||384 x 384 x 384||
||Simulated time:||1h||
||CPU-time:||||
||Number of CPUs:||||
||Machine/ processor type:||IBM Regatta / Power 4||
||Visualization software:||DSVR||
\\
||||||='''Download''' =||
||Video Format ||File size ||
||Flash (.flv) || 9.6mb||[[htdocs:gallery/movies/dust_devil.flv|Download]] ||
||MPEG (.avi) || 9.7mb||[[htdocs:gallery/movies/dust_devil.avi|Download]] ||
----
== 3D view on moist convection (2001) #moistconv
{{{#!html
}}}
'''Project:''' none\\
\\
'''Responsible:''' [[imuk/members/raasch|Siegfried Raasch]]\\
\\
'''Description:''' Particles are released near the surface. The particle color reflects the buoyancy at the current particle position (red: positive, blue: negative). The particle size is proportional to the magnitude of the vertical velocity component. The isososurfaces display areas with a liquid water content larger than 0.2 g/kg, i.e. cumulus clouds. The horizontal domain size in this simulation is too small in order to allow the development of the typical near-surface hexagonal flow pattern (see next two sequences).\\
||||='''Model Setup''' =||
||Total domain size (x|y|z):||2000m x 2000m x 4638m||
||Grid spacing (x|y|z):||25m x 25m x 25m||
||Number of grid points (x|y|z):||80 x 80 x 80||
||Simulated time:||1h||
||CPU-time:||176h||
||Number of CPUs:||32||
||Machine/ processor type:||SGI Altix ICE at HLRN / Intel Xeon Gainestown||
||Visualization software:||DSVR||
\\
||||||='''Download''' =||
||Video Format ||File size ||
||Flash (.flv) || 9.6mb||[[htdocs:gallery/movies/cbl5.flv|Download]] ||
||MPEG (.avi) || 9.7mb||[[htdocs:gallery/movies/cbl5.avi|Download]] ||
----