Changes between Version 24 and Version 25 of doc/tec/bc

Timestamp:

May 10, 2016 5:17:32 PM (9 years ago)

Author:

Giersch

Comment:

--

doc/tec/bc

@@ -231 +231 @@
 [[Image(03.png,600px,border=1)]]
 
-Figure 2: Schematic figure of the turbulence recycling method used for generation of turbulent inflow. The configuration represents exemplary conditions with a built-up analysis area (brown surface) and an open water recycling area (blue surface). The blue arrow indicates the flow direction.
+Figure 3: Schematic figure of the turbulence recycling method used for generation of turbulent inflow. The configuration represents exemplary conditions with a built-up analysis area (brown surface) and an open water recycling area (blue surface). The blue arrow indicates the flow direction.
 
 The turbulent signal ''φ^'^(y, z, t)'' is taken from a recycling plane which is located at a fixed distance ''x'',,recycle,, from the inlet:
@@ -291 +291 @@
 [[Image(04.png,600px,border=1)]]
 
-Figure 3: Sketch of the 2.5-D implementation of topography using the mask method (here for ''w''). The yellow and red lines represent the limits of the arrays ''nzb_w_inner'' and ''nzb_w_outer'' as described in Sect. [wiki:doc/tec/topography topography implementation], respectively.
+Figure 4: Sketch of the 2.5-D implementation of topography using the mask method (here for ''w''). The yellow and red lines represent the limits of the arrays ''nzb_w_inner'' and ''nzb_w_outer'' as described in Sect. [wiki:doc/tec/topography topography implementation], respectively.
 
 Additional topography code is only executed in grid volumes of subdomain B. The faces of the obstacles are always located where the
@@ -307 +307 @@
 [[Image(05.png,600px,border=1)]]
 
-Figure 4: Snapshot of the absolute value of the 3-D rotation vector of the velocity field (red to white colors) for a simulation of the city of Macau, including a newly built-up artificial island (left). Buildings are displayed in blue. A neutrally-stratified flow was simulated with the mean flow direction from the upper-left to the bottom-right, i.e. coming from the open sea and flowing from the artificial island to the city of Macau. The figure shows only a subregion of the simulation domain that spanned a horizontal model domain of about ''6.1x2.0x1 km^3^'', and with an equidistant grid spacing of ''8''m}$. The copyright for the underlying satellite image is held by Cnes / Spot Image, Digitalglobe. For more details, see associated animation [#knoop2014 Knoop et al. (2014)].
+Figure 5: Snapshot of the absolute value of the 3-D rotation vector of the velocity field (red to white colors) for a simulation of the city of Macau, including a newly built-up artificial island (left). Buildings are displayed in blue. A neutrally-stratified flow was simulated with the mean flow direction from the upper-left to the bottom-right, i.e. coming from the open sea and flowing from the artificial island to the city of Macau. The figure shows only a subregion of the simulation domain that spanned a horizontal model domain of about ''6.1x2.0x1 km^3^'', and with an equidistant grid spacing of ''8''m}$. The copyright for the underlying satellite image is held by Cnes / Spot Image, Digitalglobe. For more details, see associated animation [#knoop2014 Knoop et al. (2014)].
 
 The technical realization of the topography will be outlined in Sect. [wiki:doc/tec/topography topography implementation].