*DFS V2.2 # Zone air movement description.
*conflation 2  # conflation type (not applicable to cfd-only)
*title ...                                                                     
# user supplied notes for this domain
*thermal_geom
*vrts    1   2   4   5
# Ze is 0 if orthogonal
*regions    2   2   1   0  # regions in X Y Zw Ze directions
# Negative cell number enables symetrical gridding.
*xregion
   7   0.250   1.000 # no cells, length, power law coeff
  22   0.750   1.000 # no cells, length, power law coeff
*yregion
  19   0.750   1.000 # no cells, length, power law coeff
   6   0.250   1.000 # no cells, length, power law coeff
*zwregion
  19   1.000   1.000 # no cells, length, power law coeff
# Define the volumes for the CFD domain.
*volumes    2
# name  type  Ii If Ji Jf Ki Kf
Corner       Block    1   6  20  25   1  19
Wall2        North    6  25  25  25   1  19
# Solid boundary conditions.
*solids 
Wall2        Temp   0.00
# Air flow boundary conditions.
*air_flow 
# Internal sources.
*contaminants(   0 contaminants, humdity is contaminant number   0 )
# Blockages.
*blockages
Corner       Heat       0.000
*solution_methods
Turbulence 1 # k-e model
Buoyancy 2   273.00 # Boussinesq approx.
# Equations to be solved:
*solution_equations
#  Type  Initial value  Relaxation type and factor
Pressure    0.000 Linear  0.000
Vel U  0.100E-02 Linear  0.500
Vel V  0.100E-02 Linear  0.500
Vel W  0.100E-02 Linear  0.500
Temp   20.000 Linear  1.000
Ted   0.00     Linear   0.00    
Epd   0.00     Linear   0.00    
# Iteration control.
*iteration 
     0   0.000     No
*monitor   10  10  10  CFD.mon
*reint  NO
*svf  1  # frequency of results writing