source: palm/trunk/INSTALL/ex_lsm_clearsky_rc @ 2606

 ******************************    --------------------------------------------
 * PALM 4.0  Rev: 2532        *    atmosphere - run without 1D - prerun
 ******************************    --------------------------------------------

 Date:                 18-10-17    Run:       ex_lsm_clearsky     
 Time:                 17:42:56    Run-No.:   00
 Run on host:              imuk
 Number of PEs:               4    Processor grid (x,y): (   2,   2) calculated
 ------------------------------------------------------------------------------

 Numerical Schemes:
 -----------------

 --> Use the boussinesq approximation for the model equations.
 --> Solve perturbation pressure via FFT using temperton-algorithm routines
     perturbation pressure is calculated at every Runge-Kutta step
 --> Momentum advection via Wicker-Skamarock-Scheme 5th order
 --> Scalar advection via Wicker-Skamarock-Scheme 5th order
 --> Loop optimization method: cache
 --> Time differencing scheme: runge-kutta-3       
 --> Additional prognostic equation for the specific humidity
 ------------------------------------------------------------------------------


 Run time and time step information:
 ----------------------------------

 Timestep:             variable     maximum value: 20.000 s    CFL-factor: 0.90
 Start time:              0.000 s
 End time:              120.000 s


 Computational grid and domain size:
 ----------------------------------

 Grid length:      dx =     50.000 m    dy =     50.000 m    dz =     50.000 m
 Domain size:       x =   2000.000 m     y =   2000.000 m  z(u) =   2862.511 m

 dz constant up to   1200.000 m (k=  25), then stretched by factor: 1.080
 maximum dz not to be exceeded is dz_max = ********** m

 Number of gridpoints (x,y,z):  (0:  39, 0:  39, 0:  41)
 Subdomain size (x,y,z):        (    20,     20,     42)


    Characteristic levels of the geo. wind component ug:

       Height:         0.0     0.0  m
       ug:            5.00    5.00  m/s
       Gradient:    ------    0.00  1/100s
       Gridpoint:        0       0

    Characteristic levels of the geo. wind component vg:

       Height:         0.0     0.0  m
       vg:            0.00    0.00  m/s
       Gradient:    ------    0.00  1/100s
       Gridpoint:        0       0


 Topography information:
 ----------------------

 Topography: flat                                    


 Land surface model information:
 ------------------------------

    --> Soil bottom is closed (water content is conserved, default)
    --> Land surface type  : crops, mixed farming
    --> Soil porosity type : medium-fine

    Initial soil temperature and moisture profile:

       Height:              -0.01      -0.02      -0.05      -0.11      -0.22      -0.40      -0.86      -2.  m
       Temperature:        293.00     293.00     293.00     293.00     293.00     293.00     293.00     293.  K
       Moisture:             0.35       0.35       0.35       0.35       0.35       0.35       0.35       0.  m**3/m**3
       Root fraction:        0.03       0.07       0.14       0.14       0.28       0.09       0.22       0.  
       Grid point:              0          1          2          3          4          5          6


 Radiation model information:
 ----------------------------

    --> Simple radiation scheme for clear sky is used (no clouds, default)

    Albedo is set for land surface type: mixed farming, tall grassland
    Geograph. longitude            :   lambda =  0.0 degr
    Day of the year at model start :   day_init = 172
    UTC time at model start        :   time_utc_init = 43200.0 s
    Timestep: dt_radiation =  60.00  s


 Boundary conditions:
 -------------------

                     p                    uv                                  pt

 B. bound.: p(0)     = p(1)   | uv(0)     = -uv(1)                | pt(0)     = from soil model  
 T. bound.: p(nzt+1) = 0      | uv(nzt+1) = ug(nzt+1), vg(nzt+1)  | pt(nzt+1) = pt(nzt) + dpt/dz_

                     e

 B. bound.: e(0)     = e(1)                                                                      
 T. bound.: e(nzt+1) = e(nzt) = e(nzt-1)                                                         

                     q

 B. bound.: q(0)     = from soil model                                                           
 T. bound.: q(nzt+1) = q(nzt) + dq/dz                                                            

 Bottom surface fluxes are used in diffusion terms at k=1


    Constant flux layer between bottom surface and first computational u,v-level:

       z_mo =  25.00 m   z0 = 0.1000 m   z0h = 0.10000 m   kappa = 0.40
       Rif value range:     -20.00 <= rif <= 20.00
       Predefined surface temperature
       Predefined surface humidity


 Lateral boundaries:
       left/right:  cyclic              
       north/south: cyclic              


 Initial profiles:
 ----------------

    Characteristic levels of the initial temperature profile:

       Height:           0.0     0.0   800.0  m
       Temperature:   293.00  293.00  293.00  K
       Gradient:      ------    0.00    1.00  K/100m
       Gridpoint:          0       0      16

    Characteristic levels of the initial humidity profile:

       Height:           0.0       0.0  m
       Humidity:     0.1E-01   0.1E-01  kg/kg
       Gradient:    --------   0.0E+00  (kg/kg)/100m
       Gridpoint:          0         0


 List output:
 -----------

    1D-Profiles:
       Output every             ******** s
       Time averaged over         900.00 s
       Averaging input every        0.00 s


 Data output:
 -----------

       Time averaged over         900.00 s
       Averaging input every        0.00 s

    1D-Profiles:
       Output format: netCDF 64bit offset                     


       Profile: u, v, pt, km, kh, l, w, e, e*, p, w"pt", w*pt*, wpt,         

              : w*e*, pt*2, u*2, v*2, w*2, t_soil,                           
       Output every               900.00 s
       Time averaged over         900.00 s
       Averaging input every        0.00 s

    2D-Arrays:
       Output format: netCDF 64bit offset                     


       XY-cross-section  Arrays:  u*, t*, r_a*, r_s*, ghf*, shf*, qsws_liq*, qsws_soil*, qsws_veg*, c_l
       Output every              3600.00 s  
       Cross sections at k = /0/
       scalar-coordinates:   /0.0/ m


       Number of output time levels allowed: unlimited


    2D-Arrays(time-averaged):
       Output format: netCDF 64bit offset                     


       XY-cross-section  Arrays:  u*, t*, r_a*, r_s*, ghf*, shf*, qsws_liq*, qsws_soil*, qsws_veg*, c_l
       Output every              3600.00 s  
       Time averaged over        1800.00 s
       Averaging input every        0.00 s
       Cross sections at k = /0/
       scalar-coordinates:   /0.0/ m


       Number of output time levels allowed: unlimited


    3D-Arrays:
       Output format: netCDF 64bit offset                     


       Arrays:  pt, vpt, q, u, v, w, t_soil, m_soil,                                 
       Output every              3600.00 s  
       Upper output limit at     2862.51 m  (GP   41)


       Number of output time levels allowed: unlimited


    3D-Arrays(time-averaged):
       Output format: netCDF 64bit offset                     


       Arrays:  t_soil, m_soil,                                                      
       Output every              3600.00 s  
       Time averaged over        1800.00 s
       Averaging input every        0.00 s
       Upper output limit at     2862.51 m  (GP   41)


       Number of output time levels allowed: unlimited


    Time series:
       Output format: netCDF 64bit offset                     

       Output every                 0.00 s

 ------------------------------------------------------------------------------


 Physical quantities:
 -------------------

    Geograph. latitude  :   phi    = 55.0 degr
    Angular velocity    :   omega  = 0.729E-04 rad/s
    Coriolis parameter  :   f      =  0.000119 1/s
                            f*     =  0.000084 1/s

    Gravity             :   g      =  9.8 m/s**2

    Reference state used in buoyancy terms: initial_profile


 Cloud physics quantities / methods:
 ----------------------------------

    Humidity is considered, bu no condensation


 LES / Turbulence quantities:
 ---------------------------

    Mixing length is limited to 1.80 * z


 Actions during the simulation:
 -----------------------------

    Disturbance impulse (u,v) every :   ****** s
    Disturbance amplitude           :     0.25 m/s
    Lower disturbance level         :   125.00 m (GP    3)
    Upper disturbance level         :   625.00 m (GP   13)
    Disturbances cease as soon as the disturbance energy exceeds 0.010 m**2/s**2
    Random number generator used    : random-parallel



 *** no user-defined variables found

 ------------------------------------------------------------------------------



Run-control output:
------------------

RUN  ITER. HH:MM:SS.SS    DT(E)     UMAX     VMAX     WMAX     U*    W*      THETA*     Z_I     ENERG.   DISTENERG    DIVOLD     DIVNEW     UMAX(KJI)    VMAX(KJI)    WMAX(KJI)   ADVECX   ADVECY   MGCYC
---------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------
  0      0 00:00:00.00   8.6700A   5.1898D -0.2288D  0.1182  0.100  0.00   0.200E-11    800.  0.119E+02  0.103E-02  0.611E-03  0.888E-13    9   9  23   11   7  19    5  26   7    0.000    0.000       0
  0      1 00:00:08.67   8.6900A   5.1806   0.2159   0.1162  0.001  0.00   0.000E+00    550.  0.119E+02  0.867E-03  0.287E-05  0.440E-15    9   9  24    4   5  26    5  26   8    0.000    0.000       0
  0      2 00:00:17.35   8.6900A   5.1762   0.1915   0.1151  0.021  1.11  -0.474E+02    100.  0.119E+02  0.793E-03  0.759E-05  0.407E-15    5  16  32    4   5  27    5  26   9    0.000    0.000       0
  0      3 00:00:26.04   8.7000A   5.1723   0.1786   0.1113  0.021  0.72  -0.545E+01    100.  0.119E+02  0.751E-03  0.253E-05  0.386E-15    5  16  33    4   5  28    5  26  10    0.000    0.000       0
  0      4 00:00:34.75   8.7000A   5.1732  -0.1675   0.1061  0.028  0.70  -0.372E+01    100.  0.119E+02  0.721E-03  0.408E-05  0.358E-15    5  16  34    8  29  32    5  26  11    0.000    0.000       0
  0      5 00:00:43.45   8.7000A   5.1719  -0.1671   0.1028  0.034  0.94  -0.297E+01    250.  0.119E+02  0.698E-03  0.487E-05  0.337E-15    5  16  35    8  29  33    5  26  11    0.000    0.000       0
  0      6 00:00:52.15   8.7000A   5.1701  -0.1621   0.1039  0.040  0.94  -0.250E+01    250.  0.119E+02  0.680E-03  0.567E-05  0.321E-15    5  16  36    8  29  34    5  26  12    0.000    0.000       0
  0      7 00:01:00.85   8.7100A   5.1675  -0.1565   0.1043  0.046  1.22  -0.218E+01    550.  0.119E+02  0.665E-03  0.649E-05  0.306E-15    5  16  37    8  29  35    5  26  13    0.000    0.000       0
  0      8 00:01:09.56   8.7100A   5.1643   0.1515   0.1040  0.051  1.23  -0.195E+01    550.  0.119E+02  0.652E-03  0.733E-05  0.295E-15    5  16  38   11   3  22    5  26  14    0.000    0.000       0
  0      9 00:01:18.27   8.7100A   5.1636  -0.1506   0.1034  0.057  1.21  -0.172E+01    550.  0.119E+02  0.640E-03  0.812E-05  0.282E-15    5  16  38    8  29  36    5  26  15    0.000    0.000       0
  0     10 00:01:26.98   8.7100A   5.1636  -0.1516   0.1024  0.062  1.22  -0.158E+01    550.  0.119E+02  0.630E-03  0.898E-05  0.270E-15    5  16  39    8  29  37    5  26  16    0.000    0.000       0
  0     11 00:01:35.69   8.7200A   5.1632  -0.1516   0.1013  0.067  1.22  -0.148E+01    550.  0.119E+02  0.620E-03  0.980E-05  0.260E-15    5  16   0    8  29  38    5  26  17    0.000    0.000       0
  0     12 00:01:44.41   8.7200A   5.1625  -0.1506   0.0999  0.072  1.23  -0.139E+01    550.  0.119E+02  0.612E-03  0.106E-04  0.250E-15    5  16   1    8  29  39    5  26  18    0.000    0.000       0
  0     13 00:01:53.13   8.7200A   5.1614  -0.1488   0.0984  0.077  1.23  -0.132E+01    550.  0.119E+02  0.604E-03  0.115E-04  0.239E-15    5  16   2    8  29   0    5  26  19    0.000    0.000       0
  0     14 00:02:01.85   8.7200A   5.1600  -0.1462   0.0966  0.082  1.24  -0.126E+01    550.  0.119E+02  0.596E-03  0.123E-04  0.231E-15    5  16   3    8  29   1    5  26  20    0.000    0.000       0