source: palm/trunk/INSTALL/test_oceanml_rc @ 3582

 ******************************    --------------------------------------------
 * PALM 5.0  Rev: 3291M       *    ocean - run without 1D - prerun
 ******************************    --------------------------------------------

 Date:                 01-10-18    Run:       test_oceanml                      
 Time:                 04:15:16    Run-No.:   00
 Run on host:              imuk
 Number of PEs:               4    Processor grid (x,y): (   2,   2) calculated
 ------------------------------------------------------------------------------

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

 --> Use the Moeng_Wyngaard turbulence closure (LES mode).
 --> 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 Piascek-Williams-Scheme (Form C3) or Upstream
 --> Scalar advection via Piascek-Williams-Scheme (Form C3) or Upstream
 --> Loop optimization method: cache
 --> Time differencing scheme: runge-kutta-3       
 ------------------------------------------------------------------------------


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

 Timestep:             variable     maximum value: 20.000 s    CFL-factor: 0.90
 Start time:              0.000 s
 End time:              300.000 s


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

 Grid length:      dx =       1.250 m    dy =       1.250 m
                dz(1) =       1.250 m

 Domain size:       x =     80.000 m     y =     80.000 m  z(u) =    -80.000 m



 Number of gridpoints (x,y,z):  (0:  63, 0:  63, 0:  65)
 Subdomain size (x,y,z):        (    32,     32,     66)


    Characteristic levels of the geo. wind component ug:

       Height:         0.0     0.0  m
       ug:            0.00    0.00  m/s
       Gradient:    ------    0.00  1/100s
       Gridpoint:        0      65

    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      65


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

 Topography: flat                                    


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

                     p                    uv                                  pt

 B. bound.: p(0)     = p(1)   | uv(0)     = uv(1)                 | pt(0)     = pt(1)            
 T. bound.: p(nzt+1) = p(nzt) | uv(nzt+1) = uv(nzt)               | pt(nzt+1) = pt(nzt)          

                     e

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

                     sa

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

 Top surface fluxes are used in diffusion terms at k=nzt
       Predefined constant momentumflux:  u: -0.000100 m**2/s**2
                                          v:  0.000000 m**2/s**2
       Predefined constant heatflux:    0.000000 K m/s
       Predefined constant salinityflux:    0.000000 psu m/s


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


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

    Characteristic levels of the initial temperature profile:

       Height:           0.0     0.0  m
       Temperature:   300.00  300.00  K
       Gradient:      ------    0.00  K/100m
       Gridpoint:          0      65

    Characteristic levels of the initial salinity profile:

       Height:        0.0     0.0  m
       Salinity:    35.00   35.00  psu
       Gradient:   ------    0.00  psu/100m
       Gridpoint:       0      65


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

    1D-Profiles:
       Output every             9999999.90 s


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


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


       Profile: e, e*, theta,                                                   
       Output every             ******** s
       Time averaged over           0.00 s
       Averaging input every        0.00 s

    Time series:
       Output format: netCDF 64bit offset                     

       Output every                 0.00 s

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


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

    Geograph. latitude  :   latitude  = 55.6 degr
    Geograph. longitude :   longitude =  0.0 degr
    Angular velocity    :   omega  = 0.729E-04 rad/s
    Coriolis parameter  :   f      =  0.000120 1/s
                            f*     =  0.000082 1/s

    Day of the year at model start :   day_init      =     172
    UTC time at model start        :   time_utc_init = 43200.0 s

    Gravity             :   g      =  9.8 m/s**2

    Reference state used in buoyancy terms: initial_profile


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



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

    Mixing length is limited to 1.80 * z


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

    Disturbance impulse (u,v) every :    60.00 s
    Disturbance amplitude           :     0.03 m/s
    Lower disturbance level         :   -28.12 m (GP   42)
    Upper disturbance level         :    -4.38 m (GP   61)
    Disturbances cease as soon as the disturbance energy exceeds 0.000 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  20.0000A   0.0228D  0.0228D  0.0124  0.000  0.00   0.000E+00      0.  0.122E-04  0.122E-04  0.270E-02  0.387E-12   53   1   6   58  26  28   47   9   8    0.000    0.000       0
  0      1 00:00:20.00  20.0000A   0.0233  -0.0219  -0.0126  0.000  0.00   0.000E+00      0.  0.123E-04  0.122E-04  0.442E-04  0.609E-14   53   1   6   60  21  57   47  45  36    0.000    0.000       0
  0      2 00:00:40.00  20.0000A   0.0234  -0.0224  -0.0131  0.000  0.00   0.000E+00      0.  0.123E-04  0.122E-04  0.441E-04  0.607E-14   53   1   6   57  54  38   47  45  36    0.000    0.000       0
  0      3 00:01:00.00  20.0000A  -0.0340D  0.0331D -0.0184  0.000  0.00   0.000E+00      0.  0.248E-04  0.244E-04  0.271E-02  0.388E-12   60  53  41   58  27  28   50  31  19    0.000    0.000       0
  0      4 00:01:20.00  20.0000A  -0.0329   0.0325  -0.0188  0.000  0.00   0.000E+00      0.  0.249E-04  0.242E-04  0.885E-04  0.122E-13   60  53  41   58  27  28   50  31  19    0.000    0.000       0
  0      5 00:01:40.00  20.0000A   0.0315  -0.0323  -0.0188  0.000  0.00   0.000E+00      0.  0.250E-04  0.240E-04  0.879E-04  0.121E-13   49  55  35   57   1  26   50  31  19    0.000    0.000       0
  0      6 00:02:00.00  20.0000A   0.0435D -0.0470D -0.0219  0.000  0.00   0.000E+00      0.  0.375E-04  0.360E-04  0.272E-02  0.390E-12   56  24  27   57   0  26   54  50  12    0.000    0.000       0
  0      7 00:02:20.00  20.0000A   0.0445  -0.0456  -0.0217  0.000  0.00   0.000E+00      0.  0.374E-04  0.354E-04  0.129E-03  0.177E-13   56  24  28   57   0  26   47  26  27    0.000    0.000       0
  0      8 00:02:40.00  20.0000A   0.0473   0.0449  -0.0218  0.000  0.00   0.000E+00      0.  0.372E-04  0.346E-04  0.127E-03  0.174E-13   56  24  28   53  53  45   47  26  27    0.000    0.000       0
  0      9 00:03:00.00  20.0000A   0.0528D -0.0504D -0.0250  0.000  0.00   0.000E+00      0.  0.495E-04  0.463E-04  0.271E-02  0.388E-12   56  24  28   43  11  40   56  43  19    0.000    0.000       0
  0     10 00:03:20.00  20.0000A   0.0542   0.0496  -0.0253  0.000  0.00   0.000E+00      0.  0.489E-04  0.449E-04  0.165E-03  0.223E-13   60  48   2   57   8  30   56  43  19    0.000    0.000       0
  0     11 00:03:40.00  20.0000A   0.0528  -0.0523  -0.0253  0.000  0.00   0.000E+00      0.  0.481E-04  0.433E-04  0.160E-03  0.215E-13   60  48   3   43  10  40   55  51  57    0.000    0.000       0
  0     12 00:04:00.00  19.6000A   0.0504D -0.0575D -0.0298  0.000  0.00   0.000E+00      0.  0.595E-04  0.539E-04  0.273E-02  0.393E-12   43  42  39   57  27  20   58  20  59    0.000    0.000       0
  0     13 00:04:19.60  19.9000A   0.0544  -0.0566  -0.0284  0.000  0.00   0.000E+00      0.  0.581E-04  0.515E-04  0.186E-03  0.249E-13   43  42  39   57  26  20   58  20  59    0.000    0.000       0
  0     14 00:04:39.50  19.7000A   0.0520  -0.0572  -0.0274  0.000  0.00   0.000E+00      0.  0.565E-04  0.489E-04  0.181E-03  0.241E-13   43  42  39   57  26  20   57  20  59    0.000    0.000       0
  0     15 00:04:59.19  20.0000A  -0.0511  -0.0511  -0.0284  0.000  0.00   0.000E+00      0.  0.549E-04  0.462E-04  0.171E-03  0.226E-13   53  33   8   59  60  21   54  50  57    0.000    0.000       0
  0     16 00:05:19.19  19.9000A   0.0559D -0.0566D -0.0341  0.000  0.00   0.000E+00      0.  0.655E-04  0.556E-04  0.272E-02  0.391E-12   58  23  33   48   9   0   54  50  57    0.000    0.000       0