source: palm/trunk/TESTS/cases/urban_environment_salsa/MONITORING/urban_environment_salsa_rc.000 @ 4780

 ******************************    --------------------------------------------
 * PALM 6.0  Rev: 3915M       *    atmosphere - run without 1D - prerun
 ******************************    --------------------------------------------

 Date:               2020-11-09    Run:       urban_environment_salsa__gfortran_
 Time:                 20:09:37    Run-No.:   00
 Run on host:        gfortran_d
 Number of PEs:               2    Processor grid (x,y): (   1,   2) calculated
                                   A 1d-decomposition along y is used
 ------------------------------------------------------------------------------

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

 --> Use the 1.5-order turbulence closure (LES mode).
 --> Use the boussinesq approximation for the model equations.
 --> Solve perturbation pressure via FFT using fftw 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:             1231.000 s
 Spinup time:          1200.000 s


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

 Grid length:      dx =       2.000 m    dy =       2.000 m
                dz(1) =       2.000 m

 Domain size:       x =     40.000 m     y =     40.000 m  z(u) =    121.000 m



 Number of gridpoints (x,y,z):  (0:  19, 0:  19, 0:  61)
 Subdomain size (x,y,z):        (    20,     10,     62)


    Characteristic levels of the geo. wind component ug:

       Height:         0.0     0.0  m
       ug:            1.00    0.00  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: read_from_file                          
 Topography grid definition convention:
 cell center (scalar grid points)



 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 =   1.00 m   z0 = 0.1000 m   z0h = 0.10000 m   kappa = 0.40
       zeta value range:     -20.00 <= zeta <= 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  m
       Temperature:   277.15  277.12  K
       Gradient:      ------    0.00  K/100m
       Gridpoint:          0       0

    Characteristic levels of the initial humidity profile:

       Height:           0.0       0.0  m
       Humidity:     0.1E-02   0.4E-02  kg/kg
       Gradient:    --------   0.0E+00  (kg/kg)/100m
       Gridpoint:          0         0


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

    1D-Profiles:
       Output every             9999999.90 s
       Time averaged over          30.00 s
       Averaging input every        0.00 s


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

       Time averaged over          30.00 s
       Averaging input every        0.00 s

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


       Profile: u, u*2, wu, w*u*, w"u", v, v*2, wv, w*v*, w"v", theta,       

              : theta*2, wtheta, w*theta*, w"theta", q, q*2, e, e*,          

              : km, l, t_soil, m_soil, rad_lw_in, rad_lw_out, salsa_Ntot,    

              : salsa_N_UFP, salsa_LDSA, salsa_PM0.1, salsa_PM2.5, salsa_PM10

              :                                                              
       Output every                30.00 s
       Time averaged over          30.00 s
       Averaging input every        0.00 s

    Time series:
       Output format: netCDF 64bit offset                     

       Output every                 5.00 s

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


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

    Geograph. latitude  :   latitude  =  52.5 degr
    Geograph. longitude :   longitude =  13.3 degr
    Rotation angle      :   rotation_angle =   0.0 degr
    Angular velocity    :   omega  = 0.729E-04 rad/s
    Coriolis parameter  :   f      =  0.000116 1/s
                            f*     =  0.000089 1/s

    Date and time at model start : 2019-03-06 10:00:00 +00

    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 close to surfaces


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

    Disturbance impulse (u,v) every :   ****** s
    Disturbance amplitude           :     0.25 m/s
    Lower disturbance level         :     5.00 m (GP    3)
    Upper disturbance level         :    39.00 m (GP   20)
    Disturbances cease as soon as the disturbance energy exceeds 0.010 m**2/s**2
    Random number generator used    : random-parallel



 *** dynamic module disabled



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

    --> Soil bottom is closed (water content is conserved, default)
    --> Land surface type  : read from file
    --> Soil porosity type : read from file

    Initial soil temperature and moisture profile:

       Height:              -0.01      -0.02      -0.05      -0.10      -0.20      -0.40      -0.80      -2.  m
       Temperature:        277.15     277.00     277.00     277.00     277.00     277.00     277.00     277.  K
       Moisture:             0.30       0.30       0.30       0.30       0.30       0.30       0.30       0.  m**3/m**3
       Root fraction:        0.49       0.26       0.25       0.00       0.00       0.00       0.00       0.  
       Grid point:              0          1          2          3          4          5          6


 Vegetation canopy (drag) model:
 ------------------------------

 Canopy mode: read_from_file                
 Canopy height:  10.00m (   5 grid points)
 Leaf drag coefficient:   0.30

 Predefined constant heatflux at the top of the vegetation:   0.00 K m/s

 Characteristic levels of the leaf area density:

 Height:                 0.0     0.0  m
 Leaf area density:    0.0000    0.00  m**2/m**3
 Gradient:            ------    0.00  m**2/m**4
 Gridpoint:                0       0


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

    --> RRTMG scheme is used

    Albedo is set individually for each xy-location, according to given surface type.
    Timestep: dt_radiation =  60.00  s


 SALSA information:
 ------------------------------

    Starts at: skip_time_do_salsa =      10.00  s

    Timestep: dt_salsa =   2.00  s

    Array shape (z,y,x,bins):
       aerosol_number:     60   19   19    8

       aerosol_mass:       60   19   19   32
       (advect_particle_water = T)
       salsa_gas:    60   19   19    5
       (salsa_gases_from_chem = F)

    Aerosol dynamic processes included: 

       dry deposition (on vegetation = T and on topography = T)

    Aerosol bin subrange limits (in metres):  3.00E-009 1.00E-008 2.50E-006
    Number of size bins for each aerosol subrange:   1  7
    Aerosol bin lower limits (in metres):  3.00E-009 1.00E-008 2.20E-008 4.84E-008 1.07E-007 2.35E-007 5.16E-007 1.14E-006

    Bin geometric mean diameters (in metres):  5.48E-009 1.48E-008 3.26E-008 7.18E-008 1.58E-007 3.48E-007 7.66E-007 1.69E-006

    Number of chemical components used: 3
       Species:    OC    NO    NH                         
    Initial relative contribution of each species to particle volume in:
       a-bins:  0.800 0.100 0.100 0.000 0.000 0.000 0.000
       b-bins:  0.000 0.000 0.000 0.000 0.000 0.000 0.000

    Number of gaseous tracers used: 5
    Initial gas concentrations:
       H2SO4:  5.0000E+012 #/m**3
       HNO3:   3.0000E+012 #/m**3
       NH3:    6.0000E+012 #/m**3
       OCNV:   1.0000E+012 #/m**3
       OCSV:   1.0000E+012 #/m**3

   Initialising concentrations: 
      Aerosol size distribution: init_aerosol_type = 1
      Gas concentrations: init_gases_type = 1

      Size distribution read from a file.

   Emissions: salsa_emission_mode = read_from_file      

      (currently all emissions are soluble!)

   Boundary conditions for aerosols:
      bottom/top:      neumann /  dirichlet
      north/south:      cyclic /     cyclic
      left/right:    dirichlet /  dirichlet
 ------------------------------------------------------------------------------



Spinup control output:---------------------------------

ITER.   HH:MM:SS    DT   PT(z_MO)---------------------------------
    1  -00:18:00  120.00   288.14
    2  -00:16:00  120.00   288.17
    3  -00:14:00  120.00   288.21
    4  -00:12:00  120.00   288.24
    5  -00:10:00  120.00   288.27
    6  -00:08:00  120.00   288.30
    7  -00:06:00  120.00   288.33
    8  -00:04:00  120.00   288.35
    9  -00:02:00  120.00   288.38
   10   00:00:00  120.00   288.41



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   0.7580A  -2.3731D -1.1942D  0.4177  0.060  0.00  -0.148E+00     16.  0.137E+01  0.743E-02  0.234E-01  0.446E-02   60  17  18   19   0  14   20  18   0    0.000    0.000       0
  0      1 00:00:00.75   0.7580A  -2.3732  -1.5382   0.7410  0.084  0.33  -0.778E+00      2.  0.137E+01  0.116E-01  0.268E-02  0.892E-03   60  18  15   16  15   0   20  18   0    0.000    0.000       0
  0      2 00:00:01.51   0.7580A  -2.3733  -1.6029   0.8136  0.083  0.00  -0.796E+00      2.  0.137E+01  0.125E-01  0.953E-03  0.351E-03   60  17  14   16  15   0   20  17   0    0.000    0.000       0
  0      3 00:00:02.27   0.7580A  -2.3733  -1.5856   0.8389  0.082  0.00  -0.801E+00      2.  0.137E+01  0.129E-01  0.818E-03  0.240E-03   60  17  13   17  15   0   20  17   0    0.000    0.000       0
  0      4 00:00:03.03   0.7580A  -2.3734  -1.5378   0.8459  0.082  0.12  -0.807E+00     12.  0.137E+01  0.132E-01  0.778E-03  0.213E-03   60  17  13   17  15   0   20  17   0    0.000    0.000       0
  0      5 00:00:03.79   0.7580A  -2.3735  -1.5013   0.8437  0.081  0.16  -0.809E+00     12.  0.137E+01  0.134E-01  0.769E-03  0.205E-03   60  17  12   17  14   0   20  17   0    0.000    0.000       0
  0      6 00:00:04.54   0.7580A  -2.3736  -1.4549   0.8375  0.080  0.17  -0.811E+00     12.  0.137E+01  0.137E-01  0.763E-03  0.201E-03   60  17  11   17  14   0   20  17   0    0.000    0.000       0
  0      7 00:00:05.30   0.7580A  -2.3736  -1.4322   0.8301  0.080  0.18  -0.811E+00     12.  0.137E+01  0.140E-01  0.759E-03  0.199E-03   60  16  10   11  14   0   20  17   0    0.000    0.000       0
  0      8 00:00:06.06   0.7580A  -2.3737  -1.4026   0.8224  0.079  0.18  -0.811E+00     12.  0.137E+01  0.143E-01  0.758E-03  0.197E-03   60  16  10   11  14   0   20  17   0    0.000    0.000       0
  0      9 00:00:06.82   0.7580A  -2.3738  -1.3752   0.8146  0.078  0.19  -0.812E+00     12.  0.137E+01  0.146E-01  0.758E-03  0.196E-03   60  16   9   11  14   0   20  17   0    0.000    0.000       0
  0     10 00:00:07.58   0.7580A  -2.3739  -1.3530   0.8073  0.078  0.24  -0.812E+00     18.  0.137E+01  0.149E-01  0.759E-03  0.196E-03   60  15   8   11  14   0   20  17   0    0.000    0.000       0
  0     11 00:00:08.33   0.7580A  -2.3739  -1.3349   0.8010  0.077  0.24  -0.813E+00     18.  0.137E+01  0.152E-01  0.761E-03  0.196E-03   60  15   7   11  14   0   20  17   0    0.000    0.000       0
  0     12 00:00:09.09   0.7580A  -2.3740  -1.3227   0.7963  0.077  0.24  -0.813E+00     18.  0.136E+01  0.156E-01  0.765E-03  0.195E-03   60  15   6   16  14   0   20  17   0    0.000    0.000       0
  0     13 00:00:09.85   0.7580A  -2.3741  -1.3176   0.7934  0.076  0.25  -0.814E+00     18.  0.136E+01  0.160E-01  0.769E-03  0.195E-03   60  14   5   16  14   0   20  17   0    0.000    0.000       0
  0     14 00:00:10.61   0.7580A  -2.3742  -1.3089   0.7920  0.076  0.25  -0.815E+00     18.  0.136E+01  0.163E-01  0.774E-03  0.195E-03   60  14   5   16  14   0   20  17   0    0.000    0.000       0
  0     15 00:00:11.37   0.7580A  -2.3743  -1.2968   0.7912  0.076  0.25  -0.815E+00     18.  0.136E+01  0.167E-01  0.778E-03  0.194E-03   60  13   4   16  14   0   20  17   0    0.000    0.000       0
  0     16 00:00:12.12   0.7580A  -2.3743  -1.2813   0.7902  0.075  0.25  -0.815E+00     18.  0.136E+01  0.171E-01  0.781E-03  0.193E-03   60  13   3   16  14   0   20  17   0    0.000    0.000       0
  0     17 00:00:12.88   0.7580A  -2.3744  -1.2624   0.8043  0.075  0.25  -0.814E+00     18.  0.136E+01  0.175E-01  0.783E-03  0.192E-03   60  12   2   16  14   0   11  14  18    0.000    0.000       0
  0     18 00:00:13.64   0.7580A  -2.3745  -1.2557   0.8320  0.074  0.25  -0.814E+00     18.  0.136E+01  0.179E-01  0.787E-03  0.191E-03   60  12   1   11  14   0   10  14  18    0.000    0.000       0
  0     19 00:00:14.40   0.7580A  -2.3746  -1.2518   0.8627  0.074  0.26  -0.814E+00     18.  0.136E+01  0.183E-01  0.790E-03  0.189E-03   60  12   1   11  14   0   10  14  18    0.000    0.000       0
  0     20 00:00:15.16   0.7580A  -2.3746  -1.2492   0.8921  0.074  0.26  -0.814E+00     18.  0.136E+01  0.187E-01  0.793E-03  0.188E-03   60  12   0   11  14   0   10  14  18    0.000    0.000       0
  0     21 00:00:15.91   0.7580A  -2.3747  -1.2474   0.9183  0.073  0.26  -0.814E+00     18.  0.136E+01  0.191E-01  0.797E-03  0.186E-03   60  11  19   11  14   0   10  14  18    0.000    0.000       0
  0     22 00:00:16.67   0.7580A  -2.3748  -1.2464   0.9400  0.073  0.26  -0.814E+00     18.  0.136E+01  0.195E-01  0.800E-03  0.185E-03   60  11  18   11  14   0   10  14  18    0.000    0.000       0
  0     23 00:00:17.43   0.7580A  -2.3749  -1.2461   0.9565  0.073  0.26  -0.814E+00     18.  0.136E+01  0.199E-01  0.803E-03  0.183E-03   60  10  17   11  14   0   10  14  18    0.000    0.000       0
  0     24 00:00:18.19   0.7580A  -2.3749  -1.2462   0.9675  0.072  0.26  -0.814E+00     18.  0.136E+01  0.203E-01  0.805E-03  0.182E-03   60  10  16   11  14   0   10  14  18    0.000    0.000       0
  0     25 00:00:18.95   0.7580A  -2.3750  -1.2465   0.9736  0.072  0.26  -0.813E+00     18.  0.136E+01  0.207E-01  0.809E-03  0.180E-03   60  10  16   11  14   0   10  14  18    0.000    0.000       0
  0     26 00:00:19.70   0.7580A  -2.3751  -1.2470   0.9755  0.072  0.27  -0.813E+00     18.  0.136E+01  0.211E-01  0.812E-03  0.179E-03   60  10  15   11  14   0   10  14  18    0.000    0.000       0
  0     27 00:00:20.46   0.7580A  -2.3752  -1.2473   0.9746  0.072  0.27  -0.813E+00     18.  0.136E+01  0.215E-01  0.816E-03  0.178E-03   60   9  14   11  14   0   11  14  18    0.000    0.000       0
  0     28 00:00:21.22   0.7580A  -2.3752  -1.2475   0.9801  0.071  0.38  -0.813E+00     40.  0.136E+01  0.219E-01  0.819E-03  0.177E-03   60   9  13   11  14   0   11  14  18    0.000    0.000       0
  0     29 00:00:21.98   0.7580A  -2.3753  -1.2475   0.9808  0.071  0.38  -0.813E+00     40.  0.136E+01  0.222E-01  0.822E-03  0.176E-03   60   9  12   11  14   0   11  14  18    0.000    0.000       0
  0     30 00:00:22.74   0.7580A  -2.3754  -1.2474   0.9773  0.071  0.38  -0.814E+00     40.  0.136E+01  0.226E-01  0.826E-03  0.175E-03   60   8  11   11  14   0   11  14  18    0.000    0.000       0
  0     31 00:00:23.49   0.7580A  -2.3755  -1.2472   0.9701  0.070  0.39  -0.814E+00     40.  0.136E+01  0.230E-01  0.830E-03  0.174E-03   60   8  11   11  14   0   11  14  18    0.000    0.000       0
  0     32 00:00:24.25   0.7580A  -2.3755  -1.2468   0.9601  0.070  0.39  -0.814E+00     40.  0.136E+01  0.234E-01  0.834E-03  0.173E-03   60   8  10   11  14   0   11  14  18    0.000    0.000       0
  0     33 00:00:25.01   0.7580A  -2.3756  -1.2463   0.9495  0.070  0.39  -0.814E+00     40.  0.136E+01  0.238E-01  0.838E-03  0.172E-03   60   7   9   11  14   0   10  14  18    0.000    0.000       0
  0     34 00:00:25.77   0.7580A  -2.3757  -1.2455   0.9456  0.070  0.39  -0.814E+00     40.  0.136E+01  0.242E-01  0.842E-03  0.171E-03   60   7   8   11  14   0   10  14  18    0.000    0.000       0
  0     35 00:00:26.53   0.7580A  -2.3758  -1.2443   0.9416  0.069  0.40  -0.814E+00     40.  0.136E+01  0.246E-01  0.845E-03  0.170E-03   60   7   7   11  14   0   10  14  18    0.000    0.000       0
  0     36 00:00:27.28   0.7580A  -2.3758  -1.2426   0.9447  0.069  0.40  -0.815E+00     40.  0.136E+01  0.250E-01  0.848E-03  0.169E-03   60   6   6   11  14   0   11  14  17    0.000    0.000       0
  0     37 00:00:28.04   0.7580A  -2.3759  -1.2401   0.9567  0.069  0.40  -0.815E+00     40.  0.136E+01  0.254E-01  0.850E-03  0.168E-03   60   6   5   11  14   0   11  14  17    0.000    0.000       0
  0     38 00:00:28.80   0.7580A  -2.3760  -1.2369   0.9685  0.069  0.40  -0.815E+00     40.  0.136E+01  0.257E-01  0.853E-03  0.167E-03   60   6   5   11  14   0   11  14  17    0.000    0.000       0
  0     39 00:00:29.56   0.7580A  -2.3761  -1.2329   0.9788  0.069  0.41  -0.815E+00     40.  0.136E+01  0.261E-01  0.856E-03  0.167E-03   60   5   3   11  14   0   11  14  17    0.000    0.000       0
  0     40 00:00:30.32   0.7580A  -2.3761  -1.2305   0.9868  0.068  0.41  -0.815E+00     40.  0.136E+01  0.265E-01  0.858E-03  0.166E-03   60   5   3   11  13   0   11  14  17    0.000    0.000       0
  0     41 00:00:31.07   0.7580A  -2.3762  -1.2321   0.9918  0.068  0.41  -0.816E+00     40.  0.136E+01  0.269E-01  0.861E-03  0.165E-03   60   5   2   11  13   0   11  14  17    0.000    0.000       0