tmax[days]  SUN  phi   runnumber   
1000       0   30.0    1
S0       PWInit    CCinit  modeCC  EF  modeEF
1366.0   0.0     0.0       1      0.0    2
gamma[1..channelmax](Always put gamma[1]=0!!! Correction is made in program if ozone=0)
0.0   0.14      0.27      0.53
Ozone   Soilwetness  grey
1        1            0
Bowen     Hv0      Lv
0.15     2000     2500000.0
pCO2     qstrat    epsg       Tauc(hrs)
0.000400  0.000000    1.0    1.5
sigmaO3 sigmaCO2[0/1] sigmaL   sigmav  (bands 1 (window) and 2 (CO2) and 3/4(H2Ovapour)
0.0         0          5.0      0.01         
0.0         1          5.0      0.19        
0.0         0          5.0      2.37
0.0         0          5.0      10.0         
sigmaSWwv (channels 1 to 4) (Arking, J.Clim., 1999, p. 1594: 0.0012 in channel 4+"Dimer"-absorption)
0.000   0.000   0.000    0.001
alfag    alfac
0.1     0.45



{End file}

Information about the parameters:

SUN: 
0: then Solar irradiance=constant in time and equal to global average; 
1: Solar irradiance follow yearly cycle depending on JulianDay and latitude

phi: if irradiance follows yearly cycle you must specify latitude

modeEF=0:fixed Evaporationflux; 
modeEF=1 Parametrized evaporationflux in terms of prescribed Bowen ratio; 
modeEF=2 Parametrized evaporationflux in terms of difference in es and relative humidity}

modeCC=0; {modeCC=0:fixed cloud cover; modeCC=1 Parametrized cloud cover in terms of relative humidity at the ground}

CCinit=0 initial CC

S0=Solar constant
Bowen=Bowen ratio
Hv0=scale height water vapour
pCO2=CO2-concentration in ppmv
epsg=emission coefficient earth' surface
Tauc=relaxation timescale precipitation
sigmaSWwv=abs. cross sections of water vapour in 4 short wave radiation channels

alfag=albedo of earth's surface
alfac=albedo of clouds