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Commit a34dcd43 authored by Victor Stepanenko's avatar Victor Stepanenko
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Kuivajarvi2012-2013 configuration files added

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data/Kuivajarvi_2012-2013.dat 0 → 100644
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data/Kuj2012-13_inflow.dat 0 → 100644
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data/Kuj2012-13_outflow.dat 0 → 100644
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30 0.00 0.00
31 0.00 0.00
32 0.00 0.00
33 0.00 0.00
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35 0.00 0.00
36 0.00 0.00
37 0.00 0.00
38 0.00 0.00
39 0.00 0.00
40 0.00 0.00
41 0.00 0.00
1 14 0.08
2 0.00 0.00
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1 14 0.10
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36 0.00 0.00
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41 0.00 0.00
1 14 0.06
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31 0.00 0.00
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34 0.00 0.00
35 0.00 0.00
36 0.00 0.00
37 0.00 0.00
38 0.00 0.00
39 0.00 0.00
40 0.00 0.00
41 0.00 0.00
1 14 0.02
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6 0.00 0.00
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25 0.00 0.00
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27 0.00 0.00
28 0.00 0.00
29 0.00 0.00
30 0.00 0.00
31 0.00 0.00
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33 0.00 0.00
34 0.00 0.00
35 0.00 0.00
36 0.00 0.00
37 0.00 0.00
38 0.00 0.00
39 0.00 0.00
40 0.00 0.00
41 0.00 0.00
1 14 0.01
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40 0.00 0.00
41 0.00 0.00
1 14 0.01
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36 0.00 0.00
37 0.00 0.00
38 0.00 0.00
39 0.00 0.00
40 0.00 0.00
41 0.00 0.00
1 14 0.01
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36 0.00 0.00
37 0.00 0.00
38 0.00 0.00
39 0.00 0.00
40 0.00 0.00
41 0.00 0.00
1 14 0.01
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41 0.00 0.00
1 14 0.01
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41 0.00 0.00
1 14 0.15
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40 0.00 0.00
41 0.00 0.00
1 14 0.15
2 0.00 0.00
3 0.00 0.00
4 0.00 0.00
5 0.00 0.00
6 0.00 0.00
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27 0.00 0.00
28 0.00 0.00
29 0.00 0.00
30 0.00 0.00
31 0.00 0.00
32 0.00 0.00
33 0.00 0.00
34 0.00 0.00
35 0.00 0.00
36 0.00 0.00
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38 0.00 0.00
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40 0.00 0.00
41 0.00 0.00
1 14 0.15
2 0.00 0.00
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data/triban.py 0 → 100644
+ 34
0
View file @ a34dcd43
from matplotlib import pyplot as plt
fid = open('Kuj2012-13_inflow.dat','r')
depth = 12.
M = 40
dz = depth/float(M+1)
dt = 15.2 #days
ncol_width = 2
ncol_u = 3
disch = []
line = '0'
j = -1
while(line != ''):
j += 1
disch.append(0.)
for i in range(M+1):
line = fid.readline()
print(line)
if line != '':
line = line.split()
disch[j] += float(line[ncol_width-1])*dz*float(line[ncol_u-1])
time = []
for i in range(j+1):
time.append(dt*i)
print(len(disch),len(time))
plt.plot(time,disch)
plt.show()
setup/Kuivajarvi_2012-2013_driver.dat 0 → 100644
+ 254
0
View file @ a34dcd43
# The parameters for driver of Lake model
#-----------------------------------------------------------------------------------------
# INFORMATION ON THE FILE WITH ATMOSPHERIC DATA
#-----------------------------------------------------------------------------------------
# DESCRIPTION
# dataname* --- name of file with atmospheric data (must be in data directory)
# height_T_q* --- height of temperature and humidity measurements, m
# height_u* --- height of wind measurements, m
# interval* --- time interval of measurements, hours
# rad* --- defines, atmospheric radiation (1) or net radiation (2) is
# in the appropriate coloumn of datafile, relevant if input file is ASCII (forc_format = 0)
# forc_format*--- defines the input file format: 0 - ASCII(text), 1 - netcdf
# npoints* --- the number of points of the forcing, must be 1, if input file is ASCII (forc_format = 0)
# select_call --- the length of the set of numbers of forcing points (maximal 20), for which the Lake model
# will be launched, other points will be omitted
# lakinterac --- switch for (two) interacting lakes (1 - OFF, 2 - ON)
# form* --- defines the input file format, relevant if input file is ASCII (forc_format = 0):
# 0 - "free" (adjustable) format (see below)
# other options are disabled
#
# The parameters for adjustable format of input text file, relevant if forc_format = 0, form = 0 :
#
# N_header_lines* --- the number of lines, occupied by file header
# N_coloumns* --- the total number of coloumns in the file
# N_Year* --- the number of coloumn with the number of year (not used in the model)
# N_Month* --- the number of coloumn with the number of month (not used in the model)
# N_Day* --- the number of coloumn with the number of day (not used in the model)
# N_Hour* --- the number of coloumn with the number of hour (not used in the model)
# N_Uspeed* --- the number of coloumn with x-component speed values, (m/s)
# N_Vspeed* --- the number of coloumn with y-component speed values, (m/s)
# N_Temp* --- the number of coloumn with air temperature values, (K)
# N_Hum* --- the number of coloumn with air humidity values, (kg/kg)
# N_Pres* --- the number of coloumn with atmospheric pressure value,s (Pa)
# N_SWdown* --- the number of coloumn with net solar radiation values, (W/m**2)
# N_LWdown* --- the number of coloumn with net longwave radiation values, (W/m**2)
# N_Precip* --- the number of coloumn with precipitation intensity, (m/s)
# N_cloud --- the number of coluumn with cloudiness, (fraction) used only when longwave radiation is missing
#-----------------------------------------------------------------------------------------
#
dataname 'Kuivajarvi_2012-2013'
forc_format 0
npoints 1
# 8
#select_call 3
#1
#2
#3
#
lakinterac 1
form 0
height_T_q 1.5
height_u 1.7
interval 0.5
rad 1
#
N_header_lines 0
N_coloumns 12
#
N_Year 1
N_Month 2
N_Day 3
N_Hour 4
N_Uspeed 5
N_Vspeed 6
N_Temp 7
N_Hum 8
N_Pres 9
N_SWdown 10
N_LWdown 11
N_Precip 12
N_SensFlux -1
N_LatentFlux -1
N_Ustar -1
N_surfrad -1
N_cloud -1
#
#-----------------------------------------------------------------------------------------
# TIME INTEGRATION PARAMETERS
#-----------------------------------------------------------------------------------------
# DESCRIPTION
# year0* --- julian year of start of integration
# month0* --- julian month of start of integration
# day0* --- julian day of start of integration
# hour0* --- hour of start of integration (is real value)
# dt* --- timestep, s
# tinteg* --- integration time (including spinup period!), days
# spinup_times* --- number for spinup periods
# spinup_period--- the duration of spinup period, s
# call_Flake --- the switch for integrating Flake model (1 - on, 0 - off)
#-----------------------------------------------------------------------------------------
#
year0 2012
month0 6
day0 13
hour0 0.
#
tinteg 519.0
spinup_times 0
spinup_period 0.
# 31536000 is year
dt 10.
call_Flake 0
#
#----------------------------------------------------------------------------------------
# PHYSICAL PARAMETERS
#----------------------------------------------------------------------------------------
# DESCRIPTION
# extwat --- coefficient of solar radiation extinction in water body, m**(-1)
# extice --- coefficient of solar radiation extinction in ice layer, m**(-1)
# alphax --- slope angle of water surface in the x-direction, deg
# alphay --- slope angle of water surface in the y-direction, deg
# c_veg --- friction coefficient of vegetation in water, n/d
# a_veg --- effective cross-section of vegetation, m**2/m**2
# h_veg --- the height of vegetation in the lake, m
# kor --- Coriolis parameter, s**(-1)
# if -999, it is calculated from latitude
# phi* --- latitude (positive to North), deg (required only for water albedo calculation)
# lam* --- longitude (positive to East), dag (required only for water albedo calculation)
# fetch --- the wind fetch, m
#----------------------------------------------------------------------------------------
#
extwat 0.58
#select_extwat 9
#2 0.02
#20 0.12
#108 0.14
#86 0.17
#176 0.12
#105 0.24
#39 0.17
#170 0.14
#163 1.2
#
extice 1.E+7
alphax 0.0
alphay 0.0
a_veg 1.
c_veg 1.e-3
h_veg 0.
kor -999.
# 1.e-4
phi 61.84572
lam 24.28557
fetch 410.
#
#----------------------------------------------------------------------------------------
# INITIAL CONDITIONS
#----------------------------------------------------------------------------------------
# DESCRIPTION
# l10 --- thickness of ice, m
# h10 --- thickness of liquid water, m
# select_h10 --- thickness of liquid water in selected points (maximal 20), m
# (must be specified AFTER select_call)
# ls10 --- thickness of ice at the bottom, m
# hs10 --- thickness of snow cover, m
# Ts0 --- temperature of mixed layer, C
# Tb0 --- temperature at the bottom, C
# Sals0 --- salinity in mixed layer, kg/kg
# Salb0 --- salinity at the bottom, kg/kg
# us0 --- x-component of speed at the surface, m/s
# vs0 --- y-component of speed at the surface, m/s
# Tbb0 --- temperature at the lower boundary of soil, C
# h_ML0 --- thickness of mixed layer, m
# init_T--- the type of temperature profile initialization:
# 1 - using h_ML0, Ts0 and Tb0
# 2 - using Tm, Ts0 and Tb0
# 3 - using the temperature profile, specified in *_setup.dat file after keyword T_profile
#-----------------------------------------------------------------------------------------
#
l10 0.
h10 12.5
#select_h10 3
#1 1.2
#2 2.
#3 5.
#select_h10 8
#1 3.
#2 4.
#3 5.
#4 6.
#5 7.
#6 8.
#7 9.
#8 10.
#
ls10 0.
hs10 0.
Ts0 3.41
Tb0 3.97
Tbb0 4.
Tm 3.
h_ML0 0.
Sals0 0.
Salb0 0.
us0 1.E-3
vs0 1.E-3
init_T 3
#
#-----------------------------------------------------------------------------------------
# SOME LAKE PARAMETERS
#-----------------------------------------------------------------------------------------
# area_lake --- the area of the lake, m**2
# trib_inflow* --- total tributaries' inflow, m**3/s
# morphometry --- depth - lake cross-section area table, m**2
# effl_outflow --- effluent discharge parameters group, specifying polynomial dependence
# of discharge on water level; the last value is relative altitude of
# effluent bottom over lake bottom (at deepest points, respectively);
# the first N values are polynomial coefficients, where N stands after
# 'effl_outflow' keyword
#
area_lake 638095.
cellipt 0.1
trib_inflow -9999.
effl_outflow 1
0. 0. 0.
morphometry 6
0 638095
1.5 541154
3 386345
6 226745
10 77936
12.5 7000
#
#-----------------------------------------------------------------------------------------
# NETCDF OUTPUT PARAMETERS
#-----------------------------------------------------------------------------------------
# DESCRIPTION
# nstep_ncout --- the interval of netcdf output from driver, timesteps (if -1 no netcdf output from driver)
#-----------------------------------------------------------------------------------------
nstep_ncout -1
#15
#
#-----------------------------------------------------------------------------------------
# FLAKE MODEL OUTPUT PARAMETERS
#-----------------------------------------------------------------------------------------
# DESCRIPTION
# nstep_out_Flake --- the interval of output of Flake variables from driver, timesteps
# (if -1 the output of Flake variables from driver is not implemented)
# relevant if call_Flake = 1
#-----------------------------------------------------------------------------------------
#
nstep_out_Flake 3
#
#-----------------------------------------------------------------------------------------
# POSTPROCESSING OPTIONS
#-----------------------------------------------------------------------------------------
# moving_average_window --- the ineterval of moving average, netcdf output steps (intervals)
# mean_cycle_period --- the length of mean cycle, netcdf output steps (intervals)
#-----------------------------------------------------------------------------------------
#
moving_average_window -1
mean_cycle_period -1
#
end
setup/Kuivajarvi_2012-2013_setup.dat 0 → 100644
+ 448
0
View file @ a34dcd43
#---------------------------------------------------------------------------------------
# GENERAL CONTROLS
#---------------------------------------------------------------------------------------
# DESCRIPTION
# path --- the directory, in which the model is launched
# (required to be set in some UNIX-systems)
# runmode 1 --- stand alone run
# runmode 2 --- running in atmospheric model as lake parametrization
# omp 0 --- OpenMP is not used
# omp 1 --- OpenMP is used
#---------------------------------------------------------------------------------------
#
path ''
runmode 1
omp 0
#
#----------------------------------------------------------------------------------------
# SPATIAL RESOLUTION OF THE MODEL
#----------------------------------------------------------------------------------------
# DESCRIPTION
# nstep_keps --- number of timesteps of k-epsilon parameterization per on model timestep
# M --- number of layers in water layer
# Mice --- number of layers in upper and deep layers
# ns --- number of levels in soil
# d_surf --- grid zooming parameter at the surface, n/d
# d_bot --- grid zooming parameter at the bottom, n/d
#----------------------------------------------------------------------------------------
#
nstep_keps 1
M 40
ns 10
Mice 10
d_surf 1.E-2
d_bot 1.E-2
#
#----------------------------------------------------------------------------------------
# CONTROLS FOR PHYSICS OF THE MODEL
#----------------------------------------------------------------------------------------
# DESCRIPTION
# PBL parameterization
# PBLpar -1 --- sensible, latent heat and momentum fluxes are given as input for the model
# PBLpar 0 --- the latent heat flux is set to zero, while sensible heat and momentum fluxes
# are constant in time, specified by sensflux0 and momflux0
# PBLpar 1 --- Businger-Dayer formulas (Monin-Obukhov theory) for exchange coefficients
# PBLpar 2 --- formulation from NH3d
# PBLpar 3 --- formulation from FLake
# PBLpar 4 --- formulation implemented by M.Chechin
# c_d --- the momentum exchange coefficient, n/d
# (if -999, momentum flux is calculated by surface flux scheme)
# waveenh 0 --- the shallow water correction of surface fluxes (Panin et al., 1996) is OFF
# waveenh 1 --- the shallow water correction of surface fluxes (Panin et al., 1996) is ON
# momflxpart 0 --- all momentum flux from the atmosphere is consumed by currents acceleration
# momflxpart 1 --- momentum flux from the atmosphere is partitioned between wave developemnt
# (controlled by fetch) and currents acceleration,
# following Lin et al. (2002, J. Phys. Ocean.)
# kwe --- the factor of turbulence enhancement by wave breaking (wave energy factor), n/d
# Relative to water currents wind
# relwind 0 --- relative wind is off
# relwind 1 --- relative wind is on
# Equation of state
# eos 1 --- from Hostetler model
# eos 2 --- from TEOS-2010
# eos 3 --- for Kivu lake including salinity
# nmeltpoint 1 --- melting point linearly dependent on salinity
# nmeltpoint 2 --- TEOS-2010 formula
# Turbulent mixing parameterization
# Turbpar 1 --- "Empirical" parametrization: Stepanenko, Lykosov (2005)
# Turbpar 2 --- "E-epsilon"("K-epsilon") parameterization: k=E**2/eps with
# prognostic equations for E and eps
# Turbpar 3 --- Nickuradze (NICK) formulation: Rodi (1993)
# Turbpar 4 --- Parabolic (PARAB) formulation: Engelund (1976)
# Turbpar 7 --- RNG (re-normalization group) formulation: Simoes (1998)
# stabfunc 1 --- constant stability functions (standard k-epsilon model)
# stabfunc 2 --- stability functions according to (Canuto et al., 2001)
# stabfunc 3 --- stability functions according to (Galperin et al., 1988)
# kepsbc 1 --- Neuman boundary conditions for unstratified sheared flow (Burchard, 2002)
# kepsbc 2 --- Neuman boundary conditions for unstratified non-sheared flow with wave breaking (Burchard, 2002)
# kepsbc 3 --- Neuman boundary conditions unstratified sheared flow with wave breaking (Burchard, 2002)
# kepsbc 4 --- Neuman boundary conditions for free convection
# Water surface albedo: variable or constant
# varalb 0 --- constant
# varalb 1 --- sun height dependent
# soiltype 1 --- the soil type is "sand"
# soiltype 2 --- the soil type is "loamy sand"
# soiltype 3 --- the soil type is "sandy loam"
# soiltype 4 --- the soil type is "loam"
# soiltype 5 --- the soil type is "silt loam"
# soiltype 6 --- the soil type is "sandy clay loam"
# soiltype 7 --- the soil type is "clay loam"
# soiltype 8 --- the soil type is "silty clay loam"
# soiltype 9 --- the soil type is "sandy clay"
# soiltype 10 --- the soil type is "silty clay"
# soiltype 11 --- the soil type is "clay"
# soil_depth --- depth of the soil layer, m
# thermokarst_meth_prod 0. --- switch for old organics methane production under thermokarst lakes is OFF
# thermokarst_meth_prod 1. --- switch for old organics methane production under thermokarst lakes is ON
# soil_meth_prod 0. --- switch for new organics methane production under lakes is OFF
# soil_meth_prod 1. --- switch for new organics methane production under lakes is ON
# tricemethhydr 0. --- ice in soil pores is treated as purPBLpare ice
# tricemethhydr 1. --- ice in soil pores is treated as methane hydrate
# skin 0 --- the skin temperature parameterization is off
# skin 1 --- the skin temperature parameterisation is on
# sedim 0 --- gravitational sedimentation of tracer is NOT taken into account
# sedim 1 --- gravitational sedimentation of tracer is taken into account
# massflux 0 --- the massflux parameterization of convection (Siebesma et al., 2007) if OFF
# massflux 1 --- the massflux parameterization of convection (Siebesma et al., 2007) if ON
# sensflux0 --- sensible heat flux upwards, constant in time (relevant if PBLpar = 0), W/m**2
# momflux0 --- momentum flux downwards (positive), constant in time (relevant if PBLpar = 0), N/m**2
# ifrad 1 --- all radiation fluxes at the water surface are taken into account
# ifrad 0 --- all radiation fluxes are set to zero
# dyn_pgrad 0 --- dynamic pressure gradient is OFF
# dyn_pgrad 1 --- dynamic pressure gradient is ON
# zero_model 0 --- zero-dimensional model is ON
# zero_model 1 --- zero-dimensional model is OFF
# outflpar 0 --- variables value at the outflow = cross-section mean
# outflpar 1 --- the cross-section mean = 0.5*(inflow value + outflow value)
# outflpar 2 --- variables at the outflow are calculated using Lagrangian approach
# Note: zero-dimensional model is now implemented only for open water season and one-point simulation
# deadvol --- the depth (m) corresponding to "dead volume" - the minimal allowed reservoir volume
#----------------------------------------------------------------------------------------
#
varalb 0
PBLpar 1
waveenh 0
momflxpart 1
c_d -999.
kwe 100.
relwind 0
eos 1
nmeltpoint 1
Turbpar 2
stabfunc 1
kepsbc 1
soiltype 5
soil_depth 10.
soilswitch 1
nsoilcols 5
tricemethhydr 0.
skin 0
massflux 0
ifrad 1
ifbubble 1
sedim 0
salsoil 0
dyn_pgrad 1
zero_model 0
thermokarst_meth_prod 0.
soil_meth_prod 1.
outflpar 0 #2 #0
#
sensflux0 100.
momflux0 1.e-15
soilbotflx 0.
cuette 0
carbon_model 2
#
deadvol 0.
#
#----------------------------------------------------------------------------------------
# INITIAL CONDITIONS FOR TEMPERATURE
#----------------------------------------------------------------------------------------
#
T_profile 8
0.2 15.8 0. 9.18E-5 7.03E-2 2.94E-1
1. 15.7 0. 9.62E-5 7.15E-2 2.93E-1
3. 13.2 0. 1.92E-4 1.13E-1 2.63E-1
5. 11.2 0. 8.00E-5 1.32E-1 2.63E-1
7. 9.7 0. 8.89E-5 1.72E-1 2.45E-1
9. 7.5 0. 8.91E-5 2.15E-1 2.36E-1
11. 7.3 0. 1.57E-4 2.18E-1 2.14E-1
12. 7.2 0. 1.78E-4 2.23E-1 2.07E-1
#.
#----------------------------------------------------------------------------------------
# BOUNDARY CONDITIONS: TRIBUTARIES AND EFFLUENTS
#----------------------------------------------------------------------------------------
# DESCRIPTION
# tribheat --- the switch for thermal effect of tributaries and effluents, 0 - OFF
# 1 - ON
# U_tribin --- the velocity of flow in tributary, m/s
# U_tribout --- the velocity of flow in effluent, m/s
# T_tribin --- the temperature of tributary flow, deg. C
# width_tribin --- the transversal width of tributary, m
# width_tribout --- the transversal width of effluent, m
# inflowprof --- the profile of inflow:
# width [m] velocity [m] temperature [C]
# outflowprof --- the profile of outflow:
# width [m] velocity [m]
#-----------------------------------------------------------------------------------------
#
#
tribheat 2
N_tribin 1
N_triblev 41
fileinflow 'Kuj2012-13_inflow.dat'
fileoutflow 'Kuj2012-13_outflow.dat'
dttribupdate 15.2
#inflowprof
#1 100. 0. 8.
#2 100. 0. 8.
#3 100. 0. 8.
#3 100. 0. 8.
#5 100. 0. 8.
#6 100. 0. 8.
#7 100. 0. 8.
#8 100. 0. 8.
#9 100. 0. 8.
#10 100. 0. 8.
#11 100. 0. 8.
#12 100. 0. 8.
#13 100. 0. 8.
#14 100. 0. 8.
#15 100. 0. 8.
#16 100. 0. 8.
#17 100. 0. 8.
#18 100. 0. 8.
#19 100. 0. 8.
#20 100. 0. 8.
#21 100. 0. 8.
#22 100. 0. 8.
#23 100. 0. 8.
#24 100. 0. 8.
#25 100. 0. 8.
#26 100. 0. 8.
#27 100. 0. 8.
#28 100. 0. 8.
#29 100. 0. 8.
#30 100. 0. 8.
#31 100. 0. 8.
#32 100. 0. 8.
#33 100. 0. 8.
#34 100. 0. 8.
#35 100. 0. 8.
#36 100. 0. 8.
#37 100. 0. 8.
#38 100. 0. 8.
#39 100. 0. 8.
#40 100. 0. 8.
#41 100. 0. 8.
#42 100. 0. 8.
#43 100. 0. 8.
#44 100. 0. 8.
#45 100. 0. 8.
#46 100. 0. 8.
#47 100. 0. 8.
#48 100. 0. 8.
#49 100. 0. 8.
#50 100. 0. 8.
#51 100. 0. 8.
#52 100. 0. 8.
#53 100. 0. 8.
#54 100. 0. 8.
#55 100. 0. 8.
#56 100. 0. 8.
#57 100. 0. 8.
#58 100. 0. 8.
#59 100. 0. 8.
#60 100. 0. 8.
#61 100. 0. 8.
#62 100. 0. 8.
#63 100. 0. 8.
#64 100. 0. 8.
#65 100. 0. 8.
#66 100. 0. 8.
#67 100. 0. 8.
#68 100. 0. 8.
#69 100. 0. 8.
#70 100. 0. 8.
#71 100. 0. 8.
#72 100. 0. 8.
#73 100. 0. 8.
#74 100. 0. 8.
#75 100. 0. 8.
#76 100. 0. 8.
#77 100. 0. 8.
#78 100. 0. 8.
#79 100. 0. 8.
#80 100. 0. 8.
#81 100. 0. 8.
#
#outflowprof
#1 100. 0.
#2 100. 0.
#3 100. 0.
#4 100. 0.
#5 100. 0.
#6 100. 0.
#7 100. 0.
#8 100. 0.
#9 100. 0.
#10 100. 0.
#11 100. 0.
#12 100. 0.
#13 100. 0.
#14 100. 0.
#15 100. 0.
#16 100. 0.
#17 100. 0.
#18 100. 0.
#19 100. 0.
#20 100. 0.
#21 100. 0.
#22 100. 0.
#23 100. 0.
#24 100. 0.
#25 100. 0.
#26 100. 0.
#27 100. 0.
#28 100. 0.
#29 100. 0.
#30 100. 0.
#31 100. 0.
#32 100. 0.
#33 100. 0.
#34 100. 0.
#35 100. 0.
#36 100. 0.
#37 100. 0.
#38 100. 0.
#39 100. 0.
#40 100. 0.
#41 100. 0.
#42 100. 0.
#43 100. 0.
#44 100. 0.
#45 100. 0.
#46 100. 0.
#47 100. 0.
#48 100. 0.
#49 100. 0.
#50 100. 0.
#51 100. 0.
#52 100. 0.
#53 100. 0.
#54 100. 0.
#55 100. 0.
#56 100. 0.
#57 100. 0.
#58 100. 0.
#59 100. 0.
#60 100. 0.
#61 100. 0.
#62 100. 0.
#63 100. 0.
#64 100. 0.
#65 100. 0.
#66 100. 0.
#67 100. 0.
#68 100. 0.
#69 100. 0.
#70 100. 0.
#71 100. 0.
#72 100. 0.
#73 100. 0.
#74 100. 0.
#75 100. 0.
#76 100. 0.
#77 100. 0.
#78 100. 0.
#79 100. 0.
#80 100. 0.
#81 100. 0.
#
#----------------------------------------------------------------------------------------
# DATA ASSIMILATION CONTROLS (NOT OPERATIONAL: PUT EVERYTHING TO 0)
#----------------------------------------------------------------------------------------
# assim --- data assimilation technique: 0 - no data assimilation
# 1 -
# 2 - Raleigh damping towards observations
# 3 - Cressman weighting
# 4 - ?
# as_window --- assimilation window: 1 - as_window is spinup period
#
#----------------------------------------------------------------------------------------
#
error_cov 0
assim 0
#as_window 1
#
#----------------------------------------------------------------------------------------
# OUTPUT CONTROLS (for ASCII files)
#----------------------------------------------------------------------------------------
# DESCRIPTION
# turb_out --- output turbulence characteristics: 1 - on, 0 - off
# monthly* --- monthly mean profiles output: 1 - on, 0 - off
# daily* --- daily mean profiles output: 1 - on, 0 - off
# hourly* --- hourly mean profiles output: 1 - on, 0 - off
# everystep* --- every time step profiles output: 1 - on, 2 - on but without profiles, 0 - off
# time_series* --- output of time series of layer thickness and surface values:
# 1 - on, 0 - off
# dt_out* --- time interval for time series output, hours
# nscreen --- the period of screen output, timesteps
# scale_output --- the switch for scaling of output of turbulent characteristics: 1 - on, 0 - off
# (set 0 for simulations of ice-covered lakes)
# ngrid_out --- the number of output levels for vertical water temperature profiles:
# -1 - use numerical grid levels
# >0 - use ngrid_out levels (in meters) given below
# ngridsoil_out--- the number of output levels for vertical soil temperature profiles:
# -1 - use numerical grid levels
# >0 - use ngridsoil_out levels (in meters) given below
#----------------------------------------------------------------------------------------
#
turb_out 0
monthly 1
daily 1
hourly 0
everystep 0
time_series 1
dt_out 3.
nscreen 1000
scale_output 0
accum_begin 2003060100
accum_end 2004060100
#
ngrid_out 16
0.2
0.5
1.
1.5
2.
2.5
3.
3.5
4.
4.5
5.
6.
7.
9.
11.
12.
#
ngridsoil_out 11
0.
1.
2.
3.
4.
5.
6.
7.
8.
9.
10.
#
#----------------------------------------------------------------------------------------
# NOTE: VARIABLES, DENOTED BY ASTERISK *, ARE USED ONLY IN STANDALONE RUNS OF THE MODEL
#----------------------------------------------------------------------------------------
end
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