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wflow_build.ini
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wflow_build.ini
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[setup_config] # options parsed to wflow ini file <section>.<option>
starttime = 2010-01-01T00:00:00
endtime = 2010-03-31T00:00:00
timestepsecs = 86400
input.path_forcing = inmaps-era5-2010.nc
[setup_basemaps]
hydrography_fn = merit_hydro # source hydrography data {merit_hydro, merit_hydro_1k}
basin_index_fn = merit_hydro_index # source of basin index corresponding to hydrography_fn
upscale_method = ihu # upscaling method for flow direction data, by default 'ihu'
res = 0.00833 # build the model at a 30 arc sec (~1km) resolution
[setup_rivers]
hydrography_fn = merit_hydro # source hydrography data, should correspond to hydrography_fn in setup_basemaps
river_geom_fn = rivers_lin2019_v1 # river source data with river width and bankfull discharge
river_upa = 30 # minimum upstream area threshold for the river map [km2]
rivdph_method = powlaw # method to estimate depth {'powlaw', 'manning', 'gvf'}
min_rivdph = 1 # minimum river depth [m]
min_rivwth = 30 # minimum river width [m]
slope_len = 2000 # length over which tp calculate river slope [m]
smooth_len = 5000 # length over which to smooth river depth and river width [m]
# river_routing = local-inertial # {'kinematic-wave', 'local-inertial'}
# [setup_river_floodplain]
# hydrography_fn = merit_hydro # source hydrography data, should correspond to hydrography_fn in setup_basemaps
# river_upa = 30 # minimum upstream area threshold for the river map [km2], default = 30 km2
# flood_depths = [0.5, 1.0, 1.5, 2.0, 2.5] # flood depths at which a volume is derived, by default [0.5,1.0,1.5,2.0,2.5]
# floodplain_1d = True # Value for model.floodplain_1d setting in toml file, by default True.
[setup_reservoirs]
reservoirs_fn = hydro_reservoirs # source for reservoirs shape and attributes
timeseries_fn = gww # additionnal source for reservoir are timeseries to compute reservoirs, Either 'gww' using gwwapi or 'jrc' using hydroengine.
min_area = 1.0 # minimum lake area to consider [km2]
[setup_lakes]
lakes_fn = hydro_lakes # source for lakes based on hydroLAKES: {hydro_lakes}
min_area = 10.0 # minimum reservoir area to consider [km2]
[setup_glaciers]
glaciers_fn = rgi # source for glaciers based on Randolph Glacier Inventory {rgi}
min_area = 1.0 # minimum glacier area to consider [km2]
[setup_lulcmaps]
lulc_fn = globcover # source for lulc maps: {globcover, vito, corine}
[setup_laimaps]
lai_fn = modis_lai # source for LAI: {modis_lai}
[setup_soilmaps]
soil_fn = soilgrids # source for soilmaps: {soilgrids}
ptf_ksatver = brakensiek # pedotransfer function to calculate hydraulic conductivity: {brakensiek, cosby}
[setup_gauges]
gauges_fn = grdc # if not None add gaugemap. Either a path or known gauges_fn: {grdc}
snap_to_river = True # if True snaps gauges from source to river
derive_subcatch = False # if True derive subcatch map based on gauges.
[setup_precip_forcing]
precip_fn = era5 # source for precipitation.
precip_clim_fn = None # source for high resolution climatology to correct precipitation.
[setup_temp_pet_forcing]
temp_pet_fn = era5 # source for temperature and potential evapotranspiration.
press_correction= True # if True temperature is corrected with elevation lapse rate.
temp_correction = True # if True pressure is corrected with elevation lapse rate.
dem_forcing_fn = era5_orography # source of elevation grid corresponding to temp_pet_fn. Used for lapse rate correction.
pet_method = debruin # method to compute PET: {debruin, makkink}
skip_pet = False # if True, only temperature is prepared.
[setup_constant_pars]
KsatHorFrac=100
Cfmax = 3.75653
cf_soil = 0.038
EoverR = 0.11
InfiltCapPath = 5
InfiltCapSoil = 600
MaxLeakage = 0
rootdistpar = -500
TT = 0
TTI = 2
TTM = 0
WHC = 0.1
G_Cfmax = 5.3
G_SIfrac = 0.002
G_TT = 1.3