/
wflow_sbm_results.toml
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wflow_sbm_results.toml
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casename = "wflow_sbm"
calendar = "proleptic_gregorian"
starttime = 2010-02-02T00:00:00
endtime = 2010-02-10T00:00:00
time_units = "days since 1900-01-01 00:00:00"
timestepsecs = 86400
[state]
path_input = "instate/instates.nc"
path_output = "run_results/outstate/outstates.nc"
[input]
path_forcing = "inmaps.nc"
path_static = "staticmaps.nc"
gauges = "wflow_gauges"
ldd = "wflow_ldd"
river_location = "wflow_river"
subcatchment = "wflow_subcatch"
forcing = [ "vertical.precipitation", "vertical.temperature", "vertical.potential_evaporation",]
cyclic = [ "vertical.leaf_area_index",]
gauges_grdc = "wflow_gauges_grdc"
[model]
type = "sbm"
masswasting = true
snow = true
reinit = true
reservoirs = true
lakes = true
glacier = true
kin_wave_iteration = true
kw_river_tstep = 900
kw_land_tstep = 3600
thicknesslayers = [ 100, 300, 800,]
[state.vertical]
satwaterdepth = "satwaterdepth"
snow = "snow"
tsoil = "tsoil"
ustorelayerdepth = "ustorelayerdepth"
snowwater = "snowwater"
canopystorage = "canopystorage"
[input.vertical]
altitude = "wflow_dem"
c = "c"
cf_soil = "cf_soil"
cfmax = "Cfmax"
e_r = "EoverR"
f = "f"
infiltcappath = "InfiltCapPath"
infiltcapsoil = "InfiltCapSoil"
kext = "Kext"
"kv₀" = "KsatVer"
leaf_area_index = "LAI"
m = "M_"
maxleakage = "MaxLeakage"
pathfrac = "PathFrac"
potential_evaporation = "pet"
precipitation = "precip"
rootdistpar = "rootdistpar"
rootingdepth = "RootingDepth"
soilminthickness = "SoilMinThickness"
soilthickness = "SoilThickness"
specific_leaf = "Sl"
storage_wood = "Swood"
temperature = "temp"
tt = "TT"
tti = "TTI"
ttm = "TTM"
water_holding_capacity = "WHC"
waterfrac = "WaterFrac"
"θᵣ" = "thetaR"
"θₛ" = "thetaS"
[state.lateral.river]
q = "q_river"
h = "h_river"
h_av = "h_av_river"
[state.lateral.subsurface]
ssf = "ssf"
[state.lateral.land]
q = "q_land"
h = "h_land"
h_av = "h_av_land"
[input.lateral.river]
length = "wflow_riverlength"
n = "N_River"
slope = "RiverSlope"
width = "wflow_riverwidth"
[input.lateral.subsurface]
ksathorfrac = "KsatHorFrac"
[input.lateral.land]
n = "N"
slope = "Slope"
[state.lateral.river.reservoir]
volume = "volume_reservoir"
[state.lateral.river.lake]
waterlevel = "waterlevel_lake"
[input.lateral.river.reservoir]
area = "ResSimpleArea"
areas = "wflow_reservoirareas"
demand = "ResDemand"
locs = "wflow_reservoirlocs"
maxrelease = "ResMaxRelease"
maxvolume = "ResMaxVolume"
targetfullfrac = "ResTargetFullFrac"
targetminfrac = "ResTargetMinFrac"
[input.lateral.river.lake]
area = "LakeArea"
areas = "wflow_lakeareas"
b = "Lake_b"
e = "Lake_e"
locs = "wflow_lakelocs"
outflowfunc = "LakeOutflowFunc"
storfunc = "LakeStorFunc"
threshold = "LakeThreshold"
linkedlakelocs = "LinkedLakeLocs"
waterlevel = "LakeAvgLevel"
[output]
path = "run_results/output.nc"
[output.lateral.river]
q_av = "q_river"
[output.lateral.land]
h = "h_land"
[netcdf]
path = "run_results/output_scalar.nc"
[[netcdf.variable]]
name = "Q"
map = "gauges"
parameter = "lateral.river.q"
[[netcdf.variable]]
name = "temp_coord"
location = "temp_bycoord"
coordinate.x = 11.9594
coordinate.y = 45.8925
parameter = "vertical.temperature"
[csv]
path = "run_results/output.csv"
[[csv.column]]
header = "Q-max"
parameter = "lateral.river.q_av"
reducer = "maximum"
[[csv.column]]
header = "res-volume"
index = 1
parameter = "lateral.river.reservoir.volume"
[[csv.column]]
header = "temp_bycoord"
coordinate.x = 11.95
coordinate.y = 45.9
parameter = "vertical.temperature"
[[csv.column]]
header = "temp_byindex"
index.x = 11
index.y = 6
parameter = "vertical.temperature"
[[csv.column]]
header = "Q"
map = "gauges_grdc"
parameter = "lateral.river.q_av"
[[csv.column]]
header = "P"
map = "subcatchment"
parameter = "vertical.precipitation"
reducer = "mean"