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Angle of solar inclination from horizontal at solar noon [rad]
● Data Source:
CranContrib
● Keywords:
● Alias: solarangle
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Evaporative heat exchange between a surface and the surrounding air [kJ m-2 d-1]. This function is only intended for wet surfaces, i.e., it assumes the vapor density at the surface is the saturation vapor density
● Data Source:
CranContrib
● Keywords:
● Alias: EvapHeat
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0 images
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Adjusts solar radiation for land slope and aspect relative to the sun, 0=level ground
● Data Source:
CranContrib
● Keywords:
● Alias: slopefactor
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Daily net radiation [kJ m-2 d-1]
● Data Source:
CranContrib
● Keywords:
● Alias: NetRad
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This package provides a flexible foundation for scientists, engineers, and policy makers to base teaching exercises as well as for more applied use to model complex eco-hydrological interactions.
● Data Source:
CranContrib
● Keywords: package
● Alias: EcoHydRology, EcoHydRology-package
●
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Calculates potential Evapotranspiration (in meters) based on the Priestley-Taylor equation (1972). We use an estimation of net radiation based on temperature data.
● Data Source:
CranContrib
● Keywords:
● Alias: PET_fromTemp
●
1 images
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Potential Solar Radiation at a particular time of day. Defaults to W/m2, can also report in kJ/m2/d if units set to kJ/m2/d
● Data Source:
CranContrib
● Keywords:
● Alias: PotSolarInst
●
0 images
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Parsing of the gzipped GSOD forcing data as returned from get_gsod_stn()
● Data Source:
CranContrib
● Keywords:
● Alias: build_gsod_forcing_data
●
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Converts volumetric flow (cfs, cms, cmd) to depth flow rate over a watershed (mm/d). Or, it converts a depth flow rate to volumetric (mm/d to cfs)
● Data Source:
CranContrib
● Keywords:
● Alias: ConvertFlowUnits
●
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Determines the percentage of runoff that occurs on each day following a storm event, based on time to peak of a watershed.
● Data Source:
CranContrib
● Keywords:
● Alias: RunoffBreakdown
●
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providing 
.