Difference between revisions of "Module Basin"
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==Overview== | ==Overview== | ||
+ | The Module Basin is a module of connection for the other parts of the program. Indeed it manage foundamentally the enter data for the other module, namely the water column that is update after each call of each moduled. In the end in the module basin it is possible to obtained the didfferent fluxes of the water due to evapotrnspiratio runoff and infiltration. | ||
==Main Processes== | ==Main Processes== |
Revision as of 12:43, 7 March 2011
Contents
Overview
The Module Basin is a module of connection for the other parts of the program. Indeed it manage foundamentally the enter data for the other module, namely the water column that is update after each call of each moduled. In the end in the module basin it is possible to obtained the didfferent fluxes of the water due to evapotrnspiratio runoff and infiltration.
Main Processes
Evapotranspiration
Some water may disappear from the soil because of the evaporation and transpiration processes, which become a sink in soil water profile. These two processes, currently named Evapotranspiration may be modeled using the Penmann Monteith equation.
- λv = Latent heat of vaporization. Energy required per unit mass of water vaporized. (J/g)
- Lv = Volumetric latent heat of vaporization. Energy required per water volume vaporized. (Lv = 2453 MJ m-3)
- E = Mass water evapotranspiration rate (g s-1 m-2)
- ETo = Water volume evapotranspired (m3 s-1 m-2)
- Δ = Rate of change of saturation specific humidity with air temperature. (Pa K-1)
- Rn = Net irradiance (W m-2), the external source of energy flux
- cp = Specific heat capacity of air (J kg-1 K-1)
- ρa = dry air density (kg m-3)
- δe = vapor pressure deficit, or specific humidity (Pa)
- ga = Hydraulic conductivity of air, atmospheric conductance (m s-1)
- gs = Conductivity of stoma, surface conductance (m s-1)
- γ = Psychrometric constant (γ ≈ 66 Pa K-1)
Potential evapotranspiration is calcuçtaed made in module Basin. However, not all of the potential water that can be evaporated or transpirated will be in fact removed from the soil. The water that will really leave the soil through these processes is calculated in the Module PorousMedia.