Ground evaporation formula (Water Overlay): Difference between revisions

Underground evaporation is calculated per cell.

For all underground evaporation calculation, the ground water depth at time t is used.

${\displaystyle d_{gw,t}=b_{s}-w_{g,t}}$

Feddes oxygen stress factor:

${\displaystyle f_{o}={\begin{cases}1.0&{\text{if }}d_{gw,t}{\text{ is }}\geq d_{r,3}\\{\frac {d_{gw,t}-d_{r,4}}{d_{r,3}-d_{r,4}}}&{\text{if }}d_{gw,t}{\text{ is }}\geq d_{r,4}\\0.0&{\text{otherwise}}\end{cases}}}$

Feddes saturated zone root update factor:

${\displaystyle f_{s}={\begin{cases}0.0&{\text{if }}d_{gw,t}{\text{ is }}>=d_{r,1}\\1.0-{\frac {d_{gw,t}-d_{r,2}}{d_{r,1}-d_{r,2}}}&{\text{if }}d_{gw,t}{\text{ is }}>=d_{r,2}\\1.0&{\text{otherwise}}\end{cases}}}$

Max potential evaporation:

${\displaystyle E_{max}=f_{t}\cdot E_{w}\cdot f_{o}}$

Evaporation unsaturated:

Failed to parse (unknown function "\begin{cases}"): {\displaystyle E_{u} = \begin{cases} 0.0 & \text{if } d_{us} \text{ is } <= 0.0} \\ min(E_{max}, h_u \cdot \frac{d_{r,1}}{d_{gw,t}})& \text{otherwise} \\ \end{cases} }

Evaporation saturated:

${\displaystyle h_{s}=w_{g,t}-(b_{s}-d_{gb})}$

${\displaystyle h_{r}=max(0.0,w_{g,t}-(b_{s}-d_{r,1}))}$

${\displaystyle E_{sp}=(E_{max}-E_{u})\cdot f_{s}}$

${\displaystyle E_{s}=max(0.0,min(E_{sp},h_{s}\cdot f_{gw},h_{r}\cdot f_{gw}}$

Evaporation total is the sum of evaporation in the saturated and unsaturated zone:

${\displaystyle E=E_{u}+E_{s}}$

where

${\displaystyle b_{s}}$ is the datum height of the surface.

${\displaystyle w_{g}}$ is the underground water level.

${\displaystyle d}$ is the column height of the unsaturated zone.

${\displaystyle f_{t}}$ is the transpiration factor of the buildings (plants) on the surface, or the surface terrain's

[Terrain_water_evaporation_factor_(Water_Overlay)|transpiration factor]] if none present.

${\displaystyle E_{w,t}}$ is the evaporation rate of the weather at time t

${\displaystyle f_{0}}$ is the feddes oxygen stress factor, calculated using the 3rd and 4th root depths and the feddes trapezium interpolation model and the ground water depth.

Related

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Groundwater level formula

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Building attributes • Hydrological features • Hydraulic structures •  Terrain attributes • Model attributes • Results • Simulation data