Evaporation m (Water Overlay): Difference between revisions

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* A maximum of {{array max|pairs}} can be defined.
* A maximum of {{array max|pairs}} can be defined.
* Internally each period with amount values are converted to an evaporation rate per second at a particular time in the simulation.
* Internally each period with amount values are converted to an evaporation rate per second at a particular time in the simulation.
* The default value is set to 0.125 mm in 2 hours (0.000125 m in 7200 seconds), which corresponds to 1.5 mm per day. This value is derived from the theory described in 2.3 Gewasverdamping<ref name="GWZ2016"/> in the book Grondwaterzakboekje, which combines the formula of Makkink with a temperature dependent factor (which is approximately linear between 0 and 24 C). Based on the plotted lines, it was selected as an average of march, june and september, for a cloudy rainy day, which corresponds to a heavy rainfall event.
* The default value is set to 0.125 mm in 2 hours (0.000125 m in 7200 seconds), which corresponds to '''1.5 mm per day'''. This value is derived from the theory described in 2.3 Gewasverdamping<ref name="GWZ2016"/> in the book Grondwaterzakboekje, which combines the formula of Makkink with a temperature dependent factor<ref name="GWZ2016-2"/> (which is approximately linear between 0 and 24 C). Based on the graph<ref name="GWZ2016-3"/> with plotted lines of reference evaporation for certain months and cloudiness. The evaporation rate was selected as an average of march, june and september, for a cloudy rainy day, which corresponds to a heavy rainfall event.
|seealso=
|seealso=
* [[Water evaporation factor (Water Overlay)]]
* [[Water evaporation factor (Water Overlay)]]
* [[Ground evaporation formula (Water Overlay)]]
* [[Surface evaporation formula (Water Overlay)]]
* [[Evaporation model (Water Overlay)]]
|howtos=
|howtos=
* [[How to configure more realistic evaporation rates for a Water Overlay]]
* [[How to configure more realistic evaporation rates for a Water Overlay]]
|references=
|references=
<references>
<references>
<ref name="GWZ2016">Fig. 2.7 referentiegewasverdamping Gewasfactoren, Bram Bot (2016) ∙ Grondwaterzakboekje, Gwz2016 ∙ Impressed druk en print</ref>
<ref name="GWZ2016">2.3 Gewasverdamping, Referentiegewasverdamping, Bram Bot (2016) ∙ Grondwaterzakboekje, Gwz2016 ∙ Impressed druk en print</ref>
<ref name="GWZ2016">Tabel 2.3 Benadering van <math>\frac{\Delta}{\Delta + \gamma}</math> en <math>\frac{\gamma}{\Delta + \gamma}</math>, Bram Bot (2016) ∙ Grondwaterzakboekje, Gwz2016 ∙ Impressed druk en print</ref>
<ref name="GWZ2016-2">Tabel 2.3 Benadering van <math>\frac{\Delta}{\Delta + \gamma}</math> en <math>\frac{\gamma}{\Delta + \gamma}</math>, Bram Bot (2016) ∙ Grondwaterzakboekje, Gwz2016 ∙ Impressed druk en print</ref>
<ref name="GWZ2016-3">Fig. 2.7 referentiegewasverdamping, Bram Bot (2016) ∙ Grondwaterzakboekje, Gwz2016 ∙ Impressed druk en print</ref>
</references>
</references>
}}
}}
{{WaterOverlay simulation data nav}}
{{WaterOverlay simulation data nav}}

Latest revision as of 10:47, 29 February 2024

Attribute Unit Description
EVAPORATION_M end-time, m An array of values, each pair indicating until what time that period of evaporation will last and what amount evaporates in that period.


Notes

Image of the evaporation model in the Water Module
  • A maximum of 10.000 values (5.000 pairs) can be defined.
  • Internally each period with amount values are converted to an evaporation rate per second at a particular time in the simulation.
  • The default value is set to 0.125 mm in 2 hours (0.000125 m in 7200 seconds), which corresponds to 1.5 mm per day. This value is derived from the theory described in 2.3 Gewasverdamping[1] in the book Grondwaterzakboekje, which combines the formula of Makkink with a temperature dependent factor[2] (which is approximately linear between 0 and 24 C). Based on the graph[3] with plotted lines of reference evaporation for certain months and cloudiness. The evaporation rate was selected as an average of march, june and september, for a cloudy rainy day, which corresponds to a heavy rainfall event.

How-to's

See also

References

  1. 2.3 Gewasverdamping, Referentiegewasverdamping, Bram Bot (2016) ∙ Grondwaterzakboekje, Gwz2016 ∙ Impressed druk en print
  2. Tabel 2.3 Benadering van en , Bram Bot (2016) ∙ Grondwaterzakboekje, Gwz2016 ∙ Impressed druk en print
  3. Fig. 2.7 referentiegewasverdamping, Bram Bot (2016) ∙ Grondwaterzakboekje, Gwz2016 ∙ Impressed druk en print