Konzept (Max)

A simple lumped 2 storage model with ET, snow but no canopy interception

Abb. 28 zeigt das Modell Konzept. Die Idee beruht auf den folgenden Ideen:

Zu tun

Max: Hier folgt eine Beschreibung des Konzepts.

Referenzen [SPHINX-REF] zu externen Dokumenten können so geschrieben werden können mit einer Abkürzung in eckigen Klammern verwiesen werden [XXXX].

[SPHINX-REF]Zitationen mit Sphinx - reStructuredText Primer. http://www.sphinx-doc.org/en/master/usage/restructuredtext/basics.html#citations
max.concept.png

Abb. 28 Die Konzept-Skizze für das Max Modell…

Parameter

snow_melt_rate:[3..10] Rate of snow melt in \(\frac{mm}{day °C}\)
infiltration_w0:
 [0.5..0.99] \(W_0\) saturation index
infiltration_capacity:
 [1.0..57] infiltration capacity of other_soil in mm/day
soil_capacity:[10..10000] Capacity of rooted zone in \(mm\)
ETV1:[0.1..0.9] Fraction of soil capacity where ET starts to be limited
percolation_Q0:[0.01..1000] Percolation rate in \(mm/day\) when the soil stores contains:math:V_0 cdot C [mm] water
percolation_V0:[0.01..1.0] Normal soil water content in terms of soil water capacity
percolation_Vres:
 [0.0..1.0] Residual water content of the soil water
percolation_beta:
 [0.5..5] Curve shape parameter of the power law function
LAI:[0.5..6] Effective leaf area index
canopy_closure:[0.0..1.0] Fraction of rainfall that stays in the canopy
gw_river_Q0:[0.01..300] groundwaterflow to river rate in \(mm/day\) when the groundwater stores contains:math:V_0 cdot C [mm] water
gw_river_V0:[0.01..1000] Normal groundwater content
gw_river_beta:[0.5..5] Curve shape parameter of the power law function
river_residence_time:
 [1..20] Residence time of the river in days