Terrain ground infiltration md (Water Overlay)

From Tygron Preview Support Wiki
Revision as of 11:43, 3 April 2019 by Frank@tygron.nl (talk | contribs) (Created page with "{| class="wikitable" ! Attribute ! Unit ! Terrain type ! Description |- |{{anchor|GROUND_INFILTRATION_MD_surface|GROUND_INFILTRATION_MD}} |m/day |Surface |The speed at which w...")
(diff) ← Older revision | Latest revision (diff) | Newer revision → (diff)
Jump to navigation Jump to search
Attribute Unit Terrain type Description
GROUND_INFILTRATION_MD m/day Surface The speed at which water can flow vertically from the surface to the underground unsaturated zone.
GROUND_INFILTRATION_MD m/day Underground The speed at which water can flow vertically from the underground unsaturated zone to the underground saturated zone, and horizontally through across the saturated zone.
WATER_STORAGE_PERCENTAGE fraction Underground The percentage of the underground volume which can be filled with water. A lower percentage means the underground will be able to store less water, and the saturated zone will rise higher with the same amount of water in the underground layer.

Infiltration and storage

Based on the properties of the terrain, water may infiltrate into the underground water system.

The speed at which water can infiltrate from the surface to the underground unsaturated zone is dependent on both the infiltration properties of the surface terrain, as well as any construction in that location, if present. Of the infiltration values of the construction and the surface terrain, the lowest value is used. If either has an infiltration value of 0, water cannot infiltrate into the underground unsaturated zone.

Underground flow, or horizontal infiltration, are dependent on the infiltration properties of the underground, unless an aquifer exists the same location.

Notes

  • The groundwater level reduction is inversely proportional to the WATER_STORAGE_PERCENTAGE, as the contribution of a given volume of water to the groundwater level increases when the capacity for water storage in the underground layer decreases.