Groundwater level formula (Water Overlay): Difference between revisions
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Where: | Where: | ||
* | * <math>WL_{underground}</math> = The groundwater level, relative to {{datum}}. Also known as the watertable. | ||
* | * <math>WH_{underground}</math> = The height (column) of the saturated zone. | ||
* | * <math>W_{sat}</math> = The amount of water in the saturated zone. The height of the water column if the equivalent amount of water was placed on the surface. | ||
* | * <math>H_{surface}</math> = The [[terrain height (Water Overlay)|surface height]] in the cell, relative to {{datum}}. | ||
* GBDM = The [[Ground bottom distance m model attribute (Water Overlay)|GROUND_BOTTOM_DISTANCE_M]] (effectively available height in the underground model). | * <math>GBDM</math> = The [[Ground bottom distance m model attribute (Water Overlay)|GROUND_BOTTOM_DISTANCE_M]] (effectively available height in the underground model). | ||
* WSP = The [[Terrain water storage percentage (Water Overlay)|WATER_STORAGE_PERCENTAGE]] of the underground terrain type. | * <math>WSP</math> = The [[Terrain water storage percentage (Water Overlay)|WATER_STORAGE_PERCENTAGE]] of the underground terrain type. | ||
==Related== | ==Related== |
Revision as of 14:35, 10 July 2020
Groundwater level is calculated per cell.
Where:
- = The groundwater level, relative to datum. Also known as the watertable.
- = The height (column) of the saturated zone.
- = The amount of water in the saturated zone. The height of the water column if the equivalent amount of water was placed on the surface.
- = The surface height in the cell, relative to datum.
- = The GROUND_BOTTOM_DISTANCE_M (effectively available height in the underground model).
- = The WATER_STORAGE_PERCENTAGE of the underground terrain type.
Related
The following topics are related to this formula.
- Features
- Groundwater
- Formulas
- Underground flow formula
- Underground evaporation formula
- Surface infiltration formula
- Underground infiltration formula
- Models
- Surface model
- Evaporation model
- Infiltration model