Model attributes (Water Overlay): Difference between revisions

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The water overlay's model calculations depend on a number of calculation-wide parameters. These parameters are available as attributes of the water overlay and can be modified as such.
The [[Water Overlay]]'s model calculations depend on a number of calculation-wide parameters. These parameters are available as attributes of the water overlay and can be modified as such.


{| class="wikitable"
{{overlay attributes|suppresscategory=true|allowselflinks=true|
! Attribute
{{:Allowed water increase m (Water Overlay)}}
! Unit
{{:Avg shore width m (Water Overlay)}}
! Description
{{:Avg terrain width m (Water Overlay)}}
|-
{{:Avg terrain storage m (Water Overlay)}}
|{{anchor|ALLOWED_WATER_INCREASE_M|[[Allowed_water_increase_m_model_attribute_(Water_Overlay)|ALLOWED_WATER_INCREASE_M]]}}
{{:Breach measurement distance m (Water Overlay)}}
|m
{{:Bridge elevation (Water Overlay)}}
|The amount by which the water level on a water terrain must increase before it is considered stressed by water. This is used to compute the {{inlink|WATER_STRESS}} result type.
{{:Culvert dem threshold m (Water Overlay)}}
|-
{{:Design flood elevation m (Water Overlay)}}
|{{anchor|DESIGN_FLOOD_ELEVATION_M|[[Design_flood_elevarion_m_model_attribute_(Water_Overlay)|DESIGN_FLOOD_ELEVATION_M]]}}
{{:Extended reconstruction (Water Overlay)}}
|m
{{:Ground bottom distance m (Water Overlay)}}
|Constructions in the 3D world are assumed to have at most this height compared to the surface of the terrain. Greater values can create a more accurate model but will impact performance.
{{:Ground bottom pressure m (Water Overlay)}}
|-
{{:Ground water (Water Overlay)}}
|{{anchor|GRAVITY|[[Gravity_model_attribute_(Water_Overlay)|GRAVITY]]}}
{{:Ground water depth m (Water Overlay)}}
|m/s²
{{:Ground watertable with surface (Water Overlay)}}
|Used constant for gravitational acceleration
{{:Hydraulic conductivity with thickness (Water Overlay)}}
|-
{{:Impact flood threshold m (Water Overlay)}}
|{{anchor|GROUND_BOTTOM_DISTANCE_M|[[Ground_bottom_distance_m_model_attribute_(Water_Overlay)|GROUND_BOTTOM_DISTANCE_M]]}}
{{:Impact range m (Water Overlay)}}
|m
{{:Increased resolution (Water Overlay)}}
|Assumed distance under the terrain surface where the soil becomes impenetrable for water. The groundwater level cannot go below this depth, relative to the surface. The maximum amount of water that can be stored underground is equal to this attribute multiplied by the local terrain's {{inlink|WATER_STORAGE_PERCENTAGE}}.
{{:Infiltration factor s (Water Overlay)}}
|-
{{:Limit area model attribute (Water Overlay)}}
|{{anchor|GROUND_WATER|[[Ground_water_model_attribute_(Water_Overlay)|GROUND_WATER]]}}
{{:Limit rain (Water Overlay)}}
|boolean
{{:Max infiltration m (Water Overlay)}}
|Whether {{inlink|Underground model|underground water flow}} is simulated during the calculation. If this is deactivated, surface infiltration, underground infiltration, and {{inlink|Underground evaporation model|underground evaporation}} do not occur. Water flowing {{inlink|Sewer model|in- and out of the sewer}} are still simulated when sewers are present.
{{:Max water bottom m (Water Overlay)}}
|-
{{:Microrelief storage fraction (Water Overlay)}}
|{{anchor|IMPACT_FLOOD_THRESHOLD_M|[[Impact_flood_threshold_m_model_attribute_(Water_Overlay)|IMPACT_FLOOD_THRESHOLD_M]]}}
{{:min max elevation (Water Overlay)}}
|m
{{:Object entry correction (Water Overlay)}}
|The amount of water a construction must experience before it is considered impacted by water. Water must reach this height either on one of the cells the construction is on, or on one of the cells adjacent to it. This is used to compute the {{inlink|IMPACTED BUILDINGS}} result type.
{{:Prequel surface level relative (Water Overlay)}}
|-
{{:Rise rate distance m (Water Overlay)}}
|{{anchor|LIMIT_RAIN|[[Limit_rain_model_attribute_(Water_Overlay)|LIMIT_RAIN]]}}
{{:Sewer overflow threshold (Water Overlay)}}
|{{boolean}}
{{:Shoreline (Water Overlay)}}
|Whether rainfall locations should be limited to water level areas (1) or everywhere (0).
{{:Show duration flood level m (Water Overlay)}}
|-
{{:Stabilizer angle (Water Overlay)}}
|{{anchor|MAX_WATER_DEPTH_M|[[Max_water_depth_model_attribute_(Water_Overlay)|MAX_WATER_DEPTH_M]]}}
{{:Start date ms (Water Overlay)}}
|m
{{:Surface water (Water Overlay)}}
|
{{:Surface water evaporation factor (Water Overlay)}}
|-
{{:Timeframe times (Water Overlay)}}
|{{anchor|MIN_SLOPE|[[Min_slope_model_attribute_(Water_Overlay)|MIN_SLOPE]]}}
{{:Timeframes (Water Overlay)}}
|ratio
{{:Unsaturated fraction (Water Overlay)}}
|The minimum slope required to account for the effect of gravity on the speed of the water. If the slope of the terrain is less than the minimum slope, the effect of gravity on the speed of the water is assumed to be 0. The ratio is the height over distance.
{{:Weir dam multiplier (Water Overlay)}}
|-
{{:Weir move interval s (Water Overlay)}}
|{{anchor|QUAD_CELL|[[Quad_cell_model_attribute_(Water_Overlay)|QUAD_CELL]]}}
{{:Weir move step m (Water Overlay)}}
|boolean
{{:Weir move range m (Water Overlay)}}
|This attribute name is reserved for future functionality. Currently, this marks an experimental feature which is currently under development and may result in unexpected behavior when activated.
}}
|-
 
|{{anchor|SEWER_OVERFLOW_THRESHOLD|[[Sewer_overflow_threshold_model_attribute_(Water_Overlay)|SEWER_OVERFLOW_THRESHOLD]]}}
{{WaterOverlay model attribute nav}}
|fraction
[[Category:Water Module]]
|How much of a sewer's storage must be filled with water before the {{inlink|Sewer overflow|sewer's overflows}} are allowed to overflow water.
|-
|{{anchor|SHOW_DURATION_FLOOD_LEVEL_M|[[Show_flood_duration_model_attribute_(Water_Overlay)|SHOW_DURATION_FLOOD_LEVEL_M]]}}
|m
|The amount of water which must be present in a specific location before the duration of surface water can be recorded. This is used to compute the {{inlink|SURFACE_DURATION}} result type.
|-<!--
|{{anchor|SUPERGRID|[[Supergrid_model_attribute_(Water_Overlay)|SUPERGRID]]}}
|boolean
|This attribute name is reserved for future functionality. Currently, this marks an experimental feature which is currently under development and may result in unexpected behavior when activated.
|--->
|{{anchor|SURFACE_WATER_EVAPORATION_FACTOR|[[Surface_water_evaporation_factor_model_attribute_(Water_Overlay)|SURFACE_WATER_EVAPORATION_FACTOR]]}}
|factor
|The factor by which the {{inlink|lcase=1|Weather}}'s evaporation factor is multiplied to compute the amount of {{inlink|Evaporation model|evaporation}} which takes place on the surface.
|-
|{{anchor|TIMEFRAMES|[[Timeframes_model_attribute_(Water_Overlay)|TIMEFRAMES]]}}
|integer
|The number of intermediate results recorded during the calculation. Each {{inlink|Timeframes|timeframe}} becomes a snapshot of data which can be viewed and analysed. The total simulation time is divided by this value, and at each interval of that period of time a snapshot of the results so far is made. Note that the first timeframe does not contain the starting conditions of the simulation, but the state of the simulation after the first period of time has passed.
|-
|{{anchor|WALL_ANGLE|[[Wall_angle_model_attribute_(Water_Overlay)|WALL_ANGLE]]}}
|degrees
|The minimal angle for a slope to be considered a wall. Cells that have a wall behavior will slow down and reflect the water's movement considerably. The x- and y-direction are handled separately.
|}

Latest revision as of 09:23, 24 January 2024

The Water Overlay's model calculations depend on a number of calculation-wide parameters. These parameters are available as attributes of the water overlay and can be modified as such.

Icon Attribute Unit Range Description Default value
Waterwizard icon allowed water increase.png ALLOWED_WATER_INCREASE_M m The amount by which the water level on a water terrain must increase before it is considered stressed by water. This is used to compute the WATER_STRESS result type. 0.4
Waterwizard icon avg shore width m.png AVG_SHORE_WIDTH_M m 0 to 10000 grid cells With the surface water mode set to Grid Averaging, identified water average areas can be extended to include nearby shorelines within the configured distance. 3
Waterwizard icon avg terrain width m.png AVG_TERRAIN_WIDTH_M m 0 to 10000 grid cells With the surface water mode set to Avg Terrain, identified water average areas can be extended to include surrounding terrain within the configured distance. 1000
Waterwizard icon avg terrain storage m.png AVG_TERRAIN_STORAGE_M m 0 to 10000 When determining the water level of a land cell that will be averaged, the level will ignore the part that is reserved for storage. 0,05
Waterwizard icon breach measurement distance m.png BREACH_MEASUREMENT_DISTANCE_M m Distance from the breach area to the automatically placed measurement point for the downstream water level of the breach, in the direction of the breach. 100
Waterwizard icon bridges.png BRIDGE_ELEVATION nominal 0 to 2 Specifies the mode by which bridges are include in the elevation model, used for the water calculations. Lowest
CULVERT_DEM_THRESHOLD_M m 0 to 10000 The maximum distance a culvert's height can be below the terrain, for the terrain height to be adjusted to the threshold of the culvert. 10
Waterwizard icon design flood elevation m.png DESIGN_FLOOD_ELEVATION_M m Buildings in the model are assumed to have at most this height compared to the surface of the terrain. Greater values can create a more accurate model but will impact performance. 1
Waterwizard icon extended reconstruction.png EXTENDED_RECONSTRUCTION boolean 0 or 1 When selected, a well-balanced reconstruction method for drying and wetting fronts described by Bollermann et. al. is used. This approach is useful when interested in a lake at rest situation and is applied to shorelines. When water flow is more important, this option should be unchecked. 1
Waterwizard icon ground bottom distance m.png GROUND_BOTTOM_DISTANCE_M m 0 to 10000 Assumed distance under the surface terrain where the bottom boundary is situated. 10
Waterwizard icon bottom pressure.png GROUND_BOTTOM_PRESSURE_M m Optional: The additional head of higher areas outside the project causing water to flow in or out of the ground from deeper ground layers through the bottom boundary. 0
GROUND_WATER nominal value Whether and how water in the ground is simulated during the calculation. Infiltration Only
Waterwizard icon ground water depth m.png GROUND_WATER_DEPTH_M m -10000 to 10000 The default depth of ground water in meters. 1
Waterwizard icon ground watertable with surface.png GROUND_WATERTABLE_WITH_SURFACE boolean Whether the ground watertable result type should also include the surface water level, when the groundwater levels are close to the surface. True
Waterwizard icon hydraulic conductivity with thickness.png HYDRAULIC_CONDUCTIVITY_WITH_THICKNESS boolean When selected, the Terrain value HYDRAULIC_CONDUCTIVITY_WITH_THICKNESS_MD is used for horizontal groundwater flow calculations, otherwise HYDRAULIC_CONDUCTIVITY_MD is used. 0
Waterwizard icon impact flood threshold.png IMPACT_FLOOD_THRESHOLD_M m The amount of water a Building must experience before it is considered impacted by water. 0,1
Waterwizard icon impact range m.png IMPACT_RANGE_M m the width in meters of the water next to or against the building that have to be flooded before the building is considered impacted by water. 3
Dem resolution.png INCREASED_RESOLUTION boolean Load the DEM at twice the resolution. False
Waterwizard icon infiltration factor.png INFILTRATION_FACTOR_S factor -10 to 10 This value is multiplied with the surface infiltration speed and can be used to adjust the infiltration over time. Default is 1 (no adjustment). 1
Waterwizard icon limit area model attribute.png LIMIT_AREA nominal value Whether and how calculations in the simulation should be limited to specific locations of the project area. 0 (Entire map)
Limit rain.png LIMIT_RAIN nominal value Whether rainfall can be overridden by rainfall defined in rain areas across the project area. 0 (Entire map)
Waterwizard icon max infiltration m.png MAX_INFILTRATION_M m Assumed maximum amount of infiltrated water that can be stored in the ground layer. 1
Max water bottom m.png MAX_WATER_BOTTOM_M m + datum The maximum height for the bottoms of water terrains. Any water terrain with a bottom at a higher datum height has its bottom lowered to this value. 10000
Waterwizard icon microrelief storage fraction.png MICRORELIEF_STORAGE_FRACTION fraction (m/m) 0.0 to 1.0 Storage Fraction defines how much space is between Microrelief hills that can be used to store water. Setting this value to zero disables the Microrelief functionality all together. 1.0
Waterwizard icon min max elevation.png MIN_MAX_ELEVATION boolean Whether to use highest and lowest elevations found for a grid cell for land and water respectively when interpreting the elevation model. 1.0
Object correction.png OBJECT_ENTRY_CORRECTION cells 0 to 3 cells How many cells allowed to move a hydraulic structure's entry point when it overlaps with another hydraulic building. 2
Wateroverlay wizard icon surface water relative.png PREQUEL_SURFACE_LEVEL_RELATIVE boolean Whether the SURFACE_LEVEL prequel is considered relative instead of a datum height. 0
Waterwizard icon rise rate distance m.png RISE_RATE_DISTANCE_M m 0 to 10000 The water height threshold for computing the Flood rise rate result type. 1.5
Sewer overflow height.png SEWER_OVERFLOW_THRESHOLD fraction (m/m) 0 to 1 How much of a sewer's storage must be filled with water before the sewer overflows are allowed to overflow water. 0.9
Waterwizard icon shoreline.png SHORELINE boolean Whether to automatically fill cells near a water terrain when there is a mismatch between the extend of the water terrain and the DEM. True
Waterwizard icon show duration flood level m.png SHOW_DURATION_FLOOD_LEVEL_M m -10000 to 10000 The amount of water which must be exceeded in a specific location before the duration of surface water can be recorded. This is used to compute the SURFACE_DURATION result type. 0
Waterwizard icon stabilizier angle.png STABILIZER_ANGLE angle (0-90°) 0 to 90 A partly flooded cell (especially at the edges of waterways) can become unstable when the angles in X and Y direction are too far apart. In this case the fluxes in U and V cannot easily be resolved mathematically while preserving balance. To prevent unrealistic fluxes from appearing, only the flux in the primary direction will be preserved. A stabilizer angle of zero means that all cells can be considered partly flooded cells, while an angle of 90 degrees will disable the stabilizer. 10
START_DATE_MS long The date and time which is considered the starting moment of the simulation. 0
SURFACE_WATER Nominal value Whether and how water on the surface is simulated during the calculation. Shallow
Waterwizard icon surface water evaporation factor.png SURFACE_WATER_EVAPORATION_FACTOR factor 0 to 10 The factor by which the weather evaporation factor is multiplied to compute the amount of evaporation which takes place on the surface. 1.3
Timeframes.png TIMEFRAME_TIMES integer 0 to The time of individual timeframes in seconds relative to the start date of the simulation. 0
Timeframes.png TIMEFRAMES integer 1 to 1000 The number of intermediate results recorded during the calculation. Each timeframe becomes a snapshot of data which can be viewed and analysed. 10
Waterwizard icon unsaturated fraction.png UNSATURATED_FRACTION fraction The initial fraction of the maximum storage capacity of the unsaturated zone which is filled with water. 0
Weir dam.png WEIR_DAM_MULTIPLIER factor The width with which the weir's dam should be generated perpendicular to it's direction, relative to its flow width. 3
Waterwizard icon weir move interval s.png WEIR_MOVE_INTERVAL_S seconds 0 to 3.4028235E38 Interval between Weir height adjustments in seconds. The Weir moves up/down to reach the target upstream water level. 10
Waterwizard icon weir move step m.png WEIR_MOVE_STEP_M m When the move interval has passed the Weir height is adjusted up/down by this step distance in meters. 0.01
Waterwizard icon weir move range m.png WEIR_MOVE_RANGE_M seconds 0 to 3.4028235E38 When the Weir height is adjusted up/down it is clamped by this value in meters. 0.5
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Group
Model attributes
Allowed water increase m • Avg shore width m • Avg terrain width m • Avg terrain storage m • Breach measurement distance m • Bridge elevation • Culvert dem threshold m • Design flood elevation m • Extended reconstruction • Ground bottom distance m • Ground bottom pressure m • Ground water • Ground water depth m • Ground watertable with surface • Impact flood threshold m • Impact range m • Increased resolution • Infiltration factor s
Limit area • Limit rain • Max infiltration m • Max water bottom m • Microrelief storage fraction • Min max elevation • Object entry correction • Prequel surface level relative • Rise rate distance m • Sewer overflow threshold • Shoreline • Show duration flood level m • Stabilizer angle • Start date ms • Surface water • Surface water evaporation factor • Timeframe times • Timeframes • Unsaturated fraction • Weir dam multiplier • Weir move interval s • Weir move range m • Weir move step m
Related
Building attributes • Hydrological features • Hydraulic structures •  Terrain attributes • Results • Simulation data
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