Weir height test case (Water Module): Difference between revisions

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====Inlets====
====Inlets====
* Inlet (Constant):
* [[Inlet (Water Overlay)|Inlet]] (Constant):
** Rectangle shape: [189.82, -254.350], [202.08, -251.510]
** Rectangle shape: [189.82, -254.350], [202.08, -251.510]
** [[Inlet area (Water Overlay)|INLET_AREA]] = 1.0;  
** [[Inlet area (Water Overlay)|INLET_AREA]] = 1.0;  
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* Inlet (Manual)
* [[Inlet (Water Overlay)|Inlet]] (Manual)
** Rectangle shape:  [192.116, -331.225], [199.453, -328.390]
** Rectangle shape:  [192.116, -331.225], [199.453, -328.390]
** [[Inlet area (Water Overlay)|INLET_AREA]] = 1.0;  
** [[Inlet area (Water Overlay)|INLET_AREA]] = 1.0;  
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** [[Inlet upper threshold (Water Overlay)|UPPER_THRESHOLD]] = -10 000 (inactive);
** [[Inlet upper threshold (Water Overlay)|UPPER_THRESHOLD]] = -10 000 (inactive);


* Inlet (Adjusting)
* [[Inlet (Water Overlay)|Inlet]] (Adjusting)
[[File:Weir_flow_test_case_adjusting_inlet_q.png|thumb|200px|right|Inlet Q that is adjusting over time, visualized using the Measurement Tool's object attribute inspection.]]
[[File:Weir_flow_test_case_adjusting_inlet_q.png|thumb|200px|right|Inlet Q that is adjusting over time, visualized using the Measurement Tool's object attribute inspection.]]
** Rectangle shape:  [197.019, -444.276], [204.623, -441.738]
** Rectangle shape:  [197.019, -444.276], [204.623, -441.738]

Revision as of 16:13, 16 January 2023

This page contains information how to inspect weir flow for Water Overlays. It also sets up a test case, which is described first.

Description

This test case consists of several weirs situated in a waterway, with each weir having different properties. All weirs are part of the same Water Overlay's simulation. There is no rainfall in this test case. Instead water flow is provided by inlets and outlets, which can be set up either variable or constant.

Weir test case top down.

Boundary and initial conditions

  • Waterways with weirs in the middle, separating two water areas.
  • One inlet per waterway providing an influx of water, situated in the water area on the left.
  • One outlet per waterway providing an outflux of water, situated in the water area on the right.

Parameter values

  • Manning’s n: 0.03 (uniform)
  • Model grid resolution: 1m

Technical setup

Waterways

Four waterways with a water depth of 2m and an angle of repose of 35 degrees, drawn with the following polygons:

  1. [187.0, -249.288], [418.0, -256.288]
  2. [413.0, -333.288], [189.0, -326.288]
  3. [194.0, -375.287], [411.0, -382.287]
  4. [404.0, -447.430], [194.0, -440.430]

Water Areas

Two areas divide the water ways into two sections:

  • Water area (left)
    • Rectangle shape: [301.0, -226.466], [158.884, -464.466]
    • WATER_LEVEL = 0.0;
  • Water area (right)
    • Rectangle shape: [424.884, -226.466], [301.0, -464.466]
    • WATER_LEVEL = 0.0;

Inlets


Inlet Q that is adjusting over time, visualized using the Measurement Tool's object attribute inspection.

Outlets

Each outlet is set up with the following attributes to remove the water that passed through the weir:

The outlets are situated at:

  • Outlet (Constant):
    • Rectangle shape: [414.554, -250.689] , [396.786, -253.873]
  • Outlet (Manual):
    • Rectangle shape: [410.115, -327.753] , [ 393.13, -330.9620 ]
  • Outlet (Adjusting):
    • Rectangle shape: [ 401.072, -442.541 ], [ 383.968, -445.520 ]

Weirs

Each weir is setup using a rectangular shape, and direction angle and a weir height and width:

Weir specific:

  • Weir (Constant)
    • Rectangular shape: [ 299.593, -248.328 ] , [ 302.229, -257.983 ]
  • Weir (Manual)
Weir height that is adjusting over time, visualized using the Measurement Tool's object attribute inspection.
    • Rectangular shape: [ 298.675, -324.174 ] , [ 301.613, -335.662 ]
  • WEIR_HEIGHT = [ 0 0 600 0.2 1200 0.2 1500 0.2 1800 -0.5 2400 -0.5 2700 0 ];
  • Weir (Adjusting)
    • Rectangular shape: [ 298.406, -437.681 ] , [ 301.142, -449.731 ]

Overlay settings

General parameters that have been used:

Output

Measured object graphs are displayed below.

Weir with constant height

    Weir with a constant height:
  • Weir test case weir constant height.png
  • Weir test case weir constant flow.png
  • Weir test case weir constant datum a.png
  • Weir test case weir constant datum b.png
  • Inlet:
  • Weir test case inlet constant flow.png
  • Weir test case inlet constant datum a.png
  • Weir test case inlet constant datum b.png
  • Outlet:
  • Weir test case outlet constant flow.png
  • Weir test case outlet constant datum a.png
  • Weir test case outlet constant datum b.png

Weir with manual configured changing height

    Weir with a manual configured changing height:
  • Weir test case weir manual height.png
  • Weir test case weir manual flow.png
  • Weir test case weir manual datum a.png
  • Weir test case weir manual datum b.png
  • Inlet:
  • Weir test case inlet manual flow.png
  • Weir test case inlet manual datum a.png
  • Weir test case inlet manual datum b.png
  • Outlet:
  • Weir test case outlet manual flow.png
  • Weir test case outlet manual datum a.png
  • Weir test case outlet manual datum b.png

Weir with adjusting height

    Weir with an adjusting height:
  • Weir test case weir adjusting height.png
  • Weir test case weir adjusting flow.png
  • Weir test case weir adjusting datum a.png
  • Weir test case weir adjusting datum b.png
  • Inlet:
  • Weir test case inlet adjusting flow.png
  • Weir test case inlet adjusting datum a.png
  • Weir test case inlet adjusting datum b.png
  • Outlet:
  • Weir test case outlet adjusting flow.png
  • Weir test case outlet adjusting datum a.png
  • Weir test case outlet adjusting datum b.png