& Construction
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Integrated BIM tools, including Revit, AutoCAD, and Civil 3D
& Manufacturing
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Professional CAD/CAM tools built on Inventor and AutoCAD
Integrated BIM tools, including Revit, AutoCAD, and Civil 3D
Professional CAD/CAM tools built on Inventor and AutoCAD
Transcript
00:03
After you have run and simulated a pollution scenario in the system,
00:07
you can create graphs and animate a
00:09
theme to visualize and better understand the results
00:14
the run results appear in the model group window.
00:17
In this exercise, you can see the successful run under the nitrates run,
00:22
click and drag the nitrates run into the GEO plan.
00:28
Then in the tools toolbar click graph to turn on graphic mode,
00:32
select a node immediately downstream of the fixed head control unit.
00:37
Then in the select what to graph four dialogue, select concentration.
00:42
The graph shows the concentration jump to 100 at two o'clock on the start
00:46
date and then drop back to zero at six o'clock on the same date.
00:51
Next graph for concentration in the reservoir.
00:54
In this example, node 544421 is selected
00:59
again,
00:60
choose concentration from the select what to graph four dialogue.
01:04
This graph shows a sharp increase in nitrate concentration at
01:08
two o'clock and a more gradual decrease over several days.
01:12
The concentration levels are much lower than those of the node
01:15
because it is being diluted in the volume of the reservoir.
01:20
You can create a new theme group to see a visual representation of
01:23
how the nitrate pollution spreads and dissipates
01:25
over the course of the simulation.
01:28
In this example, the WQ contours control theme is used,
01:34
you can disable the display of polygons for a cleaner. Look. If you prefer
01:41
realize that depending on the solute data being modeled,
01:44
you may need to change the scale of values to something more appropriate.
01:48
In this example, the low end of the scale is set to zero.
01:52
The high end needs to be set to three
01:55
in the bottom row. Click the check box in the fixed column.
01:59
Then in the same row value column enter a value of three
02:03
click autos scale to automatically scale the values between zero and three.
02:08
Then you can adjust the fill colors to your preference
02:14
when you are ready. Click OK.
02:20
The network is now overlaid with the contour theme showing areas
02:24
of high concentration in orange and areas of low concentration in blue
02:29
in the toolbar.
02:30
Click the play button to advance the simulation
02:33
and see how the gradients change over time.
02:35
Notice how the nitrate concentrations are higher in high flow
02:38
areas of the network and nonexistent in other areas.
02:44
As you reach the end of the simulation,
02:46
the concentration gradually decays before disappearing completely.
Video transcript
00:03
After you have run and simulated a pollution scenario in the system,
00:07
you can create graphs and animate a
00:09
theme to visualize and better understand the results
00:14
the run results appear in the model group window.
00:17
In this exercise, you can see the successful run under the nitrates run,
00:22
click and drag the nitrates run into the GEO plan.
00:28
Then in the tools toolbar click graph to turn on graphic mode,
00:32
select a node immediately downstream of the fixed head control unit.
00:37
Then in the select what to graph four dialogue, select concentration.
00:42
The graph shows the concentration jump to 100 at two o'clock on the start
00:46
date and then drop back to zero at six o'clock on the same date.
00:51
Next graph for concentration in the reservoir.
00:54
In this example, node 544421 is selected
00:59
again,
00:60
choose concentration from the select what to graph four dialogue.
01:04
This graph shows a sharp increase in nitrate concentration at
01:08
two o'clock and a more gradual decrease over several days.
01:12
The concentration levels are much lower than those of the node
01:15
because it is being diluted in the volume of the reservoir.
01:20
You can create a new theme group to see a visual representation of
01:23
how the nitrate pollution spreads and dissipates
01:25
over the course of the simulation.
01:28
In this example, the WQ contours control theme is used,
01:34
you can disable the display of polygons for a cleaner. Look. If you prefer
01:41
realize that depending on the solute data being modeled,
01:44
you may need to change the scale of values to something more appropriate.
01:48
In this example, the low end of the scale is set to zero.
01:52
The high end needs to be set to three
01:55
in the bottom row. Click the check box in the fixed column.
01:59
Then in the same row value column enter a value of three
02:03
click autos scale to automatically scale the values between zero and three.
02:08
Then you can adjust the fill colors to your preference
02:14
when you are ready. Click OK.
02:20
The network is now overlaid with the contour theme showing areas
02:24
of high concentration in orange and areas of low concentration in blue
02:29
in the toolbar.
02:30
Click the play button to advance the simulation
02:33
and see how the gradients change over time.
02:35
Notice how the nitrate concentrations are higher in high flow
02:38
areas of the network and nonexistent in other areas.
02:44
As you reach the end of the simulation,
02:46
the concentration gradually decays before disappearing completely.
After running and simulating a pollution scenario in InfoWorks Pro, create graphs and animate a theme to visualize and better understand the results.
The graph shows the concentration jump to 100 at 2:00 on the start date, and then drop back to zero at 6:00 on the same date.
To graph for concentration in the reservoir.
This graph shows a sharp increase in nitrate concentration at 2:00 and a more gradual decrease over several days. The concentration levels are much lower than those of the node, because it is being diluted in the volume of the reservoir.
To create a new theme group for a visual representation of how the nitrate pollution spreads and dissipates over the course of the simulation:
Note: Depending on the solute data being modeled, you may need to change the scale of values.
Notice in the Contours: Concentration dialog box, under Ranged Themes, the low end of the scale is already set to 0.
The network is now overlaid with the contour theme, showing areas of high concentration in orange and areas of low concentration in blue.
Notice how the nitrate concentrations are higher in high-flow areas of the network, and nonexistent in other areas. As you reach the end of the simulation, the concentration gradually decays before disappearing completely.
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