& Construction

Integrated BIM tools, including Revit, AutoCAD, and Civil 3D
& Manufacturing

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
00:04
Much of your time spent working in info works.
00:06
W S pro will be adjusting networks and simulating their hydraulic performance.
00:11
However, there will be times when you need to make changes to a control.
00:15
For example,
00:16
you may want to add a new control profile to
00:19
an object to change how it behaves during a simulation.
00:24
Start by creating a new scenario.
00:27
Click and drag the bridge net network into the workspace to open the GEO plan
00:32
in the toolbar. Click the create scenario button
00:36
in the create new scenario dialogue, enter the name PR V
00:41
click, OK.
00:44
Click the find network objects button
00:49
in the network, find dialogue,
00:50
check the box next to links and ensure that
00:53
in the match identifier group box asset is selected.
00:58
Enter the asset ID 239191 in the wildcard type box. Then click select and find
01:06
the valve is highlighted in red.
01:09
Click the properties button,
01:11
then click the valve to open its properties window.
01:15
Notice that the mode id is listed as PRV
01:20
in the profiles row, click more which is the ellipsis button.
01:25
This opens a window that shows the valve's profiles.
01:28
But in this example, no profiles currently exist
01:33
to give the valve profile data.
01:35
You can copy and paste it from an external source or as in this example,
01:39
enter the data manually
01:41
note that if you do copy and paste the month and day
01:44
entries need to match your local system or you could encounter an error
01:48
in the valves profile window,
01:50
open the date and time drop down and choose the active date.
01:53
In this case may 2nd 2022
01:56
keep the default time of zero hours. Zero minutes, zero seconds.
02:01
Notice that the 05 for the month is highlighted.
02:05
This is because you can select parts of the date and time to change them.
02:09
Add two more date and time entries both for May 2nd
02:13
for the second entry. Click the 00 for the hour and change the time to six hours.
02:19
Zero minutes, zero seconds,
02:23
repeat this for the last entry, changing it to 20 hours,
02:26
zero minutes and zero seconds
02:31
next under the pressure column for each of those three times. Enter values of 2024
02:43
You will now create a new run.
02:46
First,
02:46
commit the changes you just made to both
02:48
the bridge net network and bridge con control.
02:52
Then create a new run and title it pr V.
03:00
Then click and drag the bridge net network into the network group box
03:06
in the scenarios. Tab check the boxes next to base and PRV
03:13
click save, then run,
03:16
click Yes,
03:16
in the notification to confirm that you
03:18
want to proceed with running the simulations.
03:23
Once the simulations are complete
03:25
in the model group window,
03:27
expand the PRV run and click and drag PRV bridge con into the GEO plan
03:35
in the toolbar click graph and then click the node downstream from the valve.
03:39
In the GEO plan.
03:42
A dialogue opens asking what you want a graph for
03:46
click pressure,
03:48
check the box next to add control profile
03:51
and then click OK.
03:54
A graph appears showing that the PRV scenario is now controlling to the profile.
03:59
You imported
04:01
close the graph.
04:04
You can compare the PRV bridge can run with the results bridge can run
04:09
right. Click it,
04:11
select open as
04:13
and then click as alternate results for comparison.
04:17
Click OK,
04:21
click the graph button again
04:23
and then click the node downstream from the PRV.
04:27
In this example, pressure is still highlighted in the dialogue.
04:31
Also the add control profile and graph
04:34
alternate results options should both be checked.
04:38
Click OK.
04:40
A graph opens showing the results of the two runs simultaneously. For comparison,
04:46
when you are finished reviewing the information, you can close the graph.
Video transcript
00:04
Much of your time spent working in info works.
00:06
W S pro will be adjusting networks and simulating their hydraulic performance.
00:11
However, there will be times when you need to make changes to a control.
00:15
For example,
00:16
you may want to add a new control profile to
00:19
an object to change how it behaves during a simulation.
00:24
Start by creating a new scenario.
00:27
Click and drag the bridge net network into the workspace to open the GEO plan
00:32
in the toolbar. Click the create scenario button
00:36
in the create new scenario dialogue, enter the name PR V
00:41
click, OK.
00:44
Click the find network objects button
00:49
in the network, find dialogue,
00:50
check the box next to links and ensure that
00:53
in the match identifier group box asset is selected.
00:58
Enter the asset ID 239191 in the wildcard type box. Then click select and find
01:06
the valve is highlighted in red.
01:09
Click the properties button,
01:11
then click the valve to open its properties window.
01:15
Notice that the mode id is listed as PRV
01:20
in the profiles row, click more which is the ellipsis button.
01:25
This opens a window that shows the valve's profiles.
01:28
But in this example, no profiles currently exist
01:33
to give the valve profile data.
01:35
You can copy and paste it from an external source or as in this example,
01:39
enter the data manually
01:41
note that if you do copy and paste the month and day
01:44
entries need to match your local system or you could encounter an error
01:48
in the valves profile window,
01:50
open the date and time drop down and choose the active date.
01:53
In this case may 2nd 2022
01:56
keep the default time of zero hours. Zero minutes, zero seconds.
02:01
Notice that the 05 for the month is highlighted.
02:05
This is because you can select parts of the date and time to change them.
02:09
Add two more date and time entries both for May 2nd
02:13
for the second entry. Click the 00 for the hour and change the time to six hours.
02:19
Zero minutes, zero seconds,
02:23
repeat this for the last entry, changing it to 20 hours,
02:26
zero minutes and zero seconds
02:31
next under the pressure column for each of those three times. Enter values of 2024
02:43
You will now create a new run.
02:46
First,
02:46
commit the changes you just made to both
02:48
the bridge net network and bridge con control.
02:52
Then create a new run and title it pr V.
03:00
Then click and drag the bridge net network into the network group box
03:06
in the scenarios. Tab check the boxes next to base and PRV
03:13
click save, then run,
03:16
click Yes,
03:16
in the notification to confirm that you
03:18
want to proceed with running the simulations.
03:23
Once the simulations are complete
03:25
in the model group window,
03:27
expand the PRV run and click and drag PRV bridge con into the GEO plan
03:35
in the toolbar click graph and then click the node downstream from the valve.
03:39
In the GEO plan.
03:42
A dialogue opens asking what you want a graph for
03:46
click pressure,
03:48
check the box next to add control profile
03:51
and then click OK.
03:54
A graph appears showing that the PRV scenario is now controlling to the profile.
03:59
You imported
04:01
close the graph.
04:04
You can compare the PRV bridge can run with the results bridge can run
04:09
right. Click it,
04:11
select open as
04:13
and then click as alternate results for comparison.
04:17
Click OK,
04:21
click the graph button again
04:23
and then click the node downstream from the PRV.
04:27
In this example, pressure is still highlighted in the dialogue.
04:31
Also the add control profile and graph
04:34
alternate results options should both be checked.
04:38
Click OK.
04:40
A graph opens showing the results of the two runs simultaneously. For comparison,
04:46
when you are finished reviewing the information, you can close the graph.
InfoWorks WS Pro allows you to make changes to a control. For example, you can add a new control profile to an object to change its behavior during a simulation.
First, create a new scenario:
Notice that in the GeoPlan, the valve is highlighted in red.
In the Properties window, under Valve Control, notice that the Mode ID is listed as “PRV”.
Note: If you copy and paste the entries from an external source, the month and day need to match your system, or you could encounter an error.
To Compare the [PRV] BridgeCon run with the BridgeCon Run:
Review the graph displaying results of the two runs for comparison.
How to buy
Privacy | Do not sell or share my personal information | Cookie preferences | Report noncompliance | Terms of use | Legal | © 2025 Autodesk Inc. All rights reserved
Sign in to start learning
Sign in for unlimited free access to all learning content.Save your progress
Take assessments
Receive personalized recommendations
May we collect and use your data?
Learn more about the Third Party Services we use and our Privacy Statement.May we collect and use your data to tailor your experience?
Explore the benefits of a customized experience by managing your privacy settings for this site or visit our Privacy Statement to learn more about your options.