& 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
When creating a 1D-2D runoff model of an urban area,
00:08
one of the main challenges is how best to represent your buildings,
00:13
both from a hydrological and a hydraulic perspective.
00:18
Buildings are polygon objects in InfoWorks networks
00:22
that are used to represent rain falling onto a roof of a building
00:27
and entering the drainage system and/or remaining on the surface.
00:31
They can also be used to define roughness, levels and porosity within a 2D mesh.
00:38
This allows the user to have a single object in place of many.
00:43
Buildings can be imported via the Open Data Import Centre
00:48
or digitized directly on the GeoPlan window.
00:52
Building parameters are edited in the Building tab of the Polygons Grid or the building property sheet.
00:59
Each building will drain to one of the following:
01:03
A single inflow node
01:06
A single lateral link
01:08
A single 2D point source (allows the hydrology aspects of a building to be applied directly to a 2D mesh)
01:18
SUDS controls can also be assigned to buildings,
01:22
allowing you to model the impact of SUDS structures,
01:25
such as green roofs, on storm runoff entering the drainage system.
01:30
You can also set a capacity limit, where any flow above this limit is capped from entering the 1D network,
01:37
and you can choose whether this excess is lost from the system or passed to the 2D mesh.
01:44
This allows you to improve your hydrological representation of your buildings,
01:49
and to better represent extreme rainfall conditions where the drainage system would not have the inlet capacity
01:56
to cope with the flows.
01:59
Buildings can be included as part of the mesh generation process when undertaking 2D modelling.
02:06
You can use the Single element box to choose whether the building is to be represented as a single element in the mesh.
02:13
Enabling this option can simplify the process of calculating the flood depth within a building and reduce the total number of elements.
02:23
It also tends to look more aesthetically pleasing for results presentation.
02:28
Roughness can also be modelled for a building.
02:32
You can either set a specific roughness value or assign a roughness definition to the building.
02:38
Buildings can be used to define specific areas where ground levels are to be modified in the 2D mesh.
02:45
The same options are available for a building as for a mesh level zone.
02:51
Typically, a model will take one of two main approaches.
02:56
First, the elements of the building are simply raised to the height of the roof.
03:01
This approach looks more visually impressive in 3D view alongside aerial photography,
03:07
but prohibits any flow passing through the building.
03:11
Alternatively, the elements are raised to the flood threshold of the building,
03:16
and a low porosity is applied up to the roof height.
03:20
This approach gives a more accurate hydraulic representation of the building
03:25
and allows for the production of more accurate flood maps and damage calculations.
03:31
Note that if changes are made to the mesh level within a building after meshing of the 2D zone has been carried out,
03:39
it will be necessary to recalculate mesh elevations.
03:43
This can be done by resampling elevations for selected 2D zones.
Video transcript
00:03
When creating a 1D-2D runoff model of an urban area,
00:08
one of the main challenges is how best to represent your buildings,
00:13
both from a hydrological and a hydraulic perspective.
00:18
Buildings are polygon objects in InfoWorks networks
00:22
that are used to represent rain falling onto a roof of a building
00:27
and entering the drainage system and/or remaining on the surface.
00:31
They can also be used to define roughness, levels and porosity within a 2D mesh.
00:38
This allows the user to have a single object in place of many.
00:43
Buildings can be imported via the Open Data Import Centre
00:48
or digitized directly on the GeoPlan window.
00:52
Building parameters are edited in the Building tab of the Polygons Grid or the building property sheet.
00:59
Each building will drain to one of the following:
01:03
A single inflow node
01:06
A single lateral link
01:08
A single 2D point source (allows the hydrology aspects of a building to be applied directly to a 2D mesh)
01:18
SUDS controls can also be assigned to buildings,
01:22
allowing you to model the impact of SUDS structures,
01:25
such as green roofs, on storm runoff entering the drainage system.
01:30
You can also set a capacity limit, where any flow above this limit is capped from entering the 1D network,
01:37
and you can choose whether this excess is lost from the system or passed to the 2D mesh.
01:44
This allows you to improve your hydrological representation of your buildings,
01:49
and to better represent extreme rainfall conditions where the drainage system would not have the inlet capacity
01:56
to cope with the flows.
01:59
Buildings can be included as part of the mesh generation process when undertaking 2D modelling.
02:06
You can use the Single element box to choose whether the building is to be represented as a single element in the mesh.
02:13
Enabling this option can simplify the process of calculating the flood depth within a building and reduce the total number of elements.
02:23
It also tends to look more aesthetically pleasing for results presentation.
02:28
Roughness can also be modelled for a building.
02:32
You can either set a specific roughness value or assign a roughness definition to the building.
02:38
Buildings can be used to define specific areas where ground levels are to be modified in the 2D mesh.
02:45
The same options are available for a building as for a mesh level zone.
02:51
Typically, a model will take one of two main approaches.
02:56
First, the elements of the building are simply raised to the height of the roof.
03:01
This approach looks more visually impressive in 3D view alongside aerial photography,
03:07
but prohibits any flow passing through the building.
03:11
Alternatively, the elements are raised to the flood threshold of the building,
03:16
and a low porosity is applied up to the roof height.
03:20
This approach gives a more accurate hydraulic representation of the building
03:25
and allows for the production of more accurate flood maps and damage calculations.
03:31
Note that if changes are made to the mesh level within a building after meshing of the 2D zone has been carried out,
03:39
it will be necessary to recalculate mesh elevations.
03:43
This can be done by resampling elevations for selected 2D zones.
When creating a 1D-2D runoff model of an urban area, one of the main challenges is how best to represent buildings, both from a hydrological and a hydraulic perspective.
Buildings are polygon objects in InfoWorks networks that are used to represent rain falling onto a roof of a building and entering the drainage system and/or remaining on the surface. They can also be used to define roughness, levels and porosity within a 2D mesh. This allows for a single object in place of many.
Buildings can be imported via the Open Data Import Centre or digitized directly on the GeoPlan.
Building parameters are edited in the Building tab of the Polygons grid, or in the building property sheet.
Each building will drain to one of the following:
SUDS controls can also be assigned to buildings, allowing for modeling the impact of SUDS structures, such as green roofs, or storm runoff entering the drainage system.
A Capacity limit can be set, where any flow above this limit is capped from entering the 1D network; and based on the Exceedance flow type chosen, the excess is either lost from the system or passed to the 2D mesh. This allows the hydrological representation of the buildings to be improved, and better represents extreme rainfall conditions where the drainage system would not have the inlet capacity to cope with the flows.
Buildings can be included as part of the mesh generation process when undertaking 2D modelling. Use the Single element box to choose whether the building is to be represented as a single element in the mesh. Enabling this option can simplify the process of calculating the flood depth within a building and reduce the total number of elements. It also tends to look more aesthetically pleasing for results presentation.
Roughness can also be modelled for a building. A specific roughness value can be set, or a roughness definition assigned to the building.
Buildings can be used to define specific areas where ground levels are to be modified in the 2D mesh. The same options are available for a building as for a mesh level zone.
Typically, a model will take one of two main approaches. First, the elements of the building are simply raised to the height of the roof. This approach looks more visually impressive in 3D view alongside aerial photography, but prohibits any flow passing through the building.
Alternatively, the elements are raised to the flood threshold of the building, and a low porosity is applied up to the roof height. This approach gives a more accurate hydraulic representation of the building and allows for the production of more accurate flood maps and damage calculations.
If changes are made to the mesh level within a building after meshing of the 2D zone has been carried out, it will be necessary to recalculate mesh elevations. This can be done by resampling elevations for selected 2D zones.
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