Under the Surface with Subsurface Utilities - nclug.com · Under the Surface with Subsurface...

Post on 20-Jun-2018

227 views 1 download

Transcript of Under the Surface with Subsurface Utilities - nclug.com · Under the Surface with Subsurface...

1 | WWW.BENTLEY.COM | © 2016 Bentley Systems, Incorporated © 2016 Bentley Systems, Incorporated

Under the Surface with Subsurface Utilities

Presented by:

Christiana Holmes – Applications Engineer, Bentley Systems, Inc.

2 | WWW.BENTLEY.COM | © 2016 Bentley Systems, Incorporated

• What is Subsurface Utility Engineering?

• Where do I start?

– Subsurface Feature Definitions

– Creating Element Templates

– Creating Subsurface Cells

• The Subsurface DGNLIB

• Importing from other data

Agenda

3 | WWW.BENTLEY.COM | © 2016 Bentley Systems, Incorporated

What is Subsurface Utility Engineering?

StormCAD Hydraulic Analysis/Design Engineering

Subsurface Utility Engineering (SUE)

• Conflict

Management /

Clash

Detection

• SUE Attribution

• Storm/Sanitary

Hydraulic

Analysis and

Design

• Hydrology

• 3D Modeling of

underground

objects.

• Integrate with

OpenRoads

Subsurface Utility Design and Analysis

(SUDA)

4 | WWW.BENTLEY.COM | © 2016 Bentley Systems, Incorporated

Subsurface LicensingIf you own this license: Drainage Functions Utility Functions

Any OpenRoads product (SS4):• GEOPAK• PowerGEOPAK• InRoads• PowerInRoads• MX

• StormCAD which includes storm water design and analysis.

• Maximum of 100 inlets per drainage model.

• Storm water attributes.

• Utilities can be modeled in 3D.

Any of the OpenRoads products above plus a SUElicense.

• Same hydraulic calculation capabilities as above.

• Utilities can be modeled in 3D.• Unique Utility Attributes.• Utility conflict tools/Clash

Detection

OpenRoads Designer • StormCAD which includes storm water design and analysis.

• Maximum of 100 inlets per drainage model.

• Storm water attributes.

• Utilities can be modeled in 3D.• Unique Utility Attributes.• Utility conflict tools/Clash

Detection

Any OpenRoads product plus the following:• StormCAD Unlimited• SewerCAD• CivilStorm• SewerGEMS

• Additional hydraulic calculations depending on which license is activated.

• Utilities can be modeled in 3D.• Unique Utility Attributes.• Utility conflict tools/Clash

Detection

5 | WWW.BENTLEY.COM | © 2016 Bentley Systems, Incorporated

Subsurface Product Activation

• To activate an additional product go to Subsurface Utilities > Tools > License Activation.

• If activated, an alert that an additional license usage will be logged which may result in incremental cost.

7 | WWW.BENTLEY.COM | © 2014 Bentley Systems, Incorporated7 | WWW.BENTLEY.COM | © 2014 Bentley Systems, Incorporated

Subsurface Cells, Element Templates, Feature Symbologies & Feature Definitions

8 | WWW.BENTLEY.COM | © 2016 Bentley Systems, Incorporated

What is a Feature Definition

Feature Definitions link to Feature Symbolgies which link to MicroStation element templates, that define the symbology in the various view spaces:

− Plan

− Profile and

− 3DOpenRoads:

It starts with

the Feature

Definition

9 | WWW.BENTLEY.COM | © 2016 Bentley Systems, Incorporated

The Parts of a Subsurface Element

• Feature Definition – the container which holds all the other parts and defines function.

• Feature Symbology – points to element templates for symbology information.

• Element Templates – defines the symbology, material, and cells to be used.

• Cell Library:– 2D cells are used for plan view presentation.

– 3D cell for modeling the top and bottom of the utility structures.

– Can be stored in one or multiple files.

Feature

Definitions

Feature

SymbologiesElement

Templates

Symbology

Cells

Materials

10 | WWW.BENTLEY.COM | © 2016 Bentley Systems, Incorporated

Subsurface Feature Definitions

• Types of Subsurface Features:

– Nodes → Structures (inlets, manholes, headwalls, etc.)

– Conduit → Pipes (elliptical, circular, box, arch, etc.)

– Catchments → Drainage Areas

11 | WWW.BENTLEY.COM | © 2016 Bentley Systems, Incorporated

Creating a Node Feature Definition

• Subsurface Feature Definitions are created and stored in dgnlib file.

• Explorer > OpenRoads Standards > Node

• Categorized folders make creation EASY!!

12 | WWW.BENTLEY.COM | © 2016 Bentley Systems, Incorporated

Node Feature Definition

• The Feature Definition sets the type and function of the node.

– Structure Type

– Network Type

– Symbology

– Hydraulic Prototype

– Item Type

• Requires 3 different Feature Symbolgies:

– Point

– Profile

– Solid

13 | WWW.BENTLEY.COM | © 2016 Bentley Systems, Incorporated

Node Feature Symbology

• Feature Symbolgies:

– Point → Plan

– Profile

– Solid → 3D Element

• Defines the symbology for all 4

views.

• Links to MicroStation Element

Templates.

• Feature Symbologies for subsurface

nodes typically require 2 3D

templates (Top and Bottom).

Solid

ProfilePoint

14 | WWW.BENTLEY.COM | © 2016 Bentley Systems, Incorporated

Node Feature Symbology

15 | WWW.BENTLEY.COM | © 2016 Bentley Systems, Incorporated

Creating Element Templates

• Element Templates define symbology,

cells, and materials to be used for

feature symbologies.

• One Element Template can be used in

multiple features.

• Define Element Templates in dgn library

file (.dgnlib).

• Separate Element Templates for:

– Plan

– Profile

– 3D Top

– 3D Bottom

16 | WWW.BENTLEY.COM | © 2016 Bentley Systems, Incorporated

Creating Subsurface Node Cells

• Single or multiple cell (.cel) files can be used.

• 2D cells are used for the plan view.

• 3D Top cells models the top of the structure.

• 3D Bottom cells models the bottom of the structure

17 | WWW.BENTLEY.COM | © 2016 Bentley Systems, Incorporated

Creating Node Plan Cells

• Plan cells:

– Alignment/Location Point:

• Element Type: Point

• Class: Construction

• Color: 3 (red)

• Line Style: 3

– Insertion Point:

• Element Type: Point

• Class: Construction

• Color: 4 (yellow)

• Line Style: 4

18 | WWW.BENTLEY.COM | © 2016 Bentley Systems, Incorporated

Creating Node 3D Top Cells

• 3D Top cells:

– Alignment Point and Direction Line:

• Element Type: Point, Line

• Class: Construction

• Color: 3 (red)

• Line Style: 3

– Top Elevation/Insertion Point:

• Element Type: Point

• Class: Construction

• Color: 5 (magenta)

• Line Style: 5

19 | WWW.BENTLEY.COM | © 2016 Bentley Systems, Incorporated

Creating Node 3D Bottom Cells

• 3D Bottom cells:

– Alignment Point and Direction Line:

• Element Type: Point, Line

• Class: Construction

• Color: 3 (red)

• Line Style: 3

– Bottom Elevation/Insertion Point:

• Element Type: Point

• Class: Construction

• Color: 5 (magenta)

• Line Style: 5

20 | WWW.BENTLEY.COM | © 2016 Bentley Systems, Incorporated

Creating Node 3D Bottom Cells

• 3D Bottom cells – Connection Regions:

– Pipe Connection:

• Element Type: Shape

• Class: Construction

• Color: 6 (orange)

• Line Style: 6

Note: If no shapes are included then conduits attach at the location point.

21 | WWW.BENTLEY.COM | © 2016 Bentley Systems, Incorporated

How are the Plan and 3D cells aligned?

• The use of the construction elements within the cell allows them to align.

• The points are aligned: bottom, top, plan.

• The lines are used for directional or rotational alignment.

22 | WWW.BENTLEY.COM | © 2016 Bentley Systems, Incorporated

Node Creation

Extrusion Config Variables:

• SU_3D_Structure_ExtrudeMethod = UP

• SU_3D_Structure_ExtrudeMethod = DOWN

• When a Subsurface node is placed, the 3D top and bottom cells are merged.

• Including an extrusion in middle to vary the height.

23 | WWW.BENTLEY.COM | © 2016 Bentley Systems, Incorporated

Headwall and End Treatment Feature Definitions

• Headwalls are created identically, except, there is no top cell, only a bottom cell is used for the 3D model.

24 | WWW.BENTLEY.COM | © 2016 Bentley Systems, Incorporated

Creating 3D Cells Hints

• Create the 3D cells using the Solids Modeling and Surface Modeling MicroStation tools.

• Helpful Modeling tools:

– Solid/Surface by Extrusion

– Unite Solids

– Subtract Solids

– Trim Solid/Surface

– Cut Solid/Surface by Curves

– Shell

• AccuDraw is a MUST when creating 3D cells.

25 | WWW.BENTLEY.COM | © 2016 Bentley Systems, Incorporated

Workflow: Creating Subsurface Nodes

1. Have a Linestyles, Levels, and Materials created

2. Create 2D plan cells for structures.

3. Create 3D top cells for structures.

4. Create 3D bottom cells for structure bottoms.

5. Create Elements Templates for:

– Plan

– Profile

– 3D Top

– 3D Bottom

6. Create Feature Symbologies

7. Create Feature Definitions

26 | WWW.BENTLEY.COM | © 2016 Bentley Systems, Incorporated

DEMO!!!

27 | WWW.BENTLEY.COM | © 2016 Bentley Systems, Incorporated

Creating a Conduit Feature Definition

• Subsurface conduit Feature Definitions are created and stored in the same dgnlib file.

• Explorer > Civil Standards

• Categorized folders make creation EASY!!

28 | WWW.BENTLEY.COM | © 2016 Bentley Systems, Incorporated

Conduit Feature Definition

• Links to Element Symbologies which

link to Element Templates for

symbology and material information.

• Contains all properties for the

conduit:

– Function

– Network Type

– Conduit Type

– Conduit Shape

– Shape Orientation

29 | WWW.BENTLEY.COM | © 2016 Bentley Systems, Incorporated

Conduit Feature Definition

• Create pipe sizes in the Conduit Table.

30 | WWW.BENTLEY.COM | © 2016 Bentley Systems, Incorporated

Water Feature Definitions and Hydraulic Properties

• For storm or waste water utility types, you define the hydraulic characteristics by linking to a hydraulic prototype.

• The Conduit sizes are also defined in the Prototype –Conduit Catalog.

31 | WWW.BENTLEY.COM | © 2016 Bentley Systems, Incorporated

Subsurface Configuration Variables

Node and Conduit Feature definition libraries:

– CIVIL_CONTENTMANAGEMENTDGNLIBLIST > $(_USTN_PROJECTDATA)/dgnlib/Sample Drainage FeatureDefs*.dgnlib

– CIVIL_CONTENTMANAGEMENTDGNLIBLIST > $(_USTN_PROJECTDATA)/dgnlib/*Conduit Library.dgnlib

The utility libraries also contains the levels, element templates and additional line styles needed for utilities:

– MS_DGNLIBLIST > $(_USTN_PROJECTDATA)/dgnlib/Sample Drainage FeatureDefs*.dgnlib

– MS_DGNLIBLIST > $(_USTN_PROJECTDATA)/dgnlib/*Conduit Library.dgnlib

Utility and Drainage cell libraries are loaded with the workspace.

32 | WWW.BENTLEY.COM | © 2014 Bentley Systems, Incorporated32 | WWW.BENTLEY.COM | © 2014 Bentley Systems, Incorporated

Subsurface Defaults and Settings

33 | WWW.BENTLEY.COM | © 2016 Bentley Systems, Incorporated33 | WWW.BENTLEY.COM | © 2016 Bentley Systems, Incorporated

Project Defaults

• Should be created and stored in the dgnlib.

• Stores the following parameters

– Hydraulic Model Preferences

– Default drawing scale

– Units

– Labeling defaults

– ProjectWise

• Can be changed in the design file. This is just a “starting point”.

34 | WWW.BENTLEY.COM | © 2016 Bentley Systems, Incorporated

Default Design Constraints

• Stored in the dgnlib.

• Sets default constraints for Gravity Pipes, Nodes, and Inlets.

35 | WWW.BENTLEY.COM | © 2016 Bentley Systems, Incorporated

Storm Data

• Subsurface Utilities > Components > Storm Data

• Stored in a the dgnlib

• Storm Data formats:

– Time-Depth

– Time-Intensity

– IDF Tables

– Hydro-35

– IDF Curves

– Etc.

36 | WWW.BENTLEY.COM | © 2016 Bentley Systems, Incorporated

Calculation Options

• Subsurface Utilities > Compute > Calculation > Options

37 | WWW.BENTLEY.COM | © 2016 Bentley Systems, Incorporated

Flex Tables

• Subsurface Utilities > Report > Tables > Flex Tables

38 | WWW.BENTLEY.COM | © 2016 Bentley Systems, Incorporated

Extracting from Existing Graphics

• Subsurface Utilities > Components > Extract from Graphics

– The Extract Utilities from Graphics tool provides the ability to create 3D drainage elements from graphic elements. These elements may result from survey processes, GIS graphic data, OpenRoads Geometry or other sources. But, in every case the elements are DGN graphic elements.

39 | WWW.BENTLEY.COM | © 2016 Bentley Systems, Incorporated

Utility Filter

• Created in the dgnlib.

• Extracts Graphics based on stored search parameters.

40 | WWW.BENTLEY.COM | © 2016 Bentley Systems, Incorporated

Importing from other Data Sources

• Subsurface Utilities > Model Import/Export > Import Utilities

– Haestad

– LandXML

– WinDes

– InRoads S&S

• The following products using SHP files:

– StormCAD

– CivilStorm

– SewerCAD

– SewerGEMS

– WaterGEMS

– WaterCAD

41 | WWW.BENTLEY.COM | © 2016 Bentley Systems, Incorporated

Model Builder

• Connects to any data source, including:– SHP

– XLS

– TXT, CSV

– Oracle Spatial

• Geospatial sources are preferred.

• Creates 2 way link for import, export and update

42 | WWW.BENTLEY.COM | © 2016 Bentley Systems, Incorporated

Clash Detection

• Subsurface Utilities > Tools > Clash Detection

– Requires the SUE License in SS4

43 | WWW.BENTLEY.COM | © 2016 Bentley Systems, Incorporated

Clash Detection

44 | WWW.BENTLEY.COM | © 2016 Bentley Systems, Incorporated

Bentley Communities

• http://communities.bentley.com/products/road___site_design/w/road_and_site_design__wiki/12600.subsurface-utilities-sue-and-suda-video-clips-technotes-faqs

45 | WWW.BENTLEY.COM | © 2016 Bentley Systems, Incorporated

Available Training

• Subsurface Utilities Training & Documentation

– Subsurface Utility Design and Analysis Learning Path

• SELECTseries 4

• OpenRoads Workspace Training & Documentation

– OpenRoads Designer - Subsurface Utilities Learning Path

– Includes Updates to many of the SELECTseries 4 classes

46 | WWW.BENTLEY.COM | © 2016 Bentley Systems, Incorporated

Questions?

Christiana Holmes, Applications Engineer

christiana.holmes@bentley.com