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P lant W ise Features. Features PlantBuilder: Rapid & Easy 3D Conceptual Modeling −Rule-based equipment modeling and nozzle placement AutoRouter : Fast.

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Presentation on theme: "P lant W ise Features. Features PlantBuilder: Rapid & Easy 3D Conceptual Modeling −Rule-based equipment modeling and nozzle placement AutoRouter : Fast."— Presentation transcript:

1 P lant W ise Features

2 Features PlantBuilder: Rapid & Easy 3D Conceptual Modeling −Rule-based equipment modeling and nozzle placement AutoRouter : Fast Quality Routing with Inline Placement −Rule-based routing control, routing patterns, & Inline geometry Model and Data Management −Model save, split, merge, compare, report, export PlantDrafter −Plot plans, Detached plans Integrated, Friendly, Intuitive

3 Conceptual Modeling Equipment Nozzles Pipeways Structures Obstacles

4 Equipment Modeling From simpleTo extravagant Defined with only a few input parameters

5 Nozzles and AutoNozzle Placed by rules

6 Pipeways From simpleTo complex Defined with only a few input parameters

7 Structures Structures (with Floors) Stairways Pedestals (without Floors) Defined with only a few input parameters

8 Structure Pipeways Vertical Pipeways Standing In-structure Pipeways Hanging In-structure Pipeways Vertical Chases Floor Penetrations All defined with only a few input parameters

9 AutoRouter Fastest and Best −1-5 seconds per pipe −Scales up to hundreds or thousands of pipelines Features −Vicinity Routing −Free Space Routing −On-Pipeway Routing −Structure Routing −Routing through Point Clouds −Automatic Pipeline Component Placement

10 Router Performance 1-5 seconds per pipe

11 Vicinity Routing Rule-based equipment specific patterns

12 Free Space Routing Routing in priority order for lowest cost

13 On-Pipeway Routing

14 Eccentrically Aligned Pipeways

15 Pipeway Level Transitions

16 Pipeway Obstacle Avoidance and Detection

17 Structure Routing: Chases

18 Structure Routing: Vertical PWs

19 Floor Penetrations

20 Routing through Point Clouds A collaborative project with Bitwyse

21 Putting it All Together

22 Automatic Component Placement All driven from process data Basic Components −Tees −Reducers −Spec Breaks −Control Valves −Flow Elements −User-Defined Inline components Spec Driven (minimal data requirements)

23 All Driven from Process Data Branch User-Defined Inlines

24 Tees With rule-based selection of tee type

25 Reducers Placed to minimize piping cost

26 Spec Breaks

27 Control Valves

28 User-Defined Inlines

29 Spec Driven Simple Spreadsheet Table Interface

30 AutoRouter Manipulation Pipeline Freezing −Partial −Complete Placeable components Slideable Components Route Manual Route UnRoute Modify Slide Supports Router Menu

31 Manipulate Segments or Elbows

32 Pipeline Point Manipulator

33 Frozen Line BeforeCompletely frozen Partially frozen or

34 Partial Freeze Freeze a single segment Freeze a selected range of points Freeze non-sequential segments

35 Placeable Components Drag, place, and/or rotate and the pipeline follows

36 Slideable Components

37 User Rules Equipment −Geometry »Physical representation »Obstacle space »Mass properties −Nozzle Placement −Vicinity Routing Inline Components −Geometry −Attributes Project Setup Variables −Spacing, routing planes, pipeway levels, reserved spaces, …

38 Geometry Rule – Example I (The PACKAGED_EQUIPMENT is composed of element BASEPLATE with geometry = box x-dimension = width y-dimension = length z-dimension = inches-or-mm( ) local-x-origin = width / -2.0 local-y-origin = length / -2.0

39 Geometry Rule – Example II element package geometry = box x-dimension = width - inches-or-mm( ) ; less 3 inches inset on both sides y-dimension = length - inches-or-mm( ) z-dimension = height - baseplate.z-dimension local-x-origin = package.x-dimension / -2.0 local-y-origin = package.y-dimension / -2.0 local-z-origin = baseplate.z-dimension

40 And on to…

41 Nozzle Rules – Example (For STORAGE_TANK nozzles WHEN nozzle.type is manway LOCATE nozzle with element = tank face = body distance = inches-or-mm( ) angle = away-from-pipeway...)

42 Vicinity Routing Rules - Example (From PACKAGED_EQUIPMENT GO nozzle-direction (10 * pipeline.diameter) AND GO up (inches-or-mm( )) )

43 User Defined Inline Dialogs

44 Router Settings Many “rules” are settings in PlantWise −Routing Plane Offset −Minimum Line Spacing −Allow Tees at Corners? −Pipeway Spacing Round-off −…

45 Model and Data Management Report Writer and Highlighting Interfaces Multi-model support −Compare −Fenced Export −Integration Proximity Checking

46 ReportWriter A Sample Cost Report using Sample Data Line ID Class Comm. Diameter Length (ft.) pipe cost ========== ====== ===== ======== ============ ============ NA18 CWS $ NA18 CWS $ NA18 CWR $ NA18 CWR $ AF01 PL $ NA18 N $ AF01 PV $ NA15 STM $ NA15 CON $ NA15 STM $ NA15 CON $ ============ ============ $

47 Fenced Reports

48 Highlight Set »Pipeline.diameter >= 6.0

49 Interfaces Pipe Route Export.dgn/.drv compatible viewers FrameWorks Plus (via PML) PDS (via APL) XMPlant

50 Model Compare

51 Model Fenced Export

52 Model Integration

53 Proximity Checking for Layout

54 PlantDrafter

55 P lant W ise A conceptual plant design tool with 3D Modeling and AutoRouting for rapid layout optimization Features −Easy 3D Modeling −Fast Quality Routing with Inline Placement −Model and Data Management −Push-button Reports and Drawings Integrated, Friendly, Intuitive… Effective


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