SP3DLabManual KP Rev7 Translated WATERMARK

Training for Key Person

SmartPlant 3D Operation Guide

JGC Corporation

22-Aug-2007 Rev.7

Copyright 2009 by JGC Indonesia, All Right Reserved

Index 1.

Grids Task ...........................................................................................................................3 1.1 1.2

2.

Structural Task .................................................................................................................10 2.1 2.2 2.3 2.4 2.5 2.6 2.7 2.8

3.

Snapshot Drawing.......................................................................................................48 Volume Drawing ........................................................................................................49 Isometric Drawing ......................................................................................................50 Create Report ..............................................................................................................51

Hanger & Support Task...................................................................................................52 7.1 7.2

2

Placing Cabletray and Cables Path.............................................................................42 Insert Cable via Cable Tray and Conduit ...................................................................45

Drawing & Report Task...................................................................................................48 6.1 6.2 6.3 6.4

7.

Basic Routing .............................................................................................................29 Routing To or From Existing Pipe Runs ....................................................................35 Inserting the Concentric Reducer on the Tank ...........................................................36 Place an eccentric reducer on the pump nozzle..........................................................37 Route between ............................................................................................................38 Routing To or From Straight Features........................................................................40 Placing Inline Components.........................................................................................41

Electrical Task ..................................................................................................................42 5.1 5.2

6.

Placing Equipment......................................................................................................22 Using Mate/Align Relationships ................................................................................25

Piping Task........................................................................................................................29 4.1 4.2 4.3 4.4 4.5 4.6 4.7

5.

Structural Modeling Basics ........................................................................................10 Placing Columns / Splits / Beams...............................................................................11 Placing Perimeter Beams............................................................................................14 Placing Intermediate Beams for the first floor frame .................................................15 Placing Intermediate Beams for the second floor frame ............................................17 Placing Vertical braces ...............................................................................................19 Placing Assembly Connections ..................................................................................20 Placing Slab in Unit 2:................................................................................................21

Equipment and Furnishings Task...................................................................................22 3.1 3.2

4.

Log-in Users .................................................................................................................3 Placing Grids / Coordinate Systems .............................................................................3

Piping Support .....................................................................................................52 Cable Tray Support ..............................................................................................55


1. 1.1

Grids Task Log-in Users

For the user name and password, and the domain that you use this time, refer to the following.

Login accounts for Windows. User Name: Password: Domain:

User Name User 1

1.2

######## ######## ntdm001

Plant Workspace

SQL Server Location

Note

SP3DTrain_Plant01

\\JC75114\SP3D

User for Trainee 1

User 2

SP3DTrain_Plant02

\\JC75114\SP3D

User for Trainee 2

User 3

SP3DTrain_Plant03

\\JC75114\SP3D

User for Trainee 3

User 4

SP3DTrain_Plant04

\\JC75114\SP3D

User for Trainee 4

User 5

SP3DTrain_Plant05

\\JC75114\SP3D

Trainer

SP3DTrain_Plant00

\\JC75114\SP3D

User for Trainee 5 User for SP3D Trainer

Placing Grids / Coordinate Systems

Objective After completing this lab, you will be able to: Place Grids and Coordinate Systems using the Grid Wizard Command and Ribbon bar.

Copyright 2009 by JGC Indonesia, All Right Reserved3

Part I: Unit 2 Coordinate System: 1. Go to File Menu -> Define Workspace.

2. Open the filter named 1.2Grids_Unit2 for your workspace. 3. Go to the Tasks Menu -> Grids environment. Make sure the Active Permission Group is set to Layout. 4. Select the Grid Wizard command. 5. Using Step 1 in the Grid Wizard command, create a new coordinate system based on the following information:

4


Name: Name: Bearing: Axis for Bearing: Bearing: Origin: Reference CS: East (X): North (Y): Up (Z):

Unit 2 CS

North (Y) N 0.00 deg E Global 30 ft 10 ft 0 ft.

Grid Wizard Dialog


6. Elevation Planes: Using Step 2 in the Grid Wizard command, create the Elevation Planes based on the following information: Step

Referenc e CS

Start Plane

Copies

Spacin g

1

Unit 2 CS

0 ft 0 in

0

Ignore

2

Unit 2 CS

2 ft 1 in

0

Ignore

3

Unit 2 CS

18 ft

0

Ignore

4

Unit 2 CS

30 ft

0

Ignore

Name Rule Imperial Positio n Imperial Positio n Imperial Positio n Imperial Positio n

End Plane

Nesting Level

0 ft 0 in

Primar y

Grade Elevation

2 ft 1 in

Primar y

Bottom of Baseplate

18 ft

Primar y

Top of Steel

30 ft

Primar y

Top of Steel

Type

In the Elevation Plane Locations setting, edit the Name and Type as follows:

Hint:

6

When you input N ft M in, key in N’ M” return (N’ M” return).


7. Grid X-Planes: Using Step 3 in the Grid Wizard command, create the Grid-X Planes based on the following information. Set the Name Rule to Imperial Position for All Grid Planes

Step

Referenc e CS

Start Plane

1

Unit 2 CS

0 ft 0 in

Copies

Spacing

Name Rule

2

20 ft 0 in

Imperial Positio n

End Plane

40 ft 0 in

Nesting Level Primary

Type E-W Grid Plane

In the Grid-X Plane Locations setting, edit the Name as follows:


8. Grid-Y Planes: Using Step 4 in the Grid Wizard command, create the Grid-Y Planes based on the following information: Step

Referenc e CS

Start Plane

Copies

Spacing

Name Rule

1

Unit 2 CS

0 ft 0 in

1

15 ft 0 in

Imperial Positio n

End Plane

15 ft 0 in

Nesting Level

Type

Primary

N-S Grid Plane

In the Grid-Y Plane Locations setting, edit the Name as follows: Set the NameRule to Imperial Position for All Grid Planes

8


9. In Grid Wizard command, Keep the default selection for “Radial Cylinder”, “Radial Plane” and “Associated Elevation Planes”, and Select the Finish Button. 10. Go to the main menu and select View -> Ruler option to open the ruler dialog box. Figure 6 11. Unselect all to turn off the rulers by press the key and click on Unit 2 CS.

Figure 6 12. Select the Unit 2 CS to open the edit coordinate system ribbon bar. 13. Change the Parent System from Unit2 => Coordinate System.

Your View should now resemble the following graphic.


2. 2.1

Structural Task Structural Modeling Basics

Objectives After completing this lab, you will be able to: Place linear members Place member systems with frame connection by rule Use Copy/Paste commands Place split Place assembly connections In this lab, you will build a simple steel-frame two-story building.

Note: Use the grid system to help you place the structural members. Though not absolutely necessary, grids help in the modeling process by providing SmartSketch intersection points at which structural members can be placed. You may also want to make a relationship with gridlines so that if a gridline is moved, everything associated with that gridline will also move.

10


2.2

Placing Columns / Splits / Beams

1. Go to File Menu -> Define Workspace. 2. Open the filter named 2.2Structure_Unit2 for your workspace. 3. Go to the Structure Task environment. Make sure the Active Permission Group is set to Structural. 4. Select the Place linear member system command. Use the views shown in figure 1 (next page) to place the appropriate support columns and beams. System displays the place linear member system smart step ribbon bar. 5. Use the ribbon bar and set the active member parameters as follows:

Connection: System: Type Category: Type: Section Name: Cardinal point: Angle:

By Rule Unit 2 -> Structure -> Columns. Column Column W14x53 5 0 deg

6. Place the first column end at the grid intersections Elevation 2’ 1”. 7. Place the second column end at the grid intersections Elevation 30’ 0”. 8. Repeat the above steps to place the other support column. Toggle the start/end icons to set the discrete/contiguous placement method. 9. Select Place Split command. Split Status : By Rule 10. Select the 18’-0” Elevation Plane in the Workspace Explorer or the Ruler. 11. Select the members to split and click Finish. 12. Choose the Select command and change the Locate Filter to Split Connections. To see the connection highlighted, move your cursor over the splits. 13. Select Place Member command.

Copyright 2009 by JGC Indonesia, All Right Reserved 11

14. For Beams use the Ribbon bar to set active properties as Connection: System: Type Category: Type: Section Name: Cardinal point: Angle:

By Rule Unit 2 -> Structure -> Beams. Beam Beam W18x40 8 0 deg

The next step is to place the first two beams at elevation 18 ft and elevation 30 ft. Beams are placed by selecting and lock constraint on to the column and then locate point-on any grid line passing through that column. Beams can also be placed by selecting Frame connection of Supporting members. NOTE: System will not allow connecting a structural member along another member by split connection, user must select the intersection of its axis.

15. Place Beams at Elevation 18’ and 30’

Figure 1 – Elevation and Isometric View of the Structure Unit 2 System Use the Copy/Paste command to place the six members at East Plane locations 20’ 0” and 40’ 0”.

16. Set the locate filter to Member System 17. Select all the members.

18 18. Select Copy.

20

17

19. Select any point on the screen. 20. Select Paste

12


21. In options Select Paste in place. 22. Follow the steps below.

A-3 A-2

A-1 (1) Click on the description of each item in dialog box from the top and when A-1 becomes yellow, select A-2 grid line. (2) Continue clicking until B-1 becomes yellow, then select B-2grid line. (3) Click Paste command again and repeat same steps (1) and (2) for East Plane location 40’0” B-1

B-3

B-2

East Plane locations 20’0” East Plane locations 40’0”

Figure 2


2.3

Placing Perimeter Beams

The next step is to place the perimeter beams on both first floor frame and second floor frame at elevation 18 ft and elevation 30 ft respectively. Beams are placed by selecting and lock constraint on to the column and then locate point-on any grid line passing through that column.

1. Select the place linear member command to place beams as shown in figure 3-1. Use the following properties for perimeter beams:

Connection: System: Type Category: Type: Section Name: Cardinal point: Angle:

By Rule Unit 2 -> Structure -> Beams. Beam Beam W18x40 8 0 deg

Move cursor over the beams to get the middle point of beam as shown in the figure 3-2

Figure-3-1

Figure 3-2

14


2.4

Placing Intermediate Beams for the first floor frame

1. Select the place framing member command. Use the view shown in Figure 5 to place the structural members. Push the icon till horizontal menu appears

2. Use the Place Framing Member ribbon bar to set the active member parameters as follows:

Fit Mode: Count: Connection: System: Type Category: Type: Section Name: Cardinal point: Offset:

Hint:

(1) (2) (3) (4)

By Count 3 By Rule Unit 2 -> Structure -> Horizontal Braces Beam Beam C10x15.3 8 0 ft 0 in

Press Tab or Enter key to accept manually inputted data at the ribbon bar.

Click Beam 1 & 2, then click finish Click Beam 3, then click finish Click Beam 4, then click finish Click Beam 5, then click finish

4

5

3 2

1


Figure 5 –Isometric View of the Structure Unit 2 System

16


2.5

Placing Intermediate Beams for the second floor frame

1. To place the intermediate beams for the second floor frame at elevation 30 ft, Use the Copy/Paste command to place all the intermediate members for the first floor frame at elevation 30 ft. See Figure 6. Make sure to select the appropriate objects to re-establish the connection in the Paste Special Dialog box. Hint: Set the select filter to Member System to select 14 members Only 7 related object need to re-establish the connections Use the Paste command once again.



Your View should now resemble the following graphic.

18


2.6

Placing Vertical braces

1. Select the Place Bracing command. 2. Use the Place Bracing ribbon bar to set the active member parameters as follow:

Bracing Type: Connection: System: Type Category: Type: Section Name: Cardinal point Angle:

Chevron By Rule Unit 2 -> Structure -> Vertical Braces. Braces Vertical Braces L4x4x1/4 5 0 deg

3. Select the first column (as in figure 7) 4. Select the second column. 5. Select the Beam 6. Select Finish. 7. Place all vertical braces as shown in figure 7.



2.7

Placing Assembly Connections

1. Set the locate filter to Member system and use the select fence option to select all frame connections located in the building. 2. Select the Place Assembly connection command to open the ribbon bar. 3. Make sure the check box by rule is checked. 4. Place all assembly connections in System: Unit 2 -> Structure -> Ass. Connections

5. Select the Accept button to confirm the selection set. 6. Click the Finish button to commit the transaction. 7. Verify all assembly connections are properly created.

20


2.8

Placing Slab in Unit 2:

Make sure the Active Permission Group is set to Structure. 1. Select the Place Slab command. 2. Select the Elevation Plane at 18’ 0” and 30’ 0” for the support planes. 3. Select the Accept button to confirm the selection set. 4. Select the boundaries by clicking grids 1, 2, 3, and 4 as shown below to define the edges of the slab. 5. Use the place slab ribbon bar to set the active slab placement parameters.

Plane Method: System: Type: Composition: Face Position:

Coincident Unit 2 -> Structure -> Slabs 4” Elev. slab - Composite 4”_Slab, 1.5VL22 Bottom

1

4 2 3

6. Select the Accept button. 7. Click the Finish button to commit the transaction.


3. 3.1

Equipment and Furnishings Task Placing Equipment

Objectives After completing this lab, you will be able to: Place Standard Equipments from the Equipment Catalog Dialog box. Use the Mate positional relationship to mate to an Elevation Plane. Use the PinPoint Tool to place an equipment at a given coordinates.

1. Open the filter named 3.1Equipment_AminesUnit for your workspace. 2. Go to the Equipment and Furnishings Task environment. Make sure the Active Permission Group is set to Equipment. 3. Select Place Equipment command from the vertical toolbar to open the Select Equipment Dialog box. 4. Locate the Storage Tank part number Tank 001A_IMP-E using the tree view. Expand the Equipment Folder and the Tanks Folder until you see the part. Select the part and click the OK button.

22


5. In the Equipment Properties dialog box, fill the Name and Description. (Optional).

6.

Go to the Equipment ribbon bar and make sure the Amines Unit -> Equipment System is set in the System drop down list.

7. Using the PinPoint tool, place the origin of the Storage Tank at the following Easting and Northing coordinates:

1) Select PinPoint tool 2) Select reposition target and click (5)

(2)

(1)

3) Input easting and northing Easting: 5 ft relative to the Amines Unit coordinate system Northing: 8 ft relative to the Amines Unit coordinate system

(3) Copyright 2009 by JGC Indonesia, All Right Reserved 23

4)

Click (4) to constrain the Storage Tank with elevation plane at 0 ft.

(4)

(5)

8. Go to the Equipment ribbon bar, set the offset to 15’ 6” and key in 41V-101 in the Name field.

Hint:

24

Press Tab or Enter key to accept manually inputted data at the ribbon bar.


3.2

Using Mate/Align Relationships

Objectives After completing this lab, you will be able to: Place and constrain Standard Equipments using Mate/Align relationships. Use the PinPoint Tool to place equipments at a given coordinates.

1. Select Place Equipment command from the vertical toolbar to open the Select Equipment Dialog box. 2. Locate the centrifugal pump part number CPump002A8x6-E using the tree view. Expand the Equipment Folder and the Pumps Folder until you see the part. Select the part and click the OK button.


3. In the Equipment Properties dialog box, fill the Name and Description..(Optional)

4. Go to the Equipment ribbon bar and make sure the Amines Unit -> Equipment System is set in the System drop down list. 5. Using the Pinpoint tool, place the origin of the pump at the following Easting and Northing coordinates:

Easting: Northing:

26

30 ft relative to the Amines Unit coordinate system 5 ft relative to the Amines Unit coordinate system


To constrain the pump with elevation plane at 0 ft, move the cursor over the workspace explorer and select the elevation plane at 0 ft in the Amines Unit coordinate system.

6. Go to the Equipment ribbon bar, set the Offset to 2 ft and key in 41P-101A in the Name field.

7. Use the Common Views dialog box to set View 1 to have Plan orientation.

8. Place another centrifugal pump named 41P-101B to the North side of pump 41P-101A as shown below:


9. Create a mate constraint between the Pump 41P-101B and elevation plane at 0 ft with an offset of 2 ft in the Amines Unit coordinate system using the same previous steps.

10. Next create another constraint so that the pump bases have a distance of 3 ft between them.

11. Finally create another constraint aligning the front of the two pumps.

Hint:

28

To place the second pump, just change the northing value in the pin point ribbon bar to a higher value, e.g. 8. Then, select the B pump and create a new Mate relationship between the south face of the bottom of the B pump and the north face of the bottom of the A pump with a 3’ offset.


4. 4.1

Piping Task Basic Routing

Objective Route pipeline from an equipment nozzle using SmartSketch and Length Control tools


1. Open the filter named 4.1Piping_AminesUnit for your workspace. 2. Go to the Piping Task environment. Make sure the Active Permission Group is set to Piping. 3. Select Route Pipe command from the vertical toolbar and select the 40V-101x/NDNoz1 from which to start the pipe run.

4. The system opens the Create New Pipe Run Dialog box. Select & More in the Pipeline property field to open the Select System dialog box.

30


5. Navigate the system folder hierarchy and select 400-P pipeline system. Next, Fill the following properties: Specification: Nominal Diameter: Flow Direction:

1C0031 4 inch UpStream.

4 in UPSTREAM

If temperature and pressure are required, Change the Category to ”Temperature and Pressure”. Design Maximum Temperature = 400 K Design Maximum Pressure = 10 ksf

6. Click the OK button.


7. Go to the Pipe Route ribbon bar and key in 2 ft in the Length box. 8. Position the cursor above the nozzle until the system returns the SmartSketch axis aligned indicator. 9. Left mouse click to accept the endpoint.

10. Go to the Pipe Route ribbon bar and key in 1 ft in the Length box. 11. Position the cursor in the Easting direction until the system returns the SmartSketch axis aligned indicator. 12. Left mouse click to accept the endpoint.

13. Go to the Pipe Route ribbon bar and key in 37 ft in the Length box. 14. Position the cursor in the South direction until the system returns the SmartSketch axis aligned indicator. Left mouse click to accept the endpoint.

32


15. Go to the Pipe Route ribbon bar and key in 3 ft in the Length box. 16. Position the cursor in the Easting direction until the system returns the SmartSketch axis aligned indicator. Left mouse click to accept the endpoint.

17. Go to the Pipe Route ribbon bar and key in 3 ft in the Length box. 18. Position the cursor down until the system returns the SmartSketch axis aligned indicator. 19. Left mouse click to accept the endpoint.

20. Go to the Pipe Route ribbon bar and key in 17 ft in the Length box. 21. Position the cursor in the South direction until the system returns the SmartSketch axis aligned indicator. 22. Left mouse click to accept the endpoint.


23. Go to the Pipe Route ribbon bar and key in 4 ft in the Length box. 24. Position the cursor down until the system returns the SmartSketch axis aligned indicator. 25. Left mouse click to accept the endpoint.

26. Right mouse click to terminate the Pipe Route command.

34


4.2

Routing To or From Existing Pipe Runs

Objective Route pipeline from an equipment nozzle using SmartSketch Working Plane Control and Length Control tools


4.3

Inserting the Concentric Reducer on the Tank

1. Open the filter named 4.3Piping_AminesUnit for your workspace. 2. Go to the Piping Task environment. Make sure the Active Permission Group is set to Piping. 3. Start the Insert Component command at “41V-101 / STNoz2” for the Equipment Nozzle, complete the form. Don’t’ forget to select Temperature and Pressure in the Category to input the max or min temperature and pressure.

4. Click the OK button. If temperature and pressure are required, Change the Category to ”Temperature and Pressure”. Design Maximum Temperature = 400 K Design Maximum Pressure = 10 ksf

5. Select the short code Flange using NPD 8” to place the flange. Click Finish.

36


6. Select the Concentric Size Change and select from list box. Then select Nominal Diameter is 10”, and click Finish button to place the reducer.

7. Select the 90 Degree Direction Change, change the Angle to 90 deg then click Finish to place the elbow.

4.4

Place an eccentric reducer on the pump nozzle.

1. Start at the “41P-101A/Suction” pump nozzle using the Insert Component command. 2. Select the short code Flange. Click Finish. 3. Select the short code Eccentric Size Change, and select from list box. Then select Nominal Diameter is 10”, and click Finish. 4. Rotate to 180 degree angle so that the flat side is at the top. Click Finish. 5. Select 90 Deg Direction Change. Click Finish.


4.5

Route between

1. Select the Route Pipe command. 2.Lock the elevation direction by clicking the middle button (or click F12 button).

3.Select the Pipe End Feature of the elbow at the tank to get the elevation coordinate, and left mouse click to place the pipe. 4.Lock the Plane to North and lock the angle.

38


5. Move the cursor to the second pump nozzle to get the north coordinate and left mouse click to commit the second leg.

6. Change to Plan View and use the Length control and key in 4ft. to finish placing the second leg.

7. Unlock the length and lock the plane to East.

8. Move the cursor to the elbow located in the tank to get the next coordinate, left mouse click to place the next leg.

9. Lock the control plane to Plan plane and move the cursor to the elbow to complete the pipeline.


4.6

Routing To or From Straight Features

Objectives After completing this lab, you will be able to: Create branch line from existing pipe run using Working Plane Control and Angle Control.

1. Start routing at the “40P-101B / Suction” for the Pump Nozzle. Then using the Insert Component command and place the Flange + Eccentric Reducer + 90 deg elbow 2. Switch to route and branch the line into the header. 3. Use the middle mouse to lock to the header and use SmartSketch to make the line straight up.

40


4.7

Placing Inline Components

Objective Insert Flanged Gate Valves into the Pump suction lines 404-P.

1. Select the Insert Component command. 2. Select the pipe where the component will be inserted, refer to image above. 3. Select Gate Valve from the Type Ribbon bar. 4. Use PinPoint and set the distance to 5 ft. from the center of the pump nozzle. 5. Change the angle as necessary, referring to image above. 6. Click Finish button.


5. 5.1

Electrical Task Placing Cabletray and Cables Path

Objective Route the following cable trays using SmartSketch functionality and offset control tool

42


1. Open the filter named 5.1Electrical_Unit2 for your workspace. 2. Go to the Electrical Task environment. Make sure the Active Permission Group is set to Electrical. 3. Select Route Cableway command from the vertical toolbar. 4. Using Pinpoint Tool, place the starting point of electrical cabletray at the following coordinates Easting: 41 ft reference to the Unit 2 coordinate system Northing: 13 ft reference to the Unit 2 coordinate System Elevation: 15 ft reference to the Unit 2 coordinate system 5. Use the following data for the cable tray: System Name Spec Fill Efficiency

Unit 2 -> Electrical -> Control > Cabletrays Elec-300 CB-S1-L6-12B 85 %

Width Depth

2 ft 4 inches

6. Enable Offset control from the Ribbon bar and specify 3 ft. with Centerline option selected. 7. Change to Plan View and lock the Working Plane to Plan Plane.

8. Rest the mouse on the X-grid@20ft for a few seconds and wait for the stack mouse cursor indicator to appear.

9. Move a little to the right until the offset reference line equivalent to 3 ft appears, then left mouse click to accept the location.

Plan View of the Structure Unit 2


10. Continue routing upward, this time select the Looking North view and the East-West Working Plane.

11. Rest on the Elevation grid line at 30ft. and wait for the stack mouse cursor indicator to appear.

12. Move downwards till the offset reference line and offset mouse cursor indicator appears on the view. Left click to accept.

13. Continue routing using the same procedure as above and finish the cabletray run as shown on the figure below.

Elevation View at Column E-0’ 0” of the Structure Unit 2

44


5.2

Insert Cable via Cable Tray and Conduit

Objective Define a cable that goes between the electrical equipment “LP-001” and Pump “P-001”.

1. Open the filter named 5.2Electrical Cable for your workspace. 2. Go to the Electrical Task environment. Make sure the Active Permission Group is set to Electrical. 3. Select Insert Cable command from the vertical toolbar. 4. Use the following data for the cable Properties: Name Name Rule System Operating Voltage Signal Type

P-11-PM-001 User Defined TestArea -> Electrical -> Cables 12 V Power

Part Number

Cable -> Cables -> Power 12/20 kV (3 Conductor) -> 3 x 120mm2 – 12/20kV XLPE 90 ARM Cu

Originating Device Terminating Device

TestArea -> LP-001 TestArea -> P-001

5. Click the OK button.


6. Select the Set Entry Point Command from Toolbar.

7. Select the Cableway End Feature of Electrical cable tray. After selecting the cable tray, the ribbon bar will automatically go to the next step which is the Select Cableway(s).

8. Select the Vertical Conduit Pipe for the cable to route.

9. Click the Accept button. After the Accept button is selected, the ribbon bar will automatically proceed to the Set Exit Point step.

46


10. Select the Conduit End Feature as the Exit Point.

11. Click the Finish button.


6.

Drawing & Report Task

6.1

Snapshot Drawing

1. Open the filter named 6.1Drawing for Snapshot for your workspace. 2.Go to the Drawing & Report Task environment. 3.Open Hands-on Training -> Drawing -> Snapshot DWG 4.Click right button on Drawing Number1 and select Update.

5.After processing, the drawing icon changes to 6.Double click the drawing to open the file.

48


6.2

Volume Drawing

1. Go to the Common Task environment. 2. Open the filter named 6.2Drawing for Volume for your workspace. 3.Go to the Drawing & Report Task environment. 4. Open Hands-on Training -> Drawing -> Volume DWG 5. Click right button on Unit2 Piping Plan and select Update 6. After processing, double click the drawing to open the file.


6.3

Isometric Drawing

1. Go to the Common Task environment. 2. Open the filter named 6.3Drawing for ISOMETRIC for your workspace. 3.Go to the Drawing & Report Task environment. 4.Open Hands-on Training -> ISOME -> ISO Query -> Iso Pipeline

5.Click right button on 404-P and select Update Document(s)

50


6.4

Create Report

1. Go to the Drawing & Report Task environment. 2. Click right button on Hands-on Training -> Report and select New 3.

4. Select Spread Sheet Reports and press OK. 5. Click right button and select Rename then, change name to Weld Report

6. Click right button and select Create Report then, select Piping Fittings and Welds Sorted by NPD and press OK

7. After processing, double click the drawing to open the excel file


7.

Hanger & Support Task

7.1

Placing Piping Support

1. File -> Define Workspace then open 7.1Amines_Support Work Space 2. Select Hanger & Support Task 3. Since there is interference between middle of structure and piping, so the grid of structure at Elevation 15ft is to be changed.

Select grid/object from Work Space Explorer, right button click to open property and change Elevation to 20 feet. Click OK.

52


4. Click Place Support by Structure command from tool bar.

5. Set system to Amines Unit -> Hangers 6. Set check for Rule and uncheck Design check box.

7. Select pipe where support will be placed and click Accept 8. Select Structure Beam for the support and wait for the default support by rule to appear

9. Select L Shaped Frame C3x6 w/o Base plate from the type list box.

10. Click Finish 11. Next, open support property by right button click.


12. Change Shoe Height to

inch and press OK

13. Click Place Support by Structure from the tool bar 14. Select pipe where pipe shoe will be placed and click Accept

15. Select Shoe w/Medium Clamps - WT4x6.5L = 10 from the type list box.

16. Click Finish.

54


7.2

Placing Cable Tray Support

1. File -> Define Workspace then open 7.2Unit2_SupportWork Space 2.Click Place Support by Structure from the tool bar 3.Set uncheck on both Rule and Design check box. 4.Select tray where support will be place and click Accept.

5.Set System to Unit2 -> TraySupport. 6.Select CT_HoldDownClamp from type list box.

7.Click Finish.


SP3DLabManual KP Rev7 Translated WATERMARK

Recommend Documents