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Tutorial 8 Adding Equipment After creating the structural model, you can add process equipment. The Plant 3D Classes section shows the 3D equipment mapped to the selected symbol. You notice the properties of the pump. On this dialog, you can control the symbols to which the 3D equipment is mapped. Close the Project Setup dialog. Now, you need to place the pumps on the lower platform.
Select the UCS and click on its origin point. Press Enter to create a new User Coordinate System. Change the structural representation to Symbol Model. On the Layers Properties Manager, create a new layer with the name Equipment and change its color to Index color Set the Equipment layer as current, and then close the Layers Properties Manager. The Equipment tab on the dialog has the general information and dimensions of the pump.
Click in the Tag box and the Assign Tag dialog appears. On the Assign Tag dialog, click in the Number box and select the button next to it. The number is entered in the box. Leave the default dimensions and click the Properties tab. Click Create on the dialog.
Click between A and B, and rotate the pump by 90 degrees, as shown. Select the pump. Click on the midpoint of the horizontal structural member. Move the pointer downward and click to create the mirror line. Click No in the command line. Select the mirrored pump to open the Assign Tag dialog. On the Assign Tag dialog, click in the Number box, and then click the button next to it.
The number is entered in it. Click Assign to assign a tag. Activate the Create Equipment command. Click the Equipment tab and select Torispheric Head under the Shapes section. The D box defines the diameter of the Torispheric head. Click in the Tag box under the General section. The program assigns the tag TK to the vessel.
Click in the space between 3 and 2 grid points. Rotate the vessel by 90 degrees and click. However, sometimes you may want to create equipment, which is not available in the library. In that case, you can use pre-defined shapes such as a rectangle, cylinder, elliptical head, and pyramid and so on to create a new equipment type. Change the view to SW Isometric. Select the UCS located on the second platform.
Click on the origin of the UCS and move the pointer up. The UCS is moved to the top platform. Change the view orientation to Top. The Shapes list appears empty. If not, select the existing shapes and click the Remove button. Click the Add button and select Torispheric Head. Likewise, add other shapes using the Add button. Under Shapes, click Torispheric Head. This defines the diameter of the Torispheric head.
Under Shapes, click the Cylinder located at number 2 position. Likewise, change the dimensions of other shapes. The dimensions of all the shapes are given below. The program assigns the tag E to the heat exchanger. Click Create on the dialog and position the heat exchanger at the location shown. Type-in 0 as the rotation angle and press Enter. The program changes the view style to 2D Wireframe.
Define the first corner of the box, as shown. Click Length in the command line. Press Enter to create a box. Select the box and click the right mouse button. Select Copy Selection. Activate the Object Snap icon on the status bar and select the corner point of the box. Press Enter to create a copy of the box. Using the Attach Equipment command 1. Select the Heat Exchanger. Select the two boxes below the heat exchanger and press Enter. The Attach Equipment command attaches the boxes to the heat exchanger.
To confirm this, select the heat exchanger, and you notice that the boxes are also selected. If you want to detach the objects attached to the equipment, activate the Detach www.
Nozzles are used to create pipe connections. However, when you create new equipment using predefined shapes, the nozzles are not added to them. You need to add nozzles manually to the equipment. Click on the heat exchanger and the nozzle symbol appears. It is called the Add Nozzle tool. Click on the Add Nozzle tool. The Add Nozzle dialog appears. On the Add Nozzle dialog, click the Change Type tab. On the Change Type tab, the top section is used to add nozzle tag.
You can type-in the type and number values. The data is stored in the project database. Type-in 13 in the Number box and click Close. Select the Straight Nozzle type.
Select the RF nozzle from the list. Click Close and you notice that the nozzle is added to the Heat exchanger. Likewise, add other nozzles to the heat exchanger. On the dialog, click the Templates button and select Save current settings as template. Type-in Heat Exchanger in the File name box, and then click Save.
Click OK to close the Create Equipment dialog. Using the Convert Equipment command In addition to creating equipment using predefined shapes, you can create 3D models using the AutoCAD commands and convert them into equipment. For example, there is a cooler model, as shown. Select the 3D model and press Enter.
On the Convert to Equipment dialog, select the equipment type. For this example, just select the Misc equipment type. Click Select, and then select a point on the 3D model to define the insertion point. On the Modify Equipment dialog, enter values in the Equipment and Properties tabs. You can use the Templates button if you want to save this equipment for further use. Click OK to close the dialog. To add nozzles to the equipment, click on it and select the Add Nozzle tool.
Select a point on the equipment to define the center of the nozzle. Move the pointer and click to define the direction of the nozzle.
On the Add Nozzle dialog, select the nozzle type and size. Click Close. Modifying Nozzles The nozzles that are added to the equipment may not be of the required size. However, you can modify the nozzles to change the size and location. Zoom to the lower portion of the vessel.
Click the Edit Nozzle tool pencil symbol. On the Modify Nozzle dialog, click the Tag button to expand the top section. Type-in 4 in the Number box. Click Close to hide the top portion. Click Close on the dialog. The nozzle tags should be N-1 and N Change the nozzle tags of the pumps using the Modify Nozzle dialog.
In this tutorial, you learn to create piping using those tools and techniques. The information related to the piping components is stored in specifications file. On the Spec Viewer palette, select the desired spec from the Spec drop-down. You can view the piping components available in the selected specs under the Spec Sheet section. There are different categories of components such as blind flange, bolt set, cap, tees, and valves and so on. Each category has different types of components.
These valve types are available in different size ranges. These parts sizes are based on the industry standards. You can select a part size and insert into the model. There are three buttons available on the Spec Viewer. Select the CS The program opens the CS spec file, which is used in this book. The Spec Editor appears similar to the Spec Viewer. It contains all the piping components available in the selected Spec file.
In the Spec file, there are many piping components available of same type and sizes. For example, there are two types of Bolt sets under the BoltSet category. In this case, the program shows an error about which part to be used www.
You need to define the Part Use Priority to solve this error. Click the Up arrow button to move the gate valve to top. Check the Mark resolved option.
Save the Spec file, and then close the Spec Editor. Change the layer color to Index color 8. Set the Piping layer as current. On the status bar, click the down arrow next to the Object Snap icon and make sure that only the Node option is selected. Click the Place button.
Select the discharge nozzle of the left pump. Move the pointer up. Click Plane in the command line to change the plane in which the pipe is created.
Select the node of the nozzle attached to the vessel. Click Next in the command line until the solution shown in the figure is displayed. Click Accept in the command line to accept the solution. Place the pointer on the pipe to view the tag information of the pipe. On the Status bar, click the down arrow next to the Object Snap icon and select the Nearest option. Click Place and move the pointer on the horizontal pipe. The check valve is aligned to the pipe. Select the endpoint of the pipe to place a check valve.
Press Enter to use the default rotation angle. This tool is available in the Line Number Selector drop-down. On this drop-down, the Show all line numbers option displays all the available line numbers in the project. The Route Pipe tool creates a new pipe without assigning any tag to it. The Line to Pipe tool converts a line or polyline into a pipe. Change the view to NE Isometric.
Select from the Line Number Selector drop-down. Select CS from the Spec Selector drop-down to define the pipe spec. Click Plane in the command line until the pipe is orientation along the Y-axis. Click Next in the command line until the solution appears, as shown. Click Accept to create the pipes. A pipe connection is created between the selected nozzles.
Click on the left pump to highlight it. Click Accept in the command line. Place the pointer on the pipe connection between the two pumps. You notice that the tag information is not assigned to the pipe. Right click and select Properties. On the Properties palette, scroll down to the Tag section. Using the Line to Pipe command to create Pipes 1. On the status bar, activate the Ortho Mode icon.
Move the pointer up and click to create a vertical line. Likewise, create horizontal and vertical lines, as shown. On the Part Insertion panel, click the Line to Pipe icon. Click on the 3D polyline and press Enter. The line is converted to pipe. Knowing about the Compass You may have noticed a red circle with tick marks while routing a pipe. It is called Compass and can be used to rotate the pipes. The settings related to Compass are available on the Compass panel of the ribbon.
You can type-in a value in the Tick Mark Increments box to define the angle between the tick marks. The Toggle Snaps icon forces the pipe to rotate at the angular increments defined in the Snap Increments box. The Toggle Tolerance icon enables the pipe to deflect slightly from the elbow angle. Activate this button and type-in a tolerance angle in the Tolerance Snap Increment box. The pipe is allowed to deflect within the specified tolerance angle. On the expanded Compass panel, there are options to change compass color and diameter.
Zoom to the heat exchanger and select the pipe created by converting the 3D polyline. Click on the Move Part grip located at the middle of the horizontal pipe. Move the pipe downward and click to change the height. Select the vertical portion of the pipe connection, and then click on the Move part grip located at its end.
Move the pointer upward and click to reduce the length of the pipe. You can also type- in a value to define the change in length. Change the view orientation to Back. Again, select the vertical portion of the pipe connection. Now, continue routing the pipe, as shown.
Again, select the vertical portion of the pipe and click the Move Part grip located at the middle. Move the pointer and select the midpoint of the horizontal pipe. The length of the horizontal pipe is changed. This type of joint is useful if there are no fittings available for the selected pipe size.
Click STub-in in the command line. Move the pointer upward and click to create a stub-in joint. Press Esc to deactivate the active command.
Select the stub-in pipe and press Delete. The program deletes the stub-in joint. A T-joint is created at the center. Creating Elbows and Pipe Bends 1. On the status bar, deactivate the Ortho Mode icon.
Rotate the pointer, and you notice the pipe rotates only at angle intervals 45, and The program activates the cutback elbow mode. The cutback elbow mode is used to create elbows at non-standard angles. Rotate the pointer, and you notice that the pipe is rotated freely.
Press Tab key and type-in 68 in the angle box attached to the pipe. Press Enter to create an elbow. In addition, the cutback elbows mode is deactivated. Rotate the pipe up to degree angle and click to create a bend. Click the Toggle Slope icon. Create piping, as shown. Change the view orientation to Front. You notice the sloped pipe. You can also change the slope, but it may result in disconnected pipes.
Click the right mouse button on the sloped pipe and select Pipe Slope Editing. Type-in 20 in the Slope degrees box and click OK. The Slope Angle Exceeded message box appears. Click Yes to change the slope angle. This results in a broken connection.
Deactivate the Toggle Slope icon on the Slope panel. Click routingOffset in the command line. Click OffsetDistance in the command line. Select the grid points, as shown. You notice that the pipe is created at the specified offset distance from the select points. Move the pointer up and click. You notice that the pipe is created at a horizontal offset as well. Zoom to a pipes open end to notice the drop symbol, which indicates that the pipe is open.
Click the right mouse button on the pipe connected to the heat exchanger, and then select Properties. However, you can add weld when you want to break the pipe. To add welds, follow the steps given next. Click the right mouse button on the pipe connecting the heat exchanger and vessel, and then select Add Weld to Pipe. Move the pointer and click to define the location of the weld or type-in the distance value to locate the weld. Tutorial 10 Adding Inline assets Before adding inline assets, create a pipe connection between the right pump and vessel.
On the status bar, activate the Midpoint option from the Object Snap menu. Click on the right pump to highlight it. Move the pointer and select the midpoint of the elbow originating from the vessel. Click Next in the command line until the following solution is displayed. Click Accept to create the pipe connection. After creating piping, you can add inline assets such as valves and fittings. There are three methods to add inline assets to the piping.
Move the pointer on the horizontal pipe connected to the right pump. You notice www. Select the endpoint of the pipe. The valve is positioned at the selected point, and the compass appears. The valve rotates as you rotate the pointer. Press Enter to position the valve at the default angle. Click the right mouse button on the globe valve and select Properties. On the Properties palette, scroll down to the Tag section and click in the Tag box.
Click the icon next to the Tag box. Click the globe valve to highlight it. You notice many grips displayed on the valve. Click on the circular grip and rotate the valve. Type-in a new rotation value and press Enter.
Again, select the globe valve and click on the vertical arrow grip. The grip flips the side of the valve. Click on the square grip of the valve, and then move the pointer. The valve moves along the pipe. Click to define the new position of the valve or type-in the distance value to define the location. You can also place the valve on another pipe using the square grip. Click on the check valve to highlight it. Click on the horizontal arrow grip to flip the direction of the valve.
Click on the Substitute Part grip to open a menu. You can select the replacement part from this menu. You can also change the valve operator. On the Properties palette, scroll down to the Valve Operator section and click in the Operator box. Click the icon next to the Operator box.
On the Override Valve Operator dialog, scroll right to see different operators. Select the T-Crank operator and you notice the preview image along with dimensions. Type-in values in the Dimensions table and click OK. The operator of the globe valve is changed. Change the view orientation to NE Isometric. Click on the vessel to highlight it.
Click pipeFitting in the command line. The Pipe Fittings dialog appears. On this dialog, you can select the type of fitting. On the dialog, click the Flanges button. If you want a flange of different and size, then click Change at the top of the dialog. The additional options appear to change the size, spec, and end type.
Select the blind flange from the Available Piping Components section and click Place. The blind flange is attached to the pipe end. Move the pointer and click to create a pipe with a blind flange. Press Enter to rotate the flange at default angle. Select the pipe and blind flange, and then press Delete. You can also create your 3D blocks and add them to the Plant 3D model.
Click Plant 3D Shape tab under the Graphics section. Click Advanced shape options to view the additional options at the left side of the dialog. Only the valves appear in the browser.
Click the Inline Shapes button. The inline valve shapes are displayed on the dialog. Click the down arrow in the search bar and select Beveled BV. The dialog filters the shapes based on the selected end type.
Add the valve to the pipe connecting the heat exchanger. Press Esc twice. Click the right mouse button on the valve and select Properties. The features of the valve appear in the Properties palette. You can change the dimensions of the valve, tag information, and other features. Select the custom valve and press Delete. Tutorial 11 Adding Pipe Supports After creating pipes, you can add pipe supports to them.
The pipe supports are displayed in the isometric drawing. Click the down arrow in the search bar and select Clamped Supports. Select Clamped Stanchion and click OK. Move the pointer on the pipe, as shown. The pipe support aligns to the pipe.
Type-in a value or click at point to define the location of the support. Click on the pipe support to highlight it. Click on the down arrow grip located at the bottom of the pipe support. Move the pointer down and click on the structural member located at the bottom. The program changes the elevation of the pipe support.
Save the file. You can validate a single or multiple drawings in a project. Before validating a drawing, you need to set the type of errors to be check during validation. These errors include non-terminating lines, orphaned annotations, spec mismatches and more. The Spec mismatches option checks for schematic lines that are connected to each other but are of different spec.
The Non-terminating lines option checks for schematic lines that are not properly connected to the equipment or any component. The Unconnected components option checks for equipments or components, which are not connected to any schematic lines. The Flow direction conflicts option checks for any two schematic lines which have opposite flow directions. The Orphaned annotations option checks for tags that are placed far away from the components. The Unresolved off-page connectors option checks for off-page connectors that are not connected to any other off-page connectors.
Expand 3D Piping and you notice the Disconnected port, Placeholder part and Property mismatch options. The Disconnected port option checks for pipes in 3D Piping model which are not properly connected to a component. The Placeholder part option checks for parts, which are placed in a 3D Piping model, which are not available in the selected spec.
The Property mismatch option checks for pipe segments that are connected but have different properties. Uncheck all the options under 3D Piping. The base AutoCAD objects such as lines, polylines, circles, blocks, annotations, do not have any project data attached to them.
The www. You can go through the other error types as they are self-explanatory. After completing the validation, the Validation Summary appears. The orphaned annotation is highlighted in the drawing. The Details section on the Validation Summary palette shows the error type and the action to be taken.
It also shows the actual and allowed distance between the component and tag. The program ignores the selected error. Check the Do not display errors marked at ignored option to hide the ignored errors. Close the Validation Summary palette. Validating the 3D model 1.
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Learn more. The Plant 3D toolset is delivered with standard symbol libraries in the tool palettes. Quickly create 3D plant models using parametric equipment modeling, structural steel libraries, and project-specific piping specifications using industry standard piping catalogs. Customize piping specifications to meet project-specific requirements. Include industry-standard components as well as customized components. Extract piping orthographic drawings directly from the 3D model and update them as the 3D model is being updated.
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