PDMS Training

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Plant Design Management System

Training

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CONTENTS

Introduction to PDMS ... 3

ADMIN ...18

Equipment Application...33

Piping Application ...43

Structural Application ...56

Cable Trays ...75

HVAC Designer...80

Isodraft... 130

Draft ... 138

APPENDIX A... 158

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PDMS TRAINING

ANEWA

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Introduction

PDMS is part of AVEVA’s VANTAGE suite of Plant Design products.

What does PDMS offer?

1. Full size, 3-D modeling system

2. Design based on specification driven catalogues 3. Concurrent user accesses within a single project. 4. Multi-discipline environment

5. On-line 3D Clash detection 6. Design consistency check 7. Automated Isometrics 8. Report generation

9. Drawing extraction & management 10. DXF and IGES drawing exchange 11. Programmable Macro Language 12. User Definable attributes

13. Interfaces to third party software

Modules of PDMS

PDMS is split into a number of modules which are used at different stages in the plant design process.

ADMIN : Used by Project coordinator or administrator to control / monitor a Project in terms of areas, teams, users, modules and database.

DESIGN : 3-D modeling module using which structures, Equipment, Pipe work, Cable trays, HVAC components, can be modeled. It also has a Pipe spooling applications and Hangers & Supports Application.

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ISODRAFT : Used to produce automated Isometrics with Bill of Materials.

LEXICON : To define User Defined Attributes.

MONITOR : This is an entry-level module, which monitors the entire project, gives proper notification to users about their access rights as defined by the administrator. As soon as a user logs into PDMS, he enters MONITOR module. This module controls the entry and exit of users from PDMS.

PARAGON : Used to create or modify Catalogues and Specifications for piping elements, structural elements, nozzles and hangers & supports. Provides an user interface for creation of specifications also.

PROPCON : Used to create or modify Properties DB, wherein the properties used for stress analysis / any other engineering application can be stored. These properties can be linked to the design elements using specifications.

SPECON : Used to create specifications, but does not provide an user interface.

SPOOLER : This is the Pipe work Spooling module, it allow splitting the pipe work design into logical sections (Spools) ready for fabrication.

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The PDMS databases

The overall purpose of PDMS is the controlled creation of a complete three– dimensional process plant design model using computer–simulation techniques. All information which exists about a PDMS design project, whether administrative or technical, is stored in a series of hierarchical databases. Use of the various PDMS modules allows you to create, modify and extract information from these databases.

The Database Types The Project

A PDMS Project consists of the complete collection of information which relates to a single design project. This is identified by a three‐character name, allocated by the Project Administrator when the project is first initiated. This name is used to identify the project to the system whenever you wish to work in the project using PDMS. This allows access rights and use of system resources to be monitored and controlled

There are 10 different types of database which can go to make up a complete Project:

Design and Drawing Databases:

DESIGN database : It contains all information regarding the 3-D model being developed. This DB will have references to all other DB’s to access information.

PADD database : Stands for Production of Annotated and Dimensioned

Drawings

ISOD database : It contains all information of spool drawings produced by SPOOLER. It Supports Iso-draft Module.

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Reference Database:

Administration Databases:

Each PDMS module requires access to one or more specific database types, and entry to the module may be prevented if appropriate databases do not exist or if you don’t have the appropriate access rights. New databases can only be created by the Project Administrator.

CATALOGUE database : _{• Dimensional} standards for nozzles, piping components and structural profiles/fitting etc.,

• Details of connection types • Bolting Data

• Specifications.

DICTIONARY database : _{• It contains Definitions for User Defined Attributes}

PROPERTIES database : 1 It contains all Material property data normally used for stress analysis

SYSTEM database : _{• It contains all Information about modules, databases,} users, teams etc.

COMMS database : _{• It contains all information on current users - for the} STATUS and SYSTAT commands

MISC database : 2 It contains all data for user messages and inter-db macros

TRANSACTION database : 3 To enable the System Administrator to monitor the progress of Global commands, transaction messages are generated in the database each time the progress of the command changes.

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The relationships between databases

In order that each user can see the required design components modeled by other users and refer to the common catalogue, property and user defined attribute data, the Design and Reference databases are grouped together into a Multiple Database.

Multiple databases (MDBs)

When a PDMS project is set up by the Project Administrator, groups of databases are defined for particular purposes. For example, the members of any design team will need access to those databases containing the parts of the design data for which that team is responsible plus some of the Catalogue and Drawing databases. Such a group of databases is known as a Multiple Database or MDB. There would usually be several MDBs for a project, each defining specific groups of databases, for users with different tasks to perform.

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Design Database Hierarchy

The database is hierarchical, a tree like structure, as illustrated below.

The PDMS Design Database Hierarchy

In this hierarchical structure all the database elements are owned by other elements, with the exception of the WORLD. Elements that are owned by another element, e.g. a ZONE is owned by a SITE, are said to be members of the owning element, e.g. The ZONE is a member of the SITE.

Doc No: 9100-02-22-110-A4-Rev0 Page 10 of 165 Now, let us use the computer,

Assuming PDMS has been correctly installed on your workstation, start PDMS by selecting (for example) Start>Programs>AVEVA>VANTAGE PDMS

11.6>Run PDMS; two command windows and a ‘splash screen’ will appear

briefly. The VANTAGE PDMS Login form that appears requires you to specify a number of details at the outset of your session.

Project is the project you will be working on (for example, SAM). Type in, or select from the pull‐down list, pressing Enter in each case.

Username will have been allocated to you by your Administrator. Type in, or select from the pull‐down list, pressing Enter in each case.

Password will have been allocated to you by your Administrator; type in.

MDB is the multiple databases within the given Project that you wish to use. Type in, or select from the pull‐down list, pressing Enter in each case. Make sure that you leave the Read Only box unchecked if you wish to modify the database as you work.

Doc No: 9100-02-22-110-A4-Rev0 Page 11 of 165 Module is the PDMS module that you wish to use. Type in, or select from the pull‐down list, pressing Enter in each case.

Use Load from to specify which setup files to load at startup. You can choose either the application default settings (Load from Macro Files) or a customized setup saved during an earlier session (Load from Binary Files).

Click on the button to enter the PDMS module that you wish to use. When PDMS has loaded, your screen looks like this:

As labeled above, the display comprises the following:

Title Bar

This shows the current PDMS module, and its sub-application if applicable. Main Menu Bar

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Main Tool Bar

This has a number of icon buttons and drop-down lists that offer shortcuts to a selection common PDMS operations and standard settings.

Design Explorer This shows your current position in the PDMS database

hierarchy. To move to a different point in the database, you click on the appropriate item in the list.

Members List

As with the Design Explorer, the Members List displays the database elements in the current MDB.

There are a number of ways to navigate from one item to another. The and arrows at the top of the Members List allow navigation up and down the list at the level of the current element. For example, if positioned at an EQUI element, selecting would move to the next EQUI element in the list. Selecting would move back to the previous EQUI element.

The Goto menu at the top of the form can also be used. First select this menu, then select the Owner option, this will navigate to the owner of the CE.

Choosing the Goto>Reference option will give a list of further options depending on the Current Element. Goto>Reference at EQUI level will only navigate to its

Doc No: 9100-02-22-110-A4-Rev0 Page 13 of 165 owner, i.e. a ZONE. If the current element were a nozzle (NOZZ) then

Goto>Reference would allow navigation inside the catalogue database via the NOZZ’s Catref attribute.

Command Window

PDMS commands can be typed in when using PDMS via the Display>Command LineI menu selection, which gives the Command Window:

To give a command, click in the Command> text entry box, type in the command, and press Enter. The scrollable list shows the command(s) entered and any resulting output from PDMS (including error messages).

Command editing aids are available:

• Clicking on a line in the scrollable list area copies that line to the Command >

box.

• Command syntax in the Command> box can be edited using the Delete and Backspace keys in the normal way.

• Highlighting some or all of the text in the Command> box and pressing the right mouse button gives useful Windows editing commands (Cut, Copy, Paste, Delete, Undo).

3D Graphical View This is the window in which you display the design model

graphically as you build it. A pop-up menu (which you access with the right-hand mouse button) enables you to control how the model is represented. This window also has its own tool bar.

Doc No: 9100-02-22-110-A4-Rev0 Page 14 of 165 You can reposition or minimize these windows at any time using standard window management facilities.

Draw list

To view the Draw List, select the option Display>Draw List from the main menu bar. You specify which elements of your design you wish to display, by adding them to or removing them from the draw list.

The sample database associated with this exercise represents the whole of a simple building.

Select Display>Draw List from the main menu bar. You should see the Draw List come up in a separate floating window. If you wish, you can dock this window. Make sure that in the Design Explorer you have expanded any element to display the Graphics below it.

Pick the Selected element from the design element hierarchy, right-click the mouse and select 3D View>Add. This adds selected elements to the Draw List as well as to Graphical View window

Alternatively, you can click the right or left mouse-button and drag-and-drop the element into the 3D View.

Doc No: 9100-02-22-110-A4-Rev0 Page 15 of 165 On the Draw List, click on the HVACFLOOR element. You can now use the controls in the Draw List to set the color from the popup palette. Make the floor Black. (See the online help for the Design Explorer for details of how to do this). Now pick the HVACWALLS Structure from the design element hierarchy and add it to the draw list in the same way. Set the color of the walls to aquamarine.

Use the same method to add:

• HVACCOLS (columns) in green • HVACBEAMS in blue.

Do not add HVACROOF at this stage. Your building now looks like this:

Observe the effect of selecting different view directions from the Look and Isometric menu options provided by the 3D View shortcut menu. Revert to ISO>3 when you have finished.

Manipulating the displayed view

You can manipulate the displayed model view in a number of ways. The three view manipulation modes are:

• Rotate the view

• Pan the view across the display area

Doc No: 9100-02-22-110-A4-Rev0 Page 16 of 165 The current manipulation mode is shown in the status line at the bottom of the 3D

View window, and is currently set to Rotate, as shown in the previous illustration.

To change the view manipulation mode, look at the Middle Button Drag options on the 3D View shortcut menu. By pressing and holding down the middle mouse button with the pointer within the 3D View, the view can manipulated in the selected way simply by moving the mouse. The options of interest are Zoom

Rectangle, Zoom In/Out, Pan and Rotate.

Alternatively, you can change the manipulation mode by pressing one of the function keys, or by using the View Manipulation tool bar buttons, thus:

F2 or selects Zoom mode F3 or selects Pan Mode F5 or selects Rotate mode

(Try these selection options and observe the effect on the Middle Button Drag shortcut menu; a tick appears against the selected option).

You can also choose the view manipulation mode from the options on the

View>Middle Button>Drag menu.

Perform the operations while holding down the Ctrl key. Note that the

Word Fast appears in the status line and that the rate of action is increased.

Perform the operations while holding down first the Control key (to increase the action speed) and then the Shift key (to decrease the action speed).

In the 3D View tool bar, click on the Limits CE button, this adjusts the scale of the view automatically such that it corresponds to a volume the right size to hold the chosen element(s);

To set an isometric view direction, position the cursor in the 3D View window and hold down the right-hand mouse button to display the pop-up menu. Select

Isometric>Iso 3 from it.

If the graphical view background colour is not already black, select

View>Settings>Black Background from the 3D View menu.

It is good practice regularly to save your work. This avoids the need to start all over again in the event of loss of work due to an unforeseen interruption, such as a power failure.

Doc No: 9100-02-22-110-A4-Rev0 Page 17 of 165 Update the database to store changes to the design model so far by clicking on, or selecting Design>Save Work.

You should also save your current screen layout and display settings, so that next time you use the application you can easily pick up your design as it stands. Do this by selecting Display>Save>Forms & Display.

You can now leave PDMS and return to the operating system. Do this by selecting

Design>Exit.

Ordinarily, if you had made any changes since your last Save Work operation, an alert form would ask whether you want to save those changes; this time, you are just asked to confirm that you want to leave PDMS.

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PDMS TRAINING

ANEWA

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Introduction

Large plants designed using PDMS will usually be broken down into individual areas (either physical areas or design areas), depending on the physical size, complexity and configuration of the plant. On a large Project, the System Administrator will first agree with Project and Design Management, the breakdown of the PDMS Project into sections which:

• Are relevant to the needs of project reporting and control.

• Form reasonable design subdivisions with sensible match lines and design

content.

• Enable enough designers to work in parallel with simultaneous access to carry

out their design tasks.

In much the same way as in a design office (with its section leader, draughts people, etc.), PDMS has Teams, the members of which are called Users. These Teams can consist of any number of Users and can be organised by discipline or physical work areas.

The main features are:

• Access Control (Teams and Users) • Databases

• Multiple Databases (MDBs)

• Database management functionality

Admin includes a database integrity checking utility, used to check for inconsistencies in the contents of the databases and to derive statistical information about the use of the database storage capacity.

Admin also allows the System Administrator to reconfigure a project. This may be necessary:

• to compact databases at intervals, freeing disk space

• to upgrade PDMS projects when the database structure changes

• to compare the contents of two similar databases; for example, to create a modification record

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To Create A New Project

A PDMS Project must be identified by a three-letter code. The following steps given below illustrate how to create the Project, say by name [XYZ]. Before proceeding to create the Project we shall make ourselves clear with the structure of the Project Directory.

XYZ000 The Project Directory. The files under XYZ000 are:

XYZsys The SYSTEM database.

XYZcom The COMMS database.

XYZmis The MISC database.

XYZ001-XYZnnn Database files which contain the actual model data, nnn has a maximum of 8188.

XYZPIC The directory which stores picture files produced by DRAFT.

XYZMAC The directory which stores inter-database connection macros.

XYZISO The directory which stores files needed by ISODRAFT.

XYZISO Contains four more sub-directories LIS, STD, SYS and UND.

LIS To hold detail lists.

STD To hold option files for standard isometrics.

SYS To hold option files for system isometrics.

UND To hold underlay files.

DFLTS The PDMS defaults directory.

CREATION OF PROJECT DIRECTORIES AND SUB-DIRECTORIES

We have to create the project directories 000, MAC, PIC & ISO which is preceded by the three letters project name. In this example, we have to create the directories XYZ000, XYZMAC, XYZPIC & XYZISO, then under XYZISO we have to create four more sub-directories LIS, SYS, UND & STD. It is always recommended to store all the projects under one directory say, D:\PROJECTS.

D:\PROJECTS>MD XYZ D:\PROJECTS>CD XYZ

D:\PROJECTS\XYZ>MD XYZ000 XYZPIC XYZMAC XYZISO D:\PROJECTS\XYZ>CD XYZISO

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Above thing is for Windows NT Operating System

mkdir XYZ cd XYZ mkdir XYZ000 mkdir XYZpic mkdir XYZmac mkdir XYZiso cd XYZiso mkdir LIS mkdir SYS mkdir STD mkdir UND

Above thing is for UNIX Operating System

After the Project Directory structure has been created change the access rights for the working directories to allow all PDMS Project users Read/Write access:

On Windows NT Operating System select each directory in turn (XYZ000,

XYZPIC, XYZMAC and XYZISO) in Window NT Explorer. For each one click the

right mouse button and select Properties. Select the security tab and check the permissions are set correctly.

On Unix Operating System the following procedure has to be Performed.

chmod ug+rw XYZ000 chmod ug+rw XYZPIC chmod ug+rw XYZMAC chmod ug+rw XYZISO

Set the Environment Variables for the Project

The system recognizes the projects available by referring to a set of environment variables. These have to be set before proceeding any further. Normally, we have the file EVARS.BAT or .cshrc.pdms in the home directory of the user in which these variables are set.

For Example on Windows NT Operating System:

D:\ AVEVA\Pdms11.6> EVARS.BAT EDIT

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SET XYZ000=D: \PROJECTS\XYZ\XYZ000 SET XYZISO=D: \PROJECTS\XYZ\XYZISO SET XYZMAC=D: \PROJECTS\XYZ\XYZMAC SET XYZPIC=D: \PROJECTS\XYZ\XYZPIC

On Windows NT Operating System select Start > Settings > Control Panel >

System, and select the ENVIRONMENT tab.

Set the Variable name as XYZ000 and the value as D:\PROJECTS\XYZ\XYZ000 and then click on the SET button and similarly complete the procedure for the other variables XYZISO, XYZMAC and XYZPIC. Then click on the APPLY button and click OK. Now the PDMS environment variables or set.

Several macros and utilities are provided in the PDMSEXE directory i.e.,

D:\AVEVA\PDMS11.6 SP3 or wherever the directory PDMS11.6 SP3 is located.

When PDMS is installed, a shortcut, Make PDMS Project, is created under the Start menu. Make sure that the Project Directory Structure has been created and the Environment Variables are set as described above, and then proceed as follows:

Click on the Make PDMS Project shortcut. This starts up the PDMS Project Creator utility, which runs the file make.bat.

Enter the Project name (the three-letter project code), here in this case it is XYZ. You will see an Asterisk * command prompt.

Run the utility makemac.mac by typing:

$M /%PDMSEXE%/MAKEMAC.MAC

You will see the messages of the form: Creating System Virgin Db

For each type of database, and finally a message: Creating module definitions referencing %PDMSEXE% Then type:

FINISH

Doc No: 9100-02-22-110-A4-Rev0 Page 23 of 165 You can now enter PDMS by clicking on the start PDMS shortcut, and selecting your new Project.

A display obtained from the PDMS Project Creator window while actually creating a new Project is shown below. The display was obtained when the above

described procedure was followed. Here the Project created is by the name XYZ.

SAMDSM =D:\AVEVA\pdms11.6 SP3\projectsampic COMPREP =D:\AVEVA\pdms11.6 SP3\pdmsuser OUTUFD =D:\AVEVA\pdms11.6 SP3\pdmsuser

This version of PDMS was issued to ANEWA ENGG. PVT Ltd. and will only operate on hardware specified to AVEVA

PDMS Project Creator Mk11.6.3 (WINDOWS-NT 4.0) (9 Oct 2007 : 00:13) Copyright AVEVA 1974 to 2006.

Issued to ANEWA ENGG. PVT Ltd. Enter project name

XYZ

*$M /%PDMSEXE%/MAKEMAC.MAC Creating System Virgin Db

Creating Comms Virgin Db Creating Misc Virgin Db Creating Design Virgin Db Creating Catalogue Virgin Db Creating Isodraft Virgin Db Creating Properties Virgin Db Creating Paddle Virgin Db Creating Dictionary Virgin Db Creating Comparator Virgin Db

Creating module definitions referencing %PDMSEXE% *FINISH

Press any key to continue . . .

For Example on UNIX Operating System:

Doc No: 9100-02-22-110-A4-Rev0 Page 24 of 165 At the command prompt type jot .cshrc.pdms and when the file opens add the following lines.

setenv XYZ000 /usr/sg/projects/XYZ/XYZ000 setenv XYZISO /usr/sg/projects/XYZ/XYZISO setenv XYZMAC /usr/sg/projects/XYZ/XYZMAC setenv XYZPIC /usr/sg/projects/XYZ/XYZPIC

Note: Environment Variables must be in UPPERCASE.

On Unix Operating System the Project is created by running the makeS macro. Several macros and utilities are provided in the PDMSEXE directory to create a new project.

makeS Is all you need to create the Project. It calls the other scripts and utilities as required.

make Is a utility called by makeS.

makemac.mac Creates the Project and loads the module definitions

automatically. Note that MONITOR and ADMIN are already defined in the supplied product.

makmac.mac Sets up module definitions from ADMIN.

modmac.mac Sets module definitions; automatically called from

makemac.mac and makmac.mac delmac.mac Deletes all module definitions from the Project.

The Project can be created by any one of the two ways described below: By running the makeS utility supplied in $PDMSEXE.

By entering the individual command lines for each step. To create the Project XYZ, enter:

$PDMSEXE/makeS XYZ

makeS automatically does the following:

Checks that you have write access to the directory given by $PDMSWK. Checks that the Sitefile is correct.

Checks that the Project does not already exist. Runs the make utility.

Doc No: 9100-02-22-110-A4-Rev0 Page 25 of 165 Creates the virgin databases.

Sets up the PDMS module definitions by running the modmac.mac. Sets the font directory.

Finally, makeS checks that all the virgin databases are present. These are template files from which the different types of model database will be created. If the Project has to be created using the supplied utilities and macros individually, then enter:

$PDMSEXE/make Run the PDMS make executable

XYZ Specify the PDMS Project name

$M/%PDMSEXE%/makemac.mac Define the virgin DBs and run the PDMS makemac macro

finish Finish the make macro

The Project XYZ has now been created. To check what it consists of, type ls

$XYZ000 or open Windows NT Explorer and click on XYZ000.

The directory should contain a SYSTEM database, a backup SYSTEM database, a COMMS database, a MISC database and a virgin database, for each database type (SYSTEM, MISC, COMM, DESIGN, CATALOGUE, PADD, ISODRAFT,

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To Replicate A Project

The Project > Replicate options can be used to replicate the whole Project which already exists, including all the data, or just the structure of the Project.

The Project Data option copies the Current Project to a new Project. Before using this option make sure that the Project directories and the environment variables are set for the Project being replicated. Then enter the new Project Code on the

Replicate Project form.

Note: A Project must not be replicated outside PDMS by copying the whole of the

Project directory to another Project directory. This is because information about the Project name is stored inside the DBs themselves.

The Project Structure option creates a macro which can be run into PDMS to replicate the structure of the Current Project. No data is copied. When this option is selected, a file browser is displayed so that the pathname for the macro can be given.

ADMIN scans the System database and outputs to the file all the commands

necessary to recreate the Project Structure, in the following order: • Creates users

• Creates teams • Add users to teams • Creates DBs

• Make Copy DBs • Creates MDBs

• Add DBs to MDBs and make them Current if appropriate.

The Project XYZ created by using the makemac.mac utility is a Virgin Project. Now we have to create and modify the main administration elements: TEAMs,

USERs, DBs and MDBs.

Start PDMS on the AVEVA PDMS Login form we can see choose the Project by clicking on the button provided at the right end after the Project box. After clicking, the PDMS Projects form appears. The Projects available or listed on the form. Click on the Project XYZ, then the form automatically disappears. Come back to

Doc No: 9100-02-22-110-A4-Rev0 Page 27 of 165 the PDMS Login form and type the password for the user SYSTEM. Then click on the Module scrolling list and select Admin module. Then click on OK.

The AVEVA PDMS Login form disappears and the AVEVA PDMS Admin form appears. This form has already been illustrated in the Project Replication topic above.

The main ADMIN menu bar is seen across on the top of the screen. The options on this menu bar provide access to all PDMS Project administration tools. The

ADMIN Elements form is also seen, through which the ADMIN elements of

Teams, Users, Databases and MDBs can be created, copied, modified and deleted.

The ADMIN Elements form has four states, corresponding to the main ADMIN

elements (Team, User, Database and MDB). The element type can be changed

by selecting from the Elements option button. The scrolling list on the form will display all the elements of the given type in the Project, and the Create, Copy, Modify and Delete buttons will allow creating copy, modifying and deleting

elements of the appropriate type.

Once the ADMIN elements needed have been decided, the recommended sequence is as follows:

• Create users.

• Create teams and users to them. • Create DBs.

• Create MDBs and add databases to them.

The Teams and Users can be created in any order. If the Teams are created first, then the Users can be added as they are created using the Create User form. Alternatively the Users can be created first and then added to the Teams using the

Create Team form. Creating Teams

To create a Team, set the Element option button on the ADMIN Elements form to Team, and then press Create. The Create Team form will be displayed.

To create a Team, enter a Name, and optionally a Description. Press Apply, and the Team will be created.

Doc No: 9100-02-22-110-A4-Rev0 Page 28 of 165 On the left of the form there is a list of the existing Users in the Project. If a Users have already been created, they can be added to the Team by selecting the element in the left hand list, and selecting the right arrow button The User will be added to the Team, and the User’s Name will appear in the right hand list.

Note: Users can also be added to Teams on the Create User form. Creating Users

To create a User, set the Element option button on the ADMIN Elements form to User, and then press Create. The Create User form will be displayed.

Enter a name and password, and set the Security option button to Free if a FREE user is to be created. A Description can also be entered if required.

Press Create, and the User will be added to the Membership scrolling list.

The User can be added to the existing Team using the User Membership scrolling lists. All the Teams in the Project are shown in the Project Teams list. The Membership list shows the members of the Team selected in the Project

Teams list. Add the member being created to a Team by selecting the Team and

pressing the right hand arrow. A member can be removed from a Team by selecting the user in the Membership list and pressing the left hand arrow.

Note: Users can also be added to the Teams on the Create Team form.

Creating Databases

To create a Database, set the Element option button to the Admin Elements form to Database, and then press Create. The Create Database form will be displayed. The Database name is shown at the top of the form. Database names are in the format:

TeamName/DatabaseName

where TeamName is the name of the Team which owns a Database, and which therefore has write access to it. If there is no Current Team, the Database name will be shown as unset/unset. If there is a Current Team, the Team Name will be shown as the first part of the Database Name. The Owning Team is selected from the scrollable list.

Enter the DatabaseName in the Name text box. Enter an optional Description.

Doc No: 9100-02-22-110-A4-Rev0 Page 29 of 165 Select the Database Type from the option button.

Select the Access Mode, if Multiwrite is chosen, then the Claim Mode should be selected from the next option button.

The Area number, DB number and File number are normally set by the System, as shown by the word System entered in the text boxes. It may sometimes be necessary to set them manually.

The Area number is used if it is needed to store the databases in a different directory.

The DB number is used internally by PDMS to identify the Database. When a Database is copied, the copy keeps the same DB number. There cannot be more than one DB with the same DB number in the same MDB.

The File number is used in generating the filename of the Database. For e.g., A Database in the Project XYZ with file number 12 will be stored in the file named

XYZ012.

Press Create, and the Database will be created.

The attributes of Databases can be modified using a similar form very similar to the Create form. To display the Modify form, select the element to be changed in the Admin Elements form and then either:

Press Modify on the Admin Elements form which will display the Modify form, or

Select Modify from the Create/Modify option button on the Create form, if it is displayed, and the mode will change to Modify.

The Name, Description, Access Mode and Area Number of a Database can be changed, whereas the Type, DB Number and File Number cannot be changed. Note: If you try to change a Database name to a name that already exists, you will be prompted to confirm that you want to overwrite the Database.

• Copying Databases

• Copied Databases can be used for: • Copy a template Project.

• Merging Projects.

Doc No: 9100-02-22-110-A4-Rev0 Page 30 of 165 Databases can be copied by selecting Database from the Element option button on the Admin Elements form, selecting the element you want to copy from the scrolling list, and then pressing the Copy button. The Copy Database from will be displayed.

On this form, you can specify the owning team by selecting one from the list of all the teams in the Project. You can copy a Name, Description and Area Number. Note that you cannot change the Database number of the copied Database. This will be the same as the original. You cannot have more than one Database with the Same Database number in the same MDB.

Note: To avoid the risk of Database corruption, all copying of Databases (i.e., the

files inside the Project directory) must be done from The ADMIN module and not be using operating system utilities or commands.

Copied Databases can be changed or deleted.

Including and Copying Foreign Databases

Databases can be copied from other Projects. They can also be shared between Projects, which saves disk space and eliminates errors which could be caused by copying. Catalogue Databases are often shared in this way.

Databases included from a second Project are also known as Foreign Databases. The second Project must be available: that is, you must be able to read from the second Project directory, and have the environment variables from the second Project set.

When creating a Project that is going to share Database from other Projects, there are two important considerations:

• Teams must exist for all Databases that are to be shared.

• Databases in the source Project that will be shared must not be given a database number that will clash with a database number that already exists in the destination Project.

Note: Foreign Databases are marked with * in the database list.

To include a Foreign Database, set the Element option gadget on the Admin Elements form to Database, and press the Include Db button. The Include Foreign Db form will be displayed.

Doc No: 9100-02-22-110-A4-Rev0 Page 31 of 165 • Foreign Projects lists the other Projects available.

• Access Project as. You must enter a Username and Password for a free

user in the Foreign Project.

• Foreign DBs list the Databases in the Foreign Project.

Select the Databases you require and press Apply. You will be prompted to create the owning Team if it does not already exist in the Current Project. You cannot include a Database which has the same Teamid/DBName as an existing Database in the Current Project.

You can exclude Foreign Databases by pressing the Exclude Db button on the Admin Element Form. The Exclude Db form will be displayed.

To copy a Foreign Database, Set the Element option gadget on the Admin

Elements form to Database, and press the Copy Foreign Db button. The Copy Foreign Db form will be displayed.

The Copy Foreign Db form is displayed when you press Copy Foreign Db on the Admin Elements form. This button is only available when the Element option gadget on the Admin Elements form is set to Database.

Foreign Projects Lists the other Projects available.

Access Project as. You must enter a Username and Password for a Free User in

the Foreign Project.

Foreign DBs lists the databases in the foreign project.

Target Database name is set as follows: pick the Team which will

Own the Database from the list, and enter the Database name.

Press Apply. You cannot include a Database which has the same

Teamid/DBName as an existing Database in the Current Project. Deleting Databases

Databases can be deleted by selecting the element from the scrolling list on the

Admin Elements form and then pressing Delete.

Note: To avoid the risk of Database corruption, all deletion of Databases (i.e. the

files inside the Project directory) must be done from ADMIN and not by using operating system utilities or commands.

Doc No: 9100-02-22-110-A4-Rev0 Page 32 of 165

Creating MDBs

Multiple Databases are in short called as MDBs. To create an MDB, set the Element option button on the Admin Elements form to MDB, and press Create. The Create Multiple Database form will be displayed.

The Create Multiple Database form allows you to give the MDB a Name and

Description.

The Multiple Database Definition scrolling lists are used to define the Databases in the MDB, and whether they are current or deferred.

An MDB may contain up to 1000 Databases. However, only 300 of these (known as the current Databases) can be accessed at any one time. The other Databases are deferred. Databases can be transferred between current and deferred status at any time, so that a user can replace a current Database by a non-current one to access a particular part of the design. The Project Databases list shows all the Databases in the Project which are not in the MDB. The arrow buttons are used to add and remove Databases from the MDB, either as current or deferred, and to change a Database between the current and deferred lists. The Insert option button is used to position the Databases in a specified order in the list of current Databases. The order is important.

Note: An MDB can only contain one database with a given DBNO. Two databases

will have the same DBNO if one has been created as a copy.

Modifying MDBs

The attributes of MDBs can be modified using a form very similar to the Create form. To display the Modify form, select the element you want to change in the Admin Elements form and then either:

• Press Modify on the Admin Elements form which will display the Modify form, or

• Select Modify from the Create/Modify option button on the Create form, if it is displayed, and the mode will change to Modify.

You can change the Name, Description, Access Mode and Area Number of a Database. The Type, DB number and File number cannot be changed.

Note: If you try to change a Database name to a name that already exists, you will

be prompted to confirm that you want to overwrite the Database.

Doc No: 9100-02-22-110-A4-Rev0 Page 33 of 165

PDMS TRAINING

ANEWA

Doc No: 9100-02-22-110-A4-Rev0 Page 34 of 165

EQUIPMENT APPLICATION

Equipment items consist of a collection of PDMS primitives, arranged in such a way that they physically model the real life object. When we build equipment, we need to decide how we want to model the object, just as we would if we were building a plastic model. The only difference in PDMS terms is that we model the object at full size rather than working to a scale.

PDMS modeling elements

Primitives are the basic building blocks of PDMS. They are used by other disciplines to create catalogue components. There are many types of primitive; each with its own features, which when combined with other primitives can represent complex shapes. Examples of primitives are nozzle (NOZZ), box (BOX), cylinders (CYLI) and pyramids (PYRA).

Equipment Application in PDMS has the following primitives

Solid Primitives

Negative Primitives

Nozzle Cylinder

Cylinder Box

Box Cone

Cone Dish

Dish Snout

Snout Circular Torus

Circular Torus Rectangular Torus Rectangular Torus Pyramid

Pyramid Sloped Cylinder

Doc No: 9100-02-22-110-A4-Rev0 Page 35 of 165

What is a P-point?

P-points are identifiable primitive points in any PDMS primitive. A BOX has got seven primitive points (P-points). We can query a lot of information from P-points. Any element can be moved, rotated, positioned, connected, measured using P-points.

Equipment Modeling Hierarchy

The different levels in the hierarchy are maintained by an Owner-Member relationship. An EQUI will have ZONE as its owner, while a CYLI might well be one of the EQUI’s members.

The owner is that element which is directly related to the current element at the next level up in the hierarchy, as shown in the diagram below:

The element on the upper level is the Owner of those elements directly below it, e.g. the equipment (EQUI) owns the primitive (CYLI). The lower level elements are Members of the owning element, e.g. the EQUI is a member of the ZONE.

Doc No: 9100-02-22-110-A4-Rev0 Page 36 of 165

Creation of Standard Equipment

A SUBEQUIPMENT is an optional element to further sub-divide EQUIPMENT. The SUBEQUIPMENT can also own primitive elements.

Let us consider a pump given below and try to model it using the Standard equipment creation menu. Select Create>Standard from the main menu. From the equipment creation form select the Pumps sub-classification and select the

Centre-Line Mounted, Vertical nozzles pump.

A Pump EQUI element

Fill in the various parameters from the drawing. Do not worry about the position of the equipment. We will be discussing it later in this session.

Origin of Equipment

The equipment will be positioned based on its Origin. The origin of the equipment will be as indicated in the standard equipment creation form. If we want to know the origin of the equipment

E. Navigate to any primitive belonging to the equipment. F. Type ‘AXES AT CE’ in the command window.

If we want to position the axes at a p-point of any primitive, we can do so by typing

Doc No: 9100-02-22-110-A4-Rev0 Page 37 of 165 If we want to modify the origin of any equipment, we can do so by selecting

Modify>Equipment Origin>ID P-point from the main menu. Please note that if

the origin of the standard equipment is altered, it becomes difficult to modify the equipment later on.

Positioning the Equipment

By default, equipment will be positioned with respect to the owner, (i.e. a zone). However if we want the equipment to be positioned with respect to any other PDMS entity we can do so. Let us look at the Position>Explicitly AT and

Position>Relatively BY menus.

Altering the Orientation of Equipment

Orientation of equipment is also with respect to the Owner. Equipment can be oriented any time as per our choice. When we type ‘Q ORI’ at the command window, we normally get

Orientation Y is N and Z is U

Attributes in PDMS

Every element in a PDMS database has a fixed set of properties known as its attributes. Some attributes are common throughout the range of elements while others differ according to the type of element involved. For example, a cylinder (CYLI) has Height and Diameter attributes whilst the size of a box (BOX) is determined by Xlength, Ylength and Zlength attributes, as illustrated below:

Doc No: 9100-02-22-110-A4-Rev0 Page 38 of 165 Let us try this on BOX primitive. BOX having attributes

XLEN, YLEN and ZLEN

Let us try to correlate these two. The Y direction of the BOX is towards the North of the Plant and Z direction of the BOX is towards the Upward Direction of the Plant. We can always rotate the box along any axis.

First let us try it out on the command line. If we type in the command 'ORI Y is E

and Z is U’, we will have the Y direction of the BOX towards the East Direction of

the plant and Z direction of the BOX will be towards the Upward Direction still. Now, we will try to do the same operation using the menu - which is more user friendly and in more lay man terms. Select Orientate>Rotate from the main menu.

Creation of non-standard Equipment:

When you create an element, a set of appropriate attributes are entered into the database. The attributes will vary according to the type of element but essentially the process is the same. For example, a cylinder has the following attributes:

Attribute

Default Value

Name Name if specified or hierarchy description

Type CYLI

Lock false

(the element is not locked)

Owner The name of the owning element or its hierarchy description

Position N 0mm E 0mm U 0mm

(relative to its owner)

Orientation Y is N and Z is U

(relative to its owner)

Level 0 10

(this is representation level setting)

Obstruction 2 (

it is a solid hard element for clashing purposes)

Diameter 0 mm

Doc No: 9100-02-22-110-A4-Rev0 Page 39 of 165 Let us model the equipment (STABILIZER REFLUX DRUM 1201) given in the drawings without using the menus. The listing of commands is given below. This listing does not contain the commands for creating nozzles. We will be using the menus to create the nozzles. However, we will be positioning the nozzles using the command line only. We will see about creating nozzles also without using the menus later. C O M M A N D L I S T I N G T O C R E A T E E Q U I P M E N T - 1 2 0 1 N E W E Q U I / 1 2 0 1 P O S U 1 0 6 1 7 0 N 2 9 4 5 0 2 W 3 1 2 3 7 0 W R T / * N E W C Y L I D I A 1 4 1 0 H E I 4 8 0 0 O R I Y I S E A N D Z I S N B Y N 2 4 0 0 W R T / * N E W D I S H D I A 1 4 1 0 H E I 3 8 0 R A D 5 0 C O N N P 2 T O P 2 O F P R E V C Y L I N E W D I S H C O P Y P R E V C O N N P 2 T O P 1 O F P R E V C Y L I N E W B O X X L E N 1 0 6 0 Y L E N 1 0 0 Z L E N 8 6 0 B Y D 4 3 0 W R T / * B Y N 9 6 5 W R T / * N E W B O X C O P Y P R E V B Y N 2 8 7 0 W R T / *

Doc No: 9100-02-22-110-A4-Rev0 Page 40 of 165

Naming of Nozzles

Normally, the nozzle names should be prefixed by the equipment name for ease of identification. We can prefix the name of any element to anything by following these steps:

G. Navigate to the element whose name has to become the prefix. (Assume the name as /E1101).

H. Type ‘SET’ in the command window.

I. Navigate to any element (preferably a nozzle) to which this name has to be prefixed. Type ‘NAME */A1’ in the command window. The name of the nozzle will become ‘/E1101/A1’.

Renaming of Nozzles

This is needed, when equipment is renamed. The names of the nozzles remain the same with the earlier name still prefixed. To overcome such a situation navigate to the equipment, whose name is to be changed (let us say /E1101 to /E1201) type ‘RENAME ALL /E1101 /E1201’.

This command can be used for any such similar situations, not only limiting to the nozzles.

Sub-Equipment

A SUBE is an optional element to further sub-divide an EQUI. The SUBE can also own primitive elements.

Doc No: 9100-02-22-110-A4-Rev0 Page 41 of 165

Querying P-point information

Type ‘Q IDP@’ in the command window and identify any P-point. This will list out all the details about the P-point.

We can try several variations of this command, like

Q IDP@ wrt /* Details with respect to the world.

Q POS IDP@ Give only the position of the P-point.

Q P1 wrt /* Details about P-point no: 1 with respect to the world.

How to Measure?

Select Query>Measure Distance from the main menu. You will get a form in that select Graphics and start measuring. The same can be done with various combinations of elements and let us try with them.

How to create Reserved Volumes?

On few instances reserved volumes have to be created for the operator mobility, overhaul of equipments etc., using primitives PDMS has the facility of indicating representation levels. Every basic primitive shape in the design has associated drawing level range attribute (0 - 10). Normally, the level range 9 - 10 is used for Reserved Volumes.

Let us create one reserved volume primitive and try this out. Create a cylinder of dia 1500 and height 10000 in equipment /1201. Then type ‘LEVEL 9 10’ in the command window. You can see the cylinder vanishing from the screen. Select Graphics>Representation from the main menu and toggle the Obstruction button and Update graphics buttons to on. You can see the cylinder reappearing on the screen again.

The practical effect of this facility is that it allows you to minimize visible detail when representing Design items. The same level attribute is also useful in generating Plan / Elevation Drawings. We can decide about the level of

Doc No: 9100-02-22-110-A4-Rev0 Page 42 of 165 information to be indicated in the drawings based on the levels given in Design database. The level attributes play an important role while creating catalogue components also, which we will be discussing later.

How to set Obstruction levels?

The obstruction attribute indicates to the clash detection facility whether a primitive should be considered as a ‘Hard’ or ‘Soft’ obstruction or none at all. Obstructions can be specified as HARD, SOFT or NONE, or alternatively, they can be specified numerically, as indicated below:

0 No Obstruction 1 Soft Obstruction 2 Hard Obstruction

Doc No: 9100-02-22-110-A4-Rev0 Page 43 of 165

PDMS TRAINING

ANEWA

Doc No: 9100-02-22-110-A4-Rev0 Page 44 of 165

PIPING APPLICATION

What is a Pipe and What is a Branch?

Pipes may be considered like lines on a flow sheet. They may run between several end connection points and are usually grouped by a common specification and process.

Branch elements are sections of a pipe, which have known start and finish points. In PDMS the start and finish points are called the Head and Tail. Heads and tails may be connected to nozzles, tees or other Heads and tails, depending on the configuration of the pipe, or left open ended.

The Site and Zone are the administrative elements in Piping Application. A PIPE can be created under a ZONE. Each PIPE element in PDMS has got several attributes; the principal attributes among them are listed below:

NAME The name of the pipe. In most cases, the line designation will be used as the name

BORE The default bore of the pipe. It is more useful in generating reports/ drawings.

PSPE Piping specification

ISPE Insulation specification

TSPE Tracing specification

TEMP Very important attribute, as it decides the insulation thickness, based on the insulation specification.

PTSPE Paint specification. It is more useful in generating isometrics.

REVISION The revision attributes. Can be incremented automatically by Isodraft, during Isometric generation, if chosen by the user.

Doc No: 9100-02-22-110-A4-Rev0 Page 45 of 165 Each pipe should have at least one branch to create the components. Take the case of a Neem tree. Assume the trunk as the MAIN PIPE and the various branches as BRANCH. But, the trunk is also considered as one BRANCH by PDMS. The attributes PSPE, ISPE, TSPE and TEMP are cascaded down from the pipe automatically. We will be discussing about the other important attributes of the branch later on.

PDMS Piping Components

A BRAN can own a wide variety of components such as gaskets (GASK), flanges (FLAN), tees (TEE), valves (VALV), elbows (ELBO), etc. These form the shape and geometry of the BRAN and ultimately the pipeline itself.

Piping components are selected using Piping Specifications that reference standard catalogue data. For example, each time you want to use a 100mm bore elbow, PDMS always accesses the data for it from the component catalogue. The data for this remains constant no matter how many 100mm bore elbows are used in the design.

The valid PDMS piping components are listed in Figure 1. These piping elements can appear under a branch in the hierarchy. Observe in the figure that there is no TUBE or PIPE element. Pipe or Tube is always implied in PDMS. If two components are placed in a straight line and they can be oriented (rotated) so that the leave direction of the first element and arrive direction of the second element are opposite to each other, a pipe is drawn between them automatically to fill the gap.

Figure 1

ELBO BEND TEE VALV REDU FLAN CROS GASK DUCT VENT FTUB SHU COUP CLOS OLET LJSE CAP FBLI VTWA VFWA TRAP FILT WELD PCOM UNIO INST ATTA

Doc No: 9100-02-22-110-A4-Rev0 Page 46 of 165

A selection of piping components

Pipework Modeling Hierarchy

The different levels in the hierarchy are maintained by an Owner-Member relationship. A PIPE will have ZONE as its owner, a BRANCH will have PIPE as its owner and ELBO might well be one of the BRANCH’s members.

The owner is that element which is directly related to the current element at the next level up in the hierarchy, as shown in the diagram below:

Doc No: 9100-02-22-110-A4-Rev0 Page 47 of 165

How to start routing a pipe?

Select Create>Pipe from the main menu. Let us route the pipe ‘200-B-4’ given in the drawings and select the piping specification (in this case A3B as per the Line summary given) and the insulation, tracing specifications if required. Click OK and a branch creation menu appears on the screen. Click OK and identify any nozzle from where the pipe starts (/1101/N3 in this case). Toggle the Head option to Tail

option in the branch connection menu and click the nozzle where the pipe ends

(/1301/N1 in this case).

A branch is created and it is visible on the screen by means of a dotted line from the head nozzle to the tail nozzle. It is time now to create components and position them along the route we decide.

Creation of Components

Select Create>Components from the main menu. Toggle the Defaults button to

Doc No: 9100-02-22-110-A4-Rev0 Page 48 of 165 the component to be created and click the Create button. Let us complete this pipe by positioning all the components including the gaskets.

P-point details of Components

For any component there has to be atleast two P-points (Arrive and Leave). Components like tee or multiway components will have more p-points. Select any TEE and type in the command window the following commands and study their results. An example of the p-point details of a tee is given in Figure 2

Figure 2

Orientation of Components which change direction

The components which change the direction of flow are ELBO, BEND, TEE, CROS etc. If the direction of ELBO and BEND has to be changed to N 45 E we can do so by typing

DIR N 45 E

If we want to change the direction of the p3 of a tee to W, we can do so by typing ORI and P3 is U Q PA Q PA BORE Q PA OD Q PA $Q -20 Q P3

Doc No: 9100-02-22-110-A4-Rev0 Page 49 of 165

Difference between Distance / Spool Options

When we place a component by specifying a distance of 1000 mm, the origin of the component is placed at a distance of 1000mm from the origin of the previous component.

When we place a component by specifying a spool of 1000mm, the component is placed in such a way that a pipe spool of 1000mm can be inserted between it and the previous component.

How to reselect a component?

If we have modeled a gate valve and that needs to be changed to a globe valve, we can do so by navigating to the corresponding valve in the database and typing

CHOOSE ALL in the command window or by clicking the Reselect button in the

Create Component Form. This is shown in Figure 3. The amount of information which is displayed in the choose selection form can be controlled. We get all the details when we type CHOOSE ALL. If we type CHOOSE, we get the bare minimum information required to choose the component.

Figure 3 How to choose an out-of-spec item?

In PDMS, we cannot create any piping component without a specification reference. It should be part of some specification. Whenever, we say out-of-spec

Doc No: 9100-02-22-110-A4-Rev0 Page 50 of 165 the pipe, but which belongs to some other specification. To do so, choose the specification from which the component has to be selected in the Piping Component menu and click the create button. We will get the warning indicated in Figure 4. On clicking Yes, the component is created.

Figure 4

Common Attributes of Piping Components

SPRE : The specification reference.

LSTU : The specification reference of the leave size tube. CREF : The reference of the branch which is connected to this

element.

ISPE : Insulation specification. This is useful when a portion of the pipe need not be insulated.

ARRIVE : The p-point number which has to be made as arrive. (Usually 1)

LEAVE : The p-point number which has to be made as leave. (Usually 2)

MTOREF : Reference array holding up to 4 additional SPREFS. This is useful to inform ISODRAFT to add in its MTOLIST a set of components which have to appear along with this element. BUILT/ SHOP: To indicate whether Shop / Field item.

Special attributes which make a difference

BEND/ ELBO

Angle : The bend angle

Doc No: 9100-02-22-110-A4-Rev0 Page 51 of 165 ELBO, if the radius is mentioned as ‘0’, it is modeled with the radius which has been specified in the catalogue. If it has to be altered, it has to be specified in absolute terms and not as the factor of bore.

FLANGE

Loose : Used by Isodraft to indicate where flange is to be supplied Loose and increase indicated cut length to allow for field fitting.

Branch Attributes

HREF : The reference of the element to which the branch head is connected

TREF : The reference of the element to which the branch tail is connected.

HPOS : The head position TPOS : The tail position

HDIR : The direction of flow from the branch head. TDIR : The direction of flow from the tail end. HCON : The connection type at branch head. TCON : The connection type at branch tail.

HSTU : The specification reference of the tube emanating from branch head.

How to work backwards?

It is not always possible for us to work from head to tail of the pipe. We may have to work backwards also. To do so, toggle the Backward button in the Create Component form or type BACKWARDS in the command window. You can immediately see that the members list got reordered.

To revert back to the forward mode of working type FORWARDS in the command window or toggle the Forward button in the Create Component form.

Doc No: 9100-02-22-110-A4-Rev0 Page 52 of 165

How to reverse the flow direction?

Navigate to the branch element and select Modify>Hierarchy>Reverse Order from the main menu. This will reverse the flow direction. When this command is executed, PDMS reverses the hierarchy of the branch members and navigates to every member and executes the FLIP command. FLIP command changes the arrive p-point and leave p-point of the components.

A word of Caution:

Please make sure that the appearance of the pipe has not changed once this command is execute. It may create problems when you have eccentric reducers in the branch.

Pipe creation by specifying explicit positions

Until now, we have been seeing to create pipes, which start from a nozzle, tee, or some element. If we have a pipe which has no identifiable head or tail reference select Create>Pipe from the main menu and in the create branch form select

Explicit in the Connection. Then we get a form as shown in Figure 5 wherein we

can feed in the exact co-ordinates of the head and tail positions, head and tail directions, head and tail bores of the pipe.

Doc No: 9100-02-22-110-A4-Rev0 Page 53 of 165

Playing with ATTA

The ATTA (Attachment point) which is a zero length, no-shape element (notional element) has three main applications:

1.0 To allow pipe hangers to be connected to a point in the branch.

2.0 To indicate a special point on the branch which can be dimensioned, labeled, tagged etc.

3.0 To indicate to ISODRAFT about the user defined pipe splitting point.

The ATTA is created, selected and consistency-checked in the same way as other components. However, it is ignored as an in-line fitting by the CONNECT command and is ignored by REPORTER when calculating TUBE lengths.

ATTA Attributes

ATTY : If set to ‘CCCC’, it is considered as a comment ATTA by Isodraft.

If set to ‘CCNN’, it is considered as non-dimensional comment by Isodraft.

If set to ‘FLOW’, Isodraft plots in-line flow symbol at that point. If set to ‘XXXX’, Isodraft splits the pipe at the specified point. If unset, Isodraft assumes it as a support point.

STEX : Used by Isodraft to generate information note.

CSTREF : Constraint reference, used in stress analysis

CREF : Connection refrence to a hanger or pipe clamp which is connected to it.

Sloped Pipe

There are two methods of creating a sloped pipe. The first method is to route the pipe without a slope and use the Auto Slope option in the main menu. Navigate to

Doc No: 9100-02-22-110-A4-Rev0 Page 54 of 165 the Branch and Select Modify>Slope from the main menu. We will get a form as shown in Figure 6. We can give either the Fall ratio or the Fall angle. The other method is to go in for Elbow trim as explained below.

Figure 6

Select the Elbow from which the Slope starts and select

Orientate>Component>Leave from the main menu. If the direction of slope is

known, we can key in the direction or use the other tools available in the same menu. We should not forget to toggle the Angle Change option to ON as shown in Figure 7. If the angle change option is not toggled, the same menu is useful to change the direction of the elbow or the bend without trimming it. We can do the same by command also by typing ORI a nd PL is N45 D in the command window. If we query the leave direction of the elbow after this command we can see a change and all further components placed in this branch will maintain the same slope.