Additional User guide/upgrade information.
Contents
1. If both UDAs contain invalid data the default standard hanger type will be transferred 5 3 2 Transfer from Rohr2 to AVEVA DESIGN PRODUCTS During the transfer procedure of the Rohr2 data the calculated hanger type is written to the UDA USTSCHTYP Additionally the Witzenmann hanger type is determined and written to the UDA USTHTYP 5 4 Error messages If the UST UDAs are not available a message will be shown to contact the system administrator Without the UDAs the interface will not work Dh UST UDAs are not available Please P contact your administrator The error can be caused by e The respective DICT database was not created in the module ADMIN e The respective DICT database was not included in the current MDB or is deferred e The required UDAs are not included in the DICT database Please see Chapter 1 4 1 for details e The DICT database was not compiled As mentioned above it is possible that user do not have write access to some ATTA elements due to claims or locks or due to general read only access In addition to the error messages all ATTA or SHU elements that could not be transferred are listed in an error form The reasons for the single errors are listed in an r2hangerror file Page 23 AV VA Page 24 AVEVA Solutions Limited High Cross Madingley Road Cambridge CB3 OHB UK Tel 44 0 1223 556655 Fax 44 0 1223 556666 www aveva com Copyright 2013 AVEVA Solutions Limited All rights2. 2 Transfer from Rohr2 to AVEVA DESIGN PRODUCTS 23 5 4 Error MESSAGES cccccccceeecescecsceceeeceueeceeeceeeceusenseecseeceusesseeseeeeeaeeneeeseeeseeeens 23 AVEVA Pipe Stress Interface R2 Page 1 User Manual 1 General Remarks 1 1 1 2 1 3 1 4 Works is compatible with AVEVA Pipe Stress Interface R2 works with AVEVA PDMS version 12 1 and AVEVA Everything3D version 1 1 Rohr2 is required in version 30 2a or higher version General In this document AVEVA PDMS and AVEVA Everything3D will be herein referred to as AVEVA Design Products Introduction Target of the interface between AVEVA Design Software and Rohr2 is an efficient link between both programs In order to achieve that all required pipe data are transferred from AVEVA DESIGN PRODUCTS to Rohr2 After the stress calculation in Rohr2 the resulting modifications can be transferred to the AVEVA DESIGN PRODUCTS and can be shown in the model For the transfer back to the AVEVA DESIGN PRODUCTS it is also necessary to use the Rohr2 internal interface It is also possible to transfer the stress data from Rohr2 to the AVEVA DESIGN PRODUCTS in order to use them for hanger and support calculations Rohr2 can be acquired from Sigma Ingenieurgesellschaft mbH Bertha von Suttner Allee 19 59423 Unna Germany Prerequisites 1 4 1 AVEVA DESIGN PRODUCTS In order to use the interface additional User Defined Attributes UDAs and also
3. CE Modify Hangers Remove Network Show Limits Remove Selected Show Labels Label Type Hame Su Func Page 6 AV VA 3 Transfer of geometry from AVEVA DESIGN PRODUCTS to Rohr2 3 1 Collecting the pipe system 3 1 1 Main frame Export Open the Rohr2 Interface Form When collecting the pipes of a pipe system to Export Support Value transfer to Rohr2 it is mandatory that the pipes are in Depicemest a network This means that none of the branches List Pipes may be isolated by the rest of the pipe system p The current content of the export list is displayed and highlighted in the graphical view So it can be checked with respect to completeness maybe one of the branches was not collected because of missing references The highlight colour can be modified by the menu gt Settings e M100 6 1 PS 01 00203 M00 6 1 PS 01 00204 M00 6 1 PS 01 00205 List Pipes List Branches Shows either Branches 100 B 1 PS 01 00206 or Pipes for Export peas 00 86 17 82 Add Ce Add all branches below the current element 1008 261 to the export list Attention it is not checked whether all elements are part of one network or whether all branches are connected correctly Load Pipe List Add Network Save Pipe List Add Network Appends all branches to the export Remove CE TE list which are connected directly or indirectly to the Remove Network Show Limits cu rrent element Remove Selected Show Labels Label Type Remove Ce Remove
4. E dene noecies 6 Transfer of geometry from AVEVA DESIGN PRODUCTS to Rohrz 7 3 1 Collecting Te pibe Syste se sceccecceceecnccecescncieuscencssueecacceasececseasceccieeneeneceusecessand 7 HN E E E e E E E E E A E E E 7 312 UDI Fale AVIOGIY Hangers lt dscccacasmsnssancacesonccecesmeanoassdencorsaancansastaccoaee 8 3 2 Settings for the data tranSfer cccccccescccseecceeeeseeeeceeeeeeeeeseeeeeeeeeseeeeseeesseees 9 fa a 6 21 ae Ce dig A 0 0 ene ee EEE eee 9 Se gt en ee en eR eee ee 10 3 2 3 Pipe Pipe COMPONENMS cccccceecccceeeeeeeeeseeeeeeaeeeesaeeeesseeeesaeees 11 3 2 4 Expansion Joints Tab Exp Joints sssctpeskiivepectiatessintetssskeaekeecueeateased 12 2o Pod T UPOS TAO aa 12 922P UoeraneUo essers n n SEE E 13 4 Displaying the thermal displaceMents cccccscceseeeeeeeeseeeseeeeseeeeeeneees 14 4 1 Import and display of the displacement models ccccceeeeeeeeeseeeeeeeeenees 15 4 2 Error messages during the import of displacement files cccceeeeeeeeeeees 17 5 Import of hanger attributes cccccceeeseeseeeseeeeeeeneseeseeeseeeneeeeseeeseeeaeeoeeees 18 5 1 Form for the import of the hanger point data cccccccseeeeeeeeeeseeeseeeeeeeens 18 5 2 Definition of the transferred data ccccccccceeccsececeeeceeeeeeeceeeeeeeeseeeseeeeaeeeas 19 Od TIAN CYC S e E E 19 5 3 1 Transfer from AVEVA DESIGN PRODUCTS to Rohr2 00 23 5 3
5. all branches below the current Name element from the export list Remove Network Remove all branches from the export list which are connected directly or indirectly to the current element Remove Selected Remove the selected elements from the export list Load Pipe List Fill the export list with the content of a previously saved file Save Pipe List Save the content of the export list to a file Modify Hangers Switches to the frame Modify Hangers in order to assign hanger types to the single hangers Page 7 AV VA Show Limits Set the limits of the graphical view to the content of the export list Show Labels Displays the support of the selected pipes in the graphical view Label Types is only active if Show Labels is ticked Show the selected attribute on the support Apply Exports all selected branches After collecting all geometry and material data the file browser is opened in order to select the name of the transfer file The file extension must be ntr Additionally a second file with the extension ntrerror is created in the transfer directory This log file contains all information about problems or errors during the export Cancel Closes the form 3 1 2 Subframe Modify Hangers The list Hanger list shows all hangers of the pipe list of the main frame ATTY unset or ATTY HANG Support Type Branch The list Hanger types shows all possible hanger PS 01 00160 100 418 PS 01 00107 2 10
6. different displacement files per project it is recommended to use the project specific environmental variable The following file extensions are used by the interface to transfer data File with geometry data AVEVA DESIGN PRODUCTS to Log file for transfer of geometr r2hangprop File with data for hanger points Rohr2 to AVEVA r2hangerror Log file for hanger points DESIGN PRODUCTS File for displacement data 1 5 1 Type description for AVEVA DESIGN PRODUCTS hanger Chapter 5 3 gives an overview of all allowed Hanger Type in the different UDAs 1 6 Restrictions The transfer of geometry data is bound to the allowed type declaration of Rohr2 For example at the moment it is not possible to transfer tee fittings with three different bores or reducing elbows Reducers or elbows with an outlet can also not be transferred Before transferring pipe systems the user should check that the pipes are consistent concerning geometry or bores Otherwise problems during the data transfer cannot be excluded Page 4 AV VA 1 7 Starting AVEVA Pipe Stress Interface Rohr2 The bidirectional interface is part of the AVEVA DESIGN PRODUCTS Design Piping Application 1 7 1 In AVEVA Everything3D In Tab PSI ROHR2 the PSI R2 commands are grouped in the Piping Application ij APS ALL AVEVA Everything3D Model 3D View 1 Drawlist 1 TOOLS MANAGE ADMIN EQUIPMENT PIPING LASER PSI ROHR2 Export About PSI Rohr2 U
7. 0 A 1 typ es PS5 M 00107 1 100 4 1 ea PS 01 00110 1 100 4 1 By selecting the hanger points to be modified Sere re and the required hanger types and pressing the PS 01 00107 DATUM 100 A 1 u PS 01 fN107 SREF 100 4 1 button Set Hanger type the respectable Se ee Sas hanger points are modified Attribute PS 01 00110 3 100 A 18 PS 071 001 10 SREF 100 4 1 U STH TY P PS 01 HN107 3 100 416 ali ie a i f PS 01 00156 100 B 1 Clicking the button Home switches back to the EEE PREP main frame GLSL FGL Spring Support with friction FGSV Spring Support without friction FGLSL Spring Support without friction KGL Constant support with friction KGSV Constant support without frictior 4 p Page 8 3 2 Settings for the data transfer The frame Settings of the Rohr2 menu opens the following form The form is opened with default values Settings modified in that form can be saved in a central INI file R2STRESS rtwoexportoption ini or in a project specific INI file xyzR2ZSTRESS rtwoexportoptio n ini After that the form will be opened with the saved values Load Settings File Open the file browser to load the settings from a file Save Settings File Open the file browser to save the current settings in a file Apply Accept the changes Cancel Close the form 3 2 1 Order Information In this frame of the Export Settings Form any text to describe the order can be defined This information wil
8. 280 After importing the loading cases the Import area of the form will be updated and the area Graphical Representations will be filled with the content of the database During the import the imported files will be renamed from r2disp to r2dispold The imported loading cases are shown per pipe system For each pipe system the single loading cases and all branches of that system are listed The display of the loading cases can be switched on and off and can superimposed with the original branch Showing Branch The colours can be adjusted individually Only branches selected in the branch list Branches are shown in the graphical view Selecting the System again will update the graphical view with all branches of the system Example of superimposing a pipe with their calculated load cases e the original pipe in blue Representation System ADLCP10BR402 403 ADLCA CF CP DK ADLBS43 44 ADLAB 21 LCA ADLAA11 10 introun lt gt Branch blue OPLOAD1 red Loading c Col Visi Page 16 AV VA e the model of the loading case OPLOAD1 in red Representation A Branch ADLBS44BR010 B1 ADLBS43BR010 B1 System ADLCP10BR402 403 ADLCA CF CP DK AODLBS43 44 ADLAB 21 LCA AAAA lt gt Visi false true Loading c Cal Branch blue OPLOAD1 red H Colour Visible e the original pipe model in blue superimposed with the loading case OPLOAD1 in red Representation A Branch AOLBS
9. 44BR010 B1 ADLBS43BR010 B1 System ADLCP10BR402 403 ADLCA CF CP DK AOLBS43 44 ADLAB 21 LCA Sw lt gt Loading c Col Visi Branch blue true OPLOAD1 red true E M Visible 4 2 Error messages during the import of displacement files If the UST UDAs are not available a message will be shown to contact the system administrator Without the UDAs the interface will not work UST UDAs are not available Please i contact your administrator The error can be caused by The respective DICT database was not created in the module ADMIN The respective DICT database was not included in the current WDB or is deferred The required UDAs are not included in the DICT database Please see chapter 1 4 1 for details The DICT database was not compiled Page 17 AV VA 5 Import of hanger attributes 5 1 For design and construction of pipe hangers and supports Rohr2 delivers design data The design data for the hanger points of all pipe systems are stored in ASCII files with the extension r2hangprop in the communication directory R2STRESS or YxyzR2STRESS respectively The values are transferred to the attributes of the corresponding ATTAchment Points Form for the import of the hanger point data The following form is opened by mport Displacement Import of Support Value of the main menu of AVEVA DESIGN PRODUCTS saci ie Dis placement Settings The form will only be shown if there is at lea
10. AV VA AVEVA Pipe Stress Interface R2 User Manual Version 2 2 1 AN INR wi AVEVA Solutions Limited High Cross Madingley Road Cambridge CB3 OHB UK WWW aveVva com Tel 44 0 1223 556655 Fax 44 0 1223 556666 PLEASE NOTE AVEVA Solutions has a policy of continuing product development therefore the information contained in this document may be subject to change without notice AVEVA SOLUTIONS MAKES NO WARRANTY OF ANY KIND WITH REGARD TO THIS DOCUMENT INCLUDING BUT NOT LIMITED TO THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE While every effort has been made to verify the accuracy of this document AVEVA Solutions shall not be liable for errors contained herein or direct indirect special incidental or consequential damages in connection with the furnishing performance or use of this material This manual provides documentation relating to products to which you may not have access or which may not be licensed to you For further information on which Products are licensed to you please refer to your licence conditions Copyright 2014 to Current Year AVEVA GmbH All rights reserved No part of this document may be reproduced stored in a retrieval system or transmitted in any form or by any means electronic mechanical photocopying recording or otherwise without prior written permission of AVEVA Solutions The software programs described in this document are confide
11. IC_PATH The search path for PML1 macros If this is already set add the pathname to the directory containing the PSI R2 application ware PML1 macros Example set pmlui pathToPSI R2 pdmsui PMLUI The search path for PML2 PML Net macros If this is already set add the pathname to the directory containing the PSI R2 application ware PML2 macros Example set pmlilib pathToPSI R2 pmllib PMLLIB The path for UIC and XML files Example set CAF_UIC_PATH pathToPSI R2 PSI Rohr2 UIC Only if the environment variable is already set and in use add the following line lt CustomizationFile Name PSIROHR Path Aveva PSIRohr uic gt in the lt UlCustomizationFiles gt section of the DesignCustomization xml file Page 3 AV VA Copy the file Aveva PSIRohr uic from the installation path PSI Rohr2 UIC into the directory described with the CAF_UIC_PATH environment variable An example of the file DesignCustomization xml is shown In the installation path PSI Rohr2 UIC The communication between AVEVA DESIGN PRODUCTS and Rohr2 is done by ASCII files These files will be stored in a directory that is declared by the environment variable R2STRESS In addition a project specific environmental variable XYZRZSTRESS where xyz is the project code can be used If both environment variables are set and both directories exist the project specific directory will be used Because of project related settings and
12. additional catalogue data is needed The UDA macro file lexicon _pdms_psi_r2_uda mac contains the attributes for loads and forces The catalogue macro file paragon _pdms_psi_r2_catalog mac contains parameterised NOZZle components which are used for the geometry display of the imported pipes The UDAs and the Catalogue Data is provided as Database Listings files Both files are located in the installation path below pdmsdata AVEVA Pipe Stress Interface R2 Page 2 of 29 User Manual AV VA For the Database Listings files two databases have to be provided e Dictionary DB type dict access update lexicon_pdms_psi_r2_uda mac e Catalogue DB type cata access multiwrite paragon _pdms_psi_r2_catalog mac Please make sure that the databases are included in every MDB 1 5 Settings and definitions PSI R2 application files must be included into the environment variable search paths for PMLLIB and PMLUI PDMSUI in the AVEVA DESIGN PRODUCTS entry scripts AVEVA PDMS PDMSUI PMLLIB The search path for PML1 macros If this is already set add the pathname to the directory containing the PSI R2 application ware PML1 macros Example set pdmsui pathToPSI R2 pdmsui pdmsui The search path for PML2 PML Net macros If this is already set add the pathname to the directory containing the PSI R2 application ware PML2 macros Example set pmllib pathToPSI R2 pmlilib PMLLIB AVEVA Everything3D PMLUI PMLLIB CAF_U
13. d KFLVXY global x and y direction Page 21 AV VA a e a Constant support guidance in vertical and KFLVXZ global x and z direction Constant support guidance in vertical and KFLVYZ global y and z direction Rigid pivot support in vertical pipe lateral in GSQVX global x direction Rigid pivot support in vertical pipe lateral in GSQVY global y direction Rigid pivot support in vertical pipe lateral in GSQVZ global z direction Elastic pivot support vertical E FGSV Elastic pivot support in vertical pipe lateral FGSQVX in global x direction Elastic pivot support in vertical pipe lateral FGSQVY in global y direction Elastic pivot support in vertical pipe lateral FGSQVZ in global z direction Constant pivot support vertical KGSV Constant pivot support in vertical pipe KGSQVX lateral in global x direction Constant pivot support in vertical pipe KGSQVY lateral in global y direction Constant pivot support in vertical pipe KGSQVZ lateral in global z direction none means undefined Page 22 AV VA The 3D designer can choose a particular hanger construction for the calculation in Rohre 5 3 1 Transfer from AVEVA DESIGN PRODUCTS to Rohr2 If a hanger was calculated with Rohr2 the UDA USTSCHTYP contains this calculated data If the hanger point is transferred to Rohr2 again this data will be used If this UDA is empty or contains invalid data the UDA USTHTYP will be transferred to Rohr2 if it is valid
14. gain If the UDA does not contain a valid value then the UDA USTHTYP is analysed and transferred if necessary If this UDA also does not contain a valid value then the standard hanger type from the Settings Form will be used The advantage of that procedure is that the pipe designer does not have to define any hanger types in the AVEVA DESIGN PRODUCTS The stress calculator gets the chance to define a default hanger type for the first stress calculation in Rohr2 For example it is possible to define a constant hanger for steam pipes or a friction type bearing for water pipes as a default The following alternatives can be selected in the Settings Form e Constant hanger lt Standard gt e Rigid hanger e Friction type bearing e Spring hanger 3 2 6 Userfunctions To be more flexible complex structure can be implemented in the R2 interface ATTA Name attaname und PCOM Classification pcomClasses are shown in the settings form Both are provided as an example and placed in the PMLLIB path below userfunction Please see here attaname as an example define function attaName is string if ce type eq ATTA then return ce stext amp amp ce mdssuppfunc else return ce name endif endfunction Page 13 AV VA 4 Displaying the thermal displacements One result of the stress calculation in Rohr2 is the displacements based on thermal influences on the whole pipe system These displacements can be displayed i
15. he transfer directory These files contain the position with the movement in x y and z direction for each calculation point These files are displayed in the area Import sorted by the pipe systems and the respective loading cases The list can be refreshed Select the loading cases to be imported and press Create Loading Cases The files will be read and imported to the database The following hierarchy will be created 4 1 Import and display of the displacement models Export Support Value Displacement Settings Import Displacements Import DAVEVAWorKAVEVAMiscir2Data Browse System Loading case 3002 REVOO WORKING V2 0 EQ XX 3002 REVOO WORKING V2 0 EQ YX 2002 REVOL WORKING V2 0_HT 2002 REVOO WORKING V2 0_OFE1 3002 REV D WORKING W2 0 OPE 2002 REVOO WORKING V2 0 SNOW 2002 REVOO WORKING V2 0 WIND_X Branch 61EKGTOBRO20 eee G1EKGTOBROZ1 61EKG7OBRO20_U 61EKG70BRO20_UHY 61EKG7OBRO20_UMY 61 EKGTOBRO2Z0_ULA Loading case Colour Branch blue 0 WIND_X red 0 SNOW cyan 0_OPE2 brown 0 OPE1 springgreen false Page 15 Name AV VA Beschreibung ZONE DISP_28MAW30 EQUI DISP_28MAW30_ DL SUBE FOHAC10BRO11 B1 NOZZ FOHAC10BRO11 B1_ 260 280 This ZONE contains all loading cases of the system 28MAW30 This EQUI contains the loading case DL The SUBEquipment contains the branch FOHAC10BR011 B1 of the loading case DL The NOZZle represents the connection between the calculation points 260 and
16. l be displayed in the heading of reports or drawings in Rohr2 Alternatively AVEVA DESIGN commands e g CURRENT PROJECT or any standard text is possible AVEVA DESIGN commands must be entered directly standard texts need vertical bars as boundary Order Desc General Pipe Components Exp Jointa HS Onder Description Order Information Order Description PROJ CODE Further Description Text cae Tasks Load Settings File Save To File Order Desc General Pipe Components ExpJoints HS Onder Description Order Information Order Description PROJ CODE Further Description Text s Tasks Load Settings File Save To File Page 9 3 2 2 General This frame is used to define the environmental temperature and oriernese General direction of gravity Possible values for the direction of gravity are X Pipe Components ExpJoints HS General Information General X Y Y Z or Z Default value is _ Z Environment temperature C i Direction of Gravity Colours Modify the colours of the Colour export list see chapter 3 1 1 ees P Colour for all selected list elements aa Site Defines the name of the site in which the displacement model will be read in Import of Displacements Tasks Load Settings File Save To File Page 10 AV VA 3 2 3 Pipe Pipe Components The settings should be set so that the values can be determined by Attributes or UDAs user defined attribu
17. lobal Z axis Thrust bearing vertical guiding in the global None FLVXY x and y axis Thrust bearing vertical guiding in the global None FLVXZ x and z axis Thrust bearing vertical guiding in the global None FLVYZ y and z axis Lateral stop in vertical pipe None QSV Lateral stop in vertical pipe in the global x None QSVX axis Page 20 AV VA OO e O meem a Lateral stop in vertical pipe in the global y None QSVY axis Lateral stop in vertical pipe in the global z QSVZ axis Spring support axial stop FGLAX Spring support guidance axial stop FFLAX Spring support guidance in vertical and FFLVX global x direction Spring support guidance in vertical and FFLVY global y direction Spring support guidance in vertical and FFLVZ global z direction Spring support guidance in vertical and FFLVXY global x and y direction Spring support guidance in vertical and FFLVXZ global x and z direction Spring support guidance in vertical and FFLVYZ global y and z direction Constant support Constant support guidance Constant support axial stop Constant support guidance axial stop KGL KFL KGLAX KFLAX Constant support guidance in vertical and KFLVX global x direction Constant support guidance in vertical and KFLVY global y direction Constant support guidance in vertical and KFLVZ global z direction Constant support guidance in vertical an
18. n the AVEVA DESIGN PRODUCTS For each loading case a separate model containing equipment elements with nozzles are created These models can be displayed together with the original pipe In order to read in the displacement files a design database with write access must be selected In this database a site in the example R2 must be created The attribute PURPOSE of that site must get the value DISP If there is such a site in a read write database it will be displayed in the form It must be taken into account that the imported models of the loading cases will cause hard clashes inside the AVEVA DESIGN PRODUCTS Therefore it is recommended to import the model in database that is not always current only temporarily to check the loading cases As mentioned above the loading case models are based on parameterised NOZZles in the shape of a dumb bell The nozzles represent two adjacent calculation points and the direct line between these two points with two spheres and one cylinder The pipe can also be shown with the insulation In order to display the insulation the transparency of Obstruction and Insulation should be set to 50 in the graphical representation form gt Settings gt Representation in the main menu of AVEVA DESIGN PRODUCTS Page 14 Import Displacement Import of Displacement opens the form shown here For each loading case of a calculated pipe system Rohr2 writes one ASCII file with the extension r2disp in t
19. ntial information and proprietary products of AVEVA Solutions or its licensors For details of AVEVA s worldwide sales and support offices see our website at http www aveva com Change documentation 3rd April 2007 Revision of the description concerning the conditions of when and which hanger types are transferred 13th July 2007 Update to PDMS 11 6 O8th October 2007 User Manual in English 09th June 2009 Upgrade to PDMS 12 24th November 2011 Redesign of Import Displacement Form Multiple wall thicknesses Content Nee GOTO Ral FROMIANKS soreer ne ee Eae EEEE EEE EEEE EEEE AEAEE EEEE EE ETE 2 1 1 Works is compatible with ccc ceccceccseeceeece cece eeseeeseeeeeeeeeeseeeseeeseeeaeeeaees 2 Te OLNI A 2 FS ATOU ON e R EEE 2 1 4 Prerequisites ccccceccceecceeeceeeecseeceececeeceeseueeeeeseeeceusesseeseeeseueesseeseeesnanenaess 2 14 1 AVEVA DESIGN PRODUCTS preccccdsra 2 TO DES ANG IGS MIMO eee 3 1 5 1 Type description for AVEVA DESIGN PRODUCTS hanget 4 LO FROSTIN ee a E 4 1 7 Starting AVEVA Pipe Stress Interface Rohr2 ccccececeseeeeeeeeeseeeeeseeeeeees 5 1 7 1 In AVEVA Everything D aca secestecesexesengewavexsouvadeusocnedecseenedonteaxedoxsecse 5 Thee TRAVE VA PONS aceia cee ci ceceg sate ciaeeteeaiesaiceetetadeeasenetceadeece 5 1 7 3 Available COMMANAS ccccceccceeeeeseeeeseeeeseeeeeeeeeseeeeeeeeeseeesaeeesseeeeas 5 THE MAN FOTI ec occ ceerw sees rw careers E
20. reserved AVEVA Solutions Limited is owned by AVEVA Group plc AVEVA the AVEVA logos and AVEVA product names are trademarks or registered trademarks of AVEVA Group plc or its subsidiaries in the United Kingdom and other countries Other brands and products names are the trademarks of their respective companies
21. st Import Support Value one r2hangprop file in the communication directory Otherwise there will be a warning that no files with hanger point data are available 3002 rev00 working V2_0 The r2hangprop files contain all design data of hanger points of a calculated pipe system If all design data of hanger points can be transferred without errors the files are renamed from r2hangprop to r2hangpropold If the user does not have write access to at least one of the hanger points locked claimed or if the hanger point is in a read only database then a form is opened with a list of hanger points that could not be updated In this case the file is not renamed so that another attempt can be carried out later Detailed information of errors will be written in a file with the extension r2hangerror The error file is created in the xyzR2ZSTRESS directory or RZSTRESS directory respectively Tasks Import Hanger Value Cancel Page 18 AV VA 5 2 Definition of the transferred data The following attributes of AT TAment points are set USTDYNLOAD 1 8 2 6 3 8 Dynamic load in x y z direction kN USTEREPORT Rep No 124711 Elasticity report text max 120 characters USTFORCE 10 5 6 7 8 Forces in x y z direction kN USTHCOMP 1507845 Part number of the spring or constant hanger USTMAXTRAVEL o Max Movement mm 1 USTMOVEMENT 2 13 5 0 7 3 44 3 value Movement in x direction mm value Mo
22. tes of the AVEVA DESIGN PRODUCTS elements PIPE BRAN BRAN MEM or of their referenced elements like SPEC or SPCO a E 4 a i OrderDesc General Pipe Components ExpwJoints HS OrderDesc General Pipe Components ExpJoints HS Pipe Pipe Component Pipe Pipe Components Design Pressure bar PRES OF PIPE Component Description Operating Pressure bar Material Description MTXX Design Temperature C TEMP OF PIPE Weight of elements kg GWEI Operating Temperature C Wall Thickness ppoint 1 mm pwallt 1 Density of Medium kg m Wall Thickness ppoint 2 mm pwallt Density of Insulation kg m Wall Thickness ppoint 3 mm pwallt 3 Thickness of sheet metal shell mm Wall Thickness ppoint 4 mm pwallt 4 Density of sheet metal shell kg nr Wall Thickness Outside Tolerance 9 WTOL OF CMPRE OF SPREF Wall Thickness Inside Tolerance 95 BTOL OF CMPRE OF SPREF Nonm Standard BTK Tasks Tasks Load Settings File Load Settings File Save To File Save To File Page 11 AV VA 3 2 4 Expansion Joints Tab Exp Joints Order Desc General Pipe Components ExpJoints HS Expansion Joints PCOM Expansion Joints PCOM Classification Effective section m Outer diameter of the bellow mm Corrugated length of the bellow mm spring rate Ca Nm deg Spring rate axial N mm Spring rate lateral N mm Spring rate Cp Nmi deg bar Spring rate Cr Nim bar Torsion type suspension Nmdeg Number of moving direc
23. tilities Create Modify Delete Position Orientate Connect Bonus Schema nematic Data Consistency 2 A xX a W f 1 7 2 In AVEVA PDMS in order Choose Utilities gt Rohr2 Interface in the Piping Application to get the Rohr2 Interface submenu 1 7 3 Available commands Main Show the main interface form About Show the version of the AVEVA Pipe Stress Interface Rohr2 Page 5 AV VA 2 The Main Form Export Export geometry and material to Rohr2 Switches back to the Export frame Export Support Value Displacement Setti Displacement Switches to i ii Displacement frame in order to create a 3D model for each loading case defined in Rohr2 result file This List Pipes 3D model consists of Nozzles that MQ0 A 15 84 show the displacement of the pipe MO0 A 18 84 system It can be displayed together M00 B 1 B4 with the original pipe system M00 8 1 82 100 B 1 B3 Support Value Switches to 100 B 1 B4 Support Value It transfer data of peur 8 pipe supports calculated by Rohr2 to 100 B 1 86 the attributes of the 3D model 00 B 1 PS_01 00146 elements 00 B 1 PS 01 00203 Settings Opens the settings form to ai a l 100 8 1 PS 01 00205 configure the data transfer between 100 B 1 PS 01 00206 AVEVA DESIGN PRODUCTS and 100 8 16 81 Rohr M00 8 17 81 Help Opens this documentation oo Ls ne 100 8 2 B1 100 8 2 B2 100 8 2 B3 100 8 2 B4 Tasks Add CE Load Pipe List Add Network Save Pipe List Remove
24. tions Vector of bracing direction Max angular movement deg Max axial movement Max lateral movement Tasks Load Settings File Save To File 3 2 5 Hanger Supports TabHS uama The AVEVA DESIGN PRODUCTS elements ATTA SHU MDS Atta can OrderDesc General Pipe Components Exp Joints HS be used for hanger or support points aia aii Default value is the Attachment e point PDMS elements ATTA Name Attachment points are only E E transferred to Rohr2 if the value of Default hanger type the attribute ATT type is set to HANG NULL or empty unset and additionally the value of the attribute FStatus is not set to INSULATION Both elements are provided with the UDAs USTHTYP hanger type and USTSCHTYP stress calculated hanger type Tasks The UDA USTHTYP can be used by Load Settings File the pipe designer to define a hanger Save To File type before the stress calculation Page 12 AV VA The selection is limited by the hanger types of the company Witzenmann The UDA USTSCHTYP is set by Rohr2 and contains the hanger type after the stress calculation by Rohr2 If there is an equivalent hanger type of the company Witzenmann the UDA USTHTYP will be overwritten during the import process of the Rohr2 data When transferring geometry to Rohr2 the UDA USTSCHTYP is checked for a hanger type that had already been transferred from Rohr2 In that case it would be transferred to Rohr2 a
25. vement in y direction mm value Movement in z direction mm value positive dynamic movement mm value negative dynamic movement mm USTNODENUMB 1023 Node number of the hanger point USTSRATE UU Spring rate N mm USTSTATLOAD Static load kN USTTESTLOAD Le Water test load kN 5 3 Hanger types The UDAs USTHTYP and USTSCHTYP contain abbreviations of the descriptions of the hanger constructions The UDA USTHTYP describes the design engineering whereas the UDA USTSCHTYP describes the calculated mode of operation at the hanger point The UDA USTHTYP is used to define a pre selection for the later hanger design This pre selection will be used in the software Cascade of the company Witzenmann GmbH Pforzheim Germany e g the UDA value KH will lead to a constant hanger The following table shows that there are some Rohr2 definitions with no corresponding Witzenmann hanger type none In such a case the definition must be done in the program Cascade This table gives an overview of the most common types Page 19 AV VA bein weem no a E a e a C Caa L a P P o _ o e P e e E ma O O Thrust bearing Axial stop all movements None FLAX Lateral stop Axial stop horizontal lateral None axial Thrust bearing vertical guiding in the global None FLVX X axis Thrust bearing vertical guiding in the global None FLVY y axis None FLVZ Thrust bearing vertical guiding in the g
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