Applies To Product(s): AutoPIPE, Version(s): 2004, XM, & V8i Environment: N/A Area: General Subarea: Original Author: Bentley Technical Support Group Problem: What piping codes are available in AutoPIPE? Answer: The list is constantly being updated. In order to know what piping codes are available in a specific version of the applicaiton, please see the following AutoPIPE help section in your version: 1. Help > Contents> Contents Tab> Reference Information> Code Compliance Calculations> 2. Help > Contents> Contents Tab> Getting Started> Revision History Or 3. See the program's Release Notes There are over 20+ Piping codes available in AutoPIPE: ASEM B31.1 Power Piping ASME B31.3 Process Piping ASME B31.4 & Chpater IX Liquid Transportation Systems for Hydro-carbons, Liquid Petroleum Gas, Anhydrous Ammonia, & Alcohols Offshore Liquid Piping Systems ASME B31.8 & Chapter VIII Gas Transmission & Distribution Piping Systems Offshore Gas Transmission ASME B31G Manual for Determining the Remaining Strength of Corroded Pipelines ASME BPV-III-1-NB, NC, & ND Boiler & Pressure Vessel Code, Rules for Construction of Nuclear Power Plant Components Division 1, Subsection NB, Class 1, 2, & 3 Components JSME S NC1-PPC Rules on Design and Construction for Nuclear Power Plants, Class 2 Piping BS806 Design and Construction of Ferrous Piping Installations For and In Connection with Land Boilers SPC Swedish Piping Code, Code for Piping in Stationary Plants (Stress Analysis - Method 2) TBK5-6 Norwegian Pressure Vessel Committee, General Rules for Piping Systems STOOMWEZEN (D1101) Dutch Piping Rule D1101 of the Rules for Pressure Vessels CAN/CSA-Z662 & section 11 Canadian Standards Association, Oil and Gas Pipeline Systems Canadian Standards Association, Offshore Steel Pipelines DNV enhancements for AutoPIPE Norwegian Piping Code, Rules for Submarine Pipeline Systems MITI501 Technical Standards for Construction of Nuclear Power Plant Components - MITI Notification No. 501 KHK Level 1 & 2 KHK E 012 Japanese Piping Code for Seismic Loads, Level 1 & 2 EN13480 EN 13480 European Standard for Metallic Industrial Piping RCC-M French Piping Code SNCT French Piping Code SNiP Russian Trunk Pipelines Code BS7159 Design and Construction of Glass Reinforced Plastics (GRP) Piping Systems for Individual Plants or Sites ISO 14692 Petroleum and Natural Gas Industries, Glass-Reinforced Plastics (GRP) Piping General General Piping Code Note: As mentioned, this list will vary between different versions of the program. See Also Bentley AutoPIPE External Links Bentley Technical Support KnowledgeBase Bentley LEARN Server Comments or Corrections? Bentley's Technical Support Group requests that you please submit any comments you have on this Wiki article to the "Comments" area below. THANK YOU!
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Wiki Page: What piping codes are available in AutoPIPE?
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Wiki Page: Piping codes - AutoPIPE
Applies To Product(s): AutoPIPE, Version(s): 2004, XM, & V8i Environment: N/A Area: codes Subarea: Original Author: Bentley Technical Support Group Comments, Questions, and Answers about AutoPIPE's Piping codes: What piping codes are available in AutoPIPE? What Piping codes are available in AutoPIPE Standard, Plus, or Nuclear? How to update AutoPIPE with a new piping code or a new Code Compliance Calculations? Enhancement request for Piping Code Piping Code Calculations See Also Bentley AutoPIPE External Links Bentley Technical Support KnowledgeBase Bentley LEARN Server Comments or Corrections? Bentley's Technical Support Group requests that you please submit any comments you have on this Wiki article to the "Comments" area below. THANK YOU!
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Wiki Page: W2143-121 Sc > 20 ksi (138 MPa). In calculation Sc will be set to 20 ksi (138 MPa) for expansion allow for pipe(s) in AutoPIPE
Applies To Product(s): AutoPIPE, Version(s): 2004, XM, & V8i Environment: N/A Area: Subarea: Original Author: Bentley Technical Support Group Problem: The following is displayed when performing a model consistency check report: * * * W A R N I N G - MODEL * * * W2143-121 Sc > 20 ksi (138 MPa). In calculation Sc will be set to 20 ksi (138 MPa) for expansion allow for pipe(s) Why is that and how to Avoid it? Answer: As stated in the warning message a value of Sc in the one of the Pipe Properties is >20 ksi (138 MPa). So long as the value is larger than that mentioned the warning will be displayed. In general, this has to do with a clause in the code that limits Sc to 20 ksi if Su > 70 ksi (480- MPa) . Note: if using ASME B31.3 Piping code, see the code definitions of Sc for more details on why this warning is applied in AutoPIPE. Avoidance : Option #1 - Accept the warning and let the application automatically change Sc as mentioned to correctly calculate the allowable. OR Option #2 - Physically change the value(s) of the all the affected Pipe Property so that Sc < 20 ksi (138 MPa). then the warning message will disappear. OR Option#3: - Manually set the allowable for the specific code combination on the Load Combination dialog: 1- Uncheck Auto Update 2- Manually change from "Automatic" to (enter a valid value). See Also Bentley AutoPIPE External Links Bentley Technical Support KnowledgeBase Bentley LEARN Server Comments or Corrections? Bentley's Technical Support Group requests that you please submit any comments you have on this Wiki article to the "Comments" area below. THANK YOU!
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Wiki Page: W2143-123 Sh > 20 ksi (138 MPa). In calculation Sh will be set to 20 ksi (138 MPa) for expansion allow at following point(s)in AutoPIPE
Applies To Product(s): AutoPIPE, Version(s): 2004, XM, & V8i Environment: N/A Area: Warning Subarea: Original Author: Bentley Technical Support Group Problem: The following is displayed when performing a model consistency check report: * * * W A R N I N G - MODEL * * * W2143-123 Sh > 20 ksi (138 MPa). In calculation Sh will be set to 20 ksi (138 MPa) for expansion allow at following point(s) Why is that and how to Avoid it? Answer: As stated in the warning message a value of Sh in the one of the Pipe Properties is >20 ksi (138 MPa). So long as the value is larger than that mentioned the warning will be displayed. In general, this has to do with a clause in the code that limits Sh to 20 ksi if Su > 70 ksi (480- MPa) . Note: if using ASME B31.3 Piping code, see the code definitions of Sh for more details on why this warning is applied in AutoPIPE. Avoidance : Option #1 - Accept the warning and let the application automatically change Sc as mentioned to correctly calculate the allowable. OR Option #2 - Physically change the value(s) of the all the affected Pipe Property so that Sh < 20 ksi (138 MPa). then the warning message will disappear. OR Option #3 - Manually set the allowable for the specific code combination on the Load Combination dialog: 1- Un-check Auto Update 2- Manually change from "Automatic" to (enter a valid value). See Also Bentley AutoPIPE External Links Bentley Technical Support KnowledgeBase Bentley LEARN Server Comments or Corrections? Bentley's Technical Support Group requests that you please submit any comments you have on this Wiki article to the "Comments" area below. THANK YOU!
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Wiki Page: 02. why is the computed ASME B31.3 allowable displacement stress range different in my AutoPIPE Model?
Applies To Product(s): AutoPIPE, Version(s): 2004, XM, & V8i Environment: N/A Area: Subarea: Original Author: Bentley Technical Support Group Dec 2014, AutoPIPE V8i 09.06.01.10 Problem: I understand the value for the allowable displacement stress range within ASME b31.3 to be sa = f(1.25sc + 0.25sh). if my piping has the same high temperature 640c everywhere, and the same ambient temperature 20c everywhere, why is the computed allowable displacement stress range (allowable expansion stress value) different along the pipe? Answer: There are 3 things that would control the displacement stress allowable: 1. Tools> Model Options> Results> Sustain Margin (Y/N/E) note: See AutoPIPE online help for information on this feature. 2. From the Model Consistency check report the following warnings are displayed: W2143-121 Sc > 20 ksi (138 MPa). In calculation Sc will be set to 20 ksi (138 MPa) for expansion allow for pipe(s) or W2143-123 Sh > 20 ksi (138 MPa). In calculation Sh will be set to 20 ksi (138 MPa) for expansion allow at following point(s) 3. Different material properties - confirm same material properties are being used for piping to have the same allowable calculation. See Also Bentley AutoPIPE External Links Bentley Technical Support KnowledgeBase Bentley LEARN Server Comments or Corrections? Bentley's Technical Support Group requests that you please submit any comments you have on this Wiki article to the "Comments" area below. THANK YOU!
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Wiki Page: Piping Code Calculations - AutoPIPE
Applies To Product(s): AutoPIPE, Version(s): 2004, XM, & V8i Environment: N/A Area: Subarea: Original Author: Bentley Technical Support Group Item #1, Comment: Be sure to review the following AutoPIPE online help information: Help > Contents> Contents Tab> Reference Information> Code Compliance Calculations> This area describes variables, equations, and methodology used by AutoPIPE to produce output reports per the code associated with the piping system database. AutoPIPE is capable of generating actual and allowable stresses for each of the applicable stress categories (depending on the current, analyzed load cases) for all codes listed below. Please Note: The Standard edition only has access to 4 ASME codes and European code EN13480 as shown in the Getting Started topic "AutoPIPE Standard vs Advanced vs Nuclear". Select the Piping code hyperlink below for general questions about the code's calculations. Note: 1. additional hyper links are added as new information is presented. 2. Allowable values are calculated based on code requirements. See the online help location mentioned above for details. Example: Allowable calculation for ASME B31.1 (2012), "Stresses Due to Sustained Loads" category. Please see the following AutoPIPE help section: Help > Contents> Contents Tab> Reference Information> Code Compliance Calculations> ASME B31.1 (2012)> Stresses Due to Sustained Loads> Read the information, the allowable calculation is mentioned in the write-up. "AutoPIPE reports sL, and the allowable stress (SH) ." The allowable calculation for this category is ( SH ). In addition, other settings under Tools> Model Options> Results may affect the allowable calculations (i.e. Sustain Margin (Y/N/E), etc..) ASME B31.1 Power Piping ASME B31.3 Process Piping ASME B31.4 Liquid Transportation Systems for Hydro-carbons, Liquid Petroleum Gas, Anhydrous Ammonia, & Alcohols ASME B31.8 Gas Transmission & Distribution Piping Systems ASME B31.4 Chapter IX Offshore Liquid Piping Systems ASME B31.8 Chapter VIII Offshore Gas Transmission ASME BPV-III-1-NB Boiler & Pressure Vessel Code, Rules for Construction of Nuclear Power Plant Components Division 1, Subsection NB, Class 1 Components ASME BPV-III-1-NC Boiler & Pressure Vessel Code, Rules for Construction of Nuclear Power Plant Components Division 1, Subsection NC, Class 2 Components ASME BPV-III-1-ND Boiler & Pressure Vessel Code, Rules for Construction of Nuclear Power Plant Components Division 1, Subsection ND, Class 3 Components JSME S NC1-PPC Rules on Design and Construction for Nuclear Power Plants, Class 2 Piping BS806 Design and Construction of Ferrous Piping Installations For and In Connection with Land Boilers SPC Swedish Piping Code, Code for Piping in Stationary Plants (Stress Analysis - Method 2) TBK5-6 Norwegian Pressure Vessel Committee, General Rules for Piping Systems STOOMWEZEN (D1101) Dutch Piping Rule D1101 of the Rules for Pressure Vessels CAN/CSA-Z662 Canadian Standards Association, Oil and Gas Pipeline Systems DNV Norwegian Piping Code, Rules for Submarine Pipeline Systems MITI501 Technical Standards for Construction of Nuclear Power Plant Components - MITI Notification No. 501 KHK Level 1 KHK E 012 Japanese Piping Code for Seismic Loads, Level 1 KHKLevel 2 KHK E 012 Japanese Piping Code for Seismic Loads, Level 2 EN13480 EN 13480 European Standard for Metallic Industrial Piping RCC-M French Piping Code SNCT French Piping Code SNiP Russian Trunk Pipelines Code BS7159 Design and Construction of Glass Reinforced Plastics (GRP) Piping Systems for Individual Plants or Sites ISO 14692 Petroleum and Natural Gas Industries, Glass-Reinforced Plastics (GRP) Piping General General Piping Code Item #2, Question: Why does AutoPIPE ignore axial force in most of the code equations? Answer: Confirm the model is considering axial force, as this option by default is turned OFF. See Tool> Model Options> Results> "Include axial force" option Excerpt from online help: The piping codes ignore the effect of axial force for calculating stresses in the sustained and occasional categories (only bending moments are considered, see Code Compliance Calculations). This option has been provided to allow the inclusion of axial force effects. By default this option is unchecked.... See online help for more information on this option. Item #3, Question Our Project Design Specification calls for ASME II 2010 for Material and ASME III 2007 with 2008 addenda for Rules for construction of nuclear facility components. However, there is no exact selection of ASME III Code year within AutoPIPE. Please advise the appropriated setup for ASME III Nx Stress analyses with above described Code year. Answer: AutoPIPE V8i 09.06.xx.xx and lower has the following nuclear codes for selection: ASME BPV-III-1-NB (1972 - 2007) Boiler & Pressure Vessel Code, Rules for Construction of Nuclear Power Plant Components Division 1, Subsection NB, Class 1 Components (1972 + 1972 W addenda, 1974 + 1975 W addenda, 1977, 1980 + 1982 W addenda, 1983 + 1983 W addenda, 1986 + 1988 addenda, 1989, 1989 + 1989 addenda, 1992 + 1994 addenda, 1995 + 1997 addenda, 1998, 2001, 2004, and 2007) ASME BPV-III-1-NC (1972 - 2007) Boiler & Pressure Vessel Code, Rules for Construction of Nuclear Power Plant Components Division 1, Subsection NC, Class 2 Components (1972 + 1972 W addenda, 1974 + 1975 W addenda, 1977, 1980 + 1980 S addenda, 1983 + 1983 W addenda, 1986 + 1988 addenda, 1989, 1989 + 1989 addenda, 1992 + 1994 addenda, 1995 + 1997 addenda, 1998, 2001, 2001 + 2003 addenda, 2004 and 2007) ASME BPV-III-1-ND (1972 - 2007) Boiler & Pressure Vessel Code, Rules for Construction of Nuclear Power Plant Components Division 1, Subsection ND, Class 3 Components (1972 + 1972 W addenda, 1974 + 1975 W addenda, 1977, 1980 + 1980 S addenda, 1983 + 1983 W addenda, 1986 + 1988 addenda, 1989, 1989 + 1989 addenda, 1992 + 1994 addenda, 1995 + 1997 addenda, 1998, 2001, 2001 + 2003 addenda, 2004 and 2007) As you can see there is currently no 2007 + 2008 addenda edition. This enhancement has already been logged under CAE-CR-6978: "Update ASME NB NC and ND code to 2008 addenda" and will be included in a future build of the application. Please review the code as there is not much difference between 2007 release. With regards to which code to select from the Tools> Model options> General> Piping code> drop down listing, due to liability law suits Bentley TSG is not at liberty to dictate what piping code / year should be used in your model. That is for you to determine. Recommend reviewing the possibility of using ASME NB, NC, or ND piping code. Most of the material data in the libraries associated with the Nuclear Piping codes has come from ASME BPV-III. Please see the online help for details of what code year. Help > Contents> Search Tab> enter "BPV-III" (include the quotes), press List Topics button, double click on the selected topic from the list provided to see more information. Item #4, Question: What piping codes should be used for offshore design? Answer: Consider using one of the following piping codes: ASME B31.4 - Chapter IX, Offshore Liquid Pipeline Systems ASME B31.8 - Chapter VIII, Offshore Gas Transmission Z662-07 - Oil and Gas Pipeline Systems DNV-OS-F101 - Submarine Pipeline Systems Item #5, Question: What is the accuracy rating for results in AutoPIPE compared to hand calculated values? Answer: Bentley AutoPIPE's accuracy has always been and will continue to be no more than 2% error. As mentioned in our ATS documentation: "The numerical results of the AutoPIPE Acceptance Test Set shall be within the acceptance criteria of nominally 2%, unless otherwise noted. Numerical results generated by other editions, or run under differing operating environments, are also expected to be within the same acceptance criteria (nominally 2%, unless otherwise noted). Therefore, edition specific output comparison files will not be provided." See Also Bentley AutoPIPE External Links Bentley Technical Support KnowledgeBase Bentley LEARN Server Comments or Corrections? Bentley's Technical Support Group requests that you please submit any comments you have on this Wiki article to the "Comments" area below. THANK YOU! Stresses Due to Sustained Loads
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Comment on Would you like to be a beta tester for AutoPIPE?
Hi. I'd like to be a Beta tester. mkelleher@bihl.com. Thanks.
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Comment on Model Plastic Pipe in AutoPIPE
Hi, I'm looking into modelling some ABS piping, for the allowable stress (using ASME B31.3) would you recommend using 0.32 x HDS x Temp De-Rating or base the allowable stress of the pipe on manufacturers allowable span/deflection limits (as per COADE Mechanical Engineering News April 1991/Ulu Pandan Stress Analysis Report - MF Feed System)? Thanks in advance.
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Blog Post: AutoPIPE Vessel CAD Interface: Fabrication Drawing and 3D Model Generation
Is your organization concerned about reducing engineering hours and costs? Attend a live webinar to learn how the AutoPIPE Vessel CAD Interface can help you meet your goals. Key Points: See real world examples of using AutoPIPE Vessel to streamline static equipment design and engineering workflow Learn how to automatically generate detailed fabrication drawings and 3D models in AutoCAD, MicroStation and SolidWorks with click of a button Observe creation of custom title blocks, drawing sheet templates and integration with Intergraph PDS Schedule & Registration: North America (February 17, 2015) - http://pages.info.bentley.com/event-details-ae/?Webinar=CO_ESEM_AUTOPVS_NA_02_15&eventGUID=be494fbd-a8a0-4422-acc3-a878ec5c7299 Europe, Middle East & Africa (February 18, 2015) - http://pages.info.bentley.com/event-details-ae/?Webinar=CO_ESEM_AUTOPVS_EM_02_15&eventGUID=424d8a05-4450-46f4-ab0d-06aaf4ef4689 Asia Pacific (February 19, 2015) - http://pages.info.bentley.com/event-details-ae/?Webinar=CO_ESEM_AUTOPVS_AP_02_15&eventGUID=550a0cb6-f6b9-4939-8d08-6f6ef350e85b
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Comment on Would you like to be a beta tester for AutoPIPE?
Hi, Please add jesus.m.colon@jacobs.com to the list of BETA Testers! Thanks.
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Comment on Would you like to be a beta tester for AutoPIPE?
Count me in: olufemi.agunbiade@honeywell.com
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Wiki Page: "No Piping with OD >= 1.400 inches is found in PXF file" error message displayed in AutoPIPE
Applies To Product(s): AutoPIPE, Version(s): 2004, XM, & V8i Environment: N/A Area: Import Subarea: Original Author: Bentley Technical Support Group Problem: The following error message is displayed when importing a modeling into AutoPIPE: --------------------------- Error --------------------------- No Piping with OD >= 1.400 inches is found in PXF file --------------------------- OK --------------------------- How to resolve the issue? Answer: When importing a PXF file into AutoPIPE, after selecting the General Model Options, there are a series of options available to the user on the following dialog, If the import is successful, the following is displayed: Select Yes to review the warning messages, the following *.MSG file are displayed: As can be seen above, there are additional settings available that control the importing PXF file, in particular ignoring (not importing) all pipes whose Outside Diameter is less than 1.40 inches (as seen above). These settings can be viewed / updated in the CADAP.MAP file (located int he AutoPIPE program folder). This file can be opened by any text editing application, (NotePAD, MS WORD, Ultra Edit, etc..). First close AutoPIPE, using a text editing application, open the CADAP.MAP file for edit, scroll down to line 73, scan over the right, see the original setting = '1.40', update the value using the EXACT same format = '0.00' (see below). Save the file, Restart AutoPIPE, and Re-import the AutoPLANT PXF file to use the new CADAP.MAP settings. Note: 1. Details on this file can be found in the following AutoPIPE help section: Help > Contents> Contents Tab> Reference Information> CAD / CAE Translators> AutoPLANT to AutoPIPE> PXF Import Options 2. Open the PXF file created by Openplant in any text editor. scan the file for any lines that start with "2041", followed by some number. Example: Definitions: 2040 = Main size (nominal) 2041 = Main size (outside diameter) IF the model imported is using mix-metric units, line 2041 should be the metric equivalent of the pipe OD or a little bigger than Line 2040 (nominal dia.) size. As seen above the metric equivalent of 6.00 inches = 152.4 mm, so line 2041 should be greater than 152.4mm which it is clearly not (20.2mm). There is a known issue with creating the PXF file in OpenPlant that has been logged. In the meantime, the workaround is to reduce the "IGNORE OUTER DIAMETER (inches) LESS THAN" value from 1.40 to 0.00 as shown above. Doing so will import the model where AutoPIPE will correct the OD size automatically based on the information entered on line 2040. See Also Bentley AutoPIPE External Links Bentley Technical Support KnowledgeBase Bentley LEARN Server Comments or Corrections? Bentley's Technical Support Group requests that you please submit any comments you have on this Wiki article to the "Comments" area below. THANK YOU! PXF Import Options
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Wiki Page: E512-65: the model cannot be opened
Applies To Product(s): AutoPIPE, Version(s): 2004, XM, & V8i Environment: N/A Area: Import Subarea: Original Author: Bentley Technical Support Group Problem The following is displayed while importing a file or opening the program: E512-65: the model cannot be opened as temporary directory cannot be set Solution: This error is typically caused by one the following reasons: Reason #1: The AutoPIPE program can only handle model path names with ASCII character set and does not support double byte unicode characters or Kanji characters in model path. In some earlier versions of AutoPIPE the program allowed the model to be opened if the model path has some non ASCII character, but many people reported the program of being unstable. The application would c rash on consistency check, analysis, or any report generation as soon as the commands were executed. Therefore, AutoPIPE V8i 09.02.xx.xx and higher now blocks opening such a model and display the error message shown above (i.e. E512-65...). Avoidance: only use ASCII characters in the file-path name. Reason #2: An issue with permissions on a file server can also cause problems. Avoidance: Confirm that the AutoPIPE user has read / write privileges to folders outside of C:\Program Files, ex. %temp% folder, C:\Bentley folder and sub-folders, etc.. In addition, users should have admin / power user permission rights to their own computer. Reason #3: The network server where the model is stored is operating a a slow speed. Symptoms: repeatedly opening the model the first 2x results in the error message but on the 3rd or more number of tries to open the model it opens without the error message. Avoidance: Move the model from the server location to the local hard drive, work on the model and when finished move the final model back to the network server. Also, ask your IT department to use network monitoring tools to better understand the problem and how best to fix it. Reason #4: This message may also appears when the path to model is too long. Avoidance: For AutoPIPE 9.4 and higher, make sure that the file path is shorter than 256 characters. Reason #5: Antivirus / Malware software is not correctly set up to exclude AutoPIPE file from being scanned. Example: user with Anti-Virus software called "FireAMP" installed needed to request IT department to add AutoPIPE and ProjectWise to list of working directories that are to be excluded from this application's scan functions. See Also Bentley AutoPIPE External Links Bentley Technical Support KnowledgeBase Bentley LEARN Server Comments or Corrections? Bentley's Technical Support Group requests that you please submit any comments you have on this Wiki article to the "Comments" area below. THANK YOU!
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Forum Post: Are there any schedules for including european code EN-14015 for Tank design?
Hi, In AutoPIPE Vessel there is implemented code API-650 for storage tank design. Are there any plans to implement also the european code EN 14015? BS EN 14015:2004Specification for the design and manufacture of site built, vertical, cylindrical, flat-bottomed, above ground, welded, steel tanks for the storage of liquids at ambient temperature and above. Executive summary Requirements for the design, manufacture and inspection of steel tanks for the storage of liquids at ambient temperature and above. Abstract This European Standard specifies the requirements for the materials, design, fabrication, erection, testing and inspection of site built, vertical, cylindrical, flat bottomed, above ground, welded, steel tanks for the storage of liquids at ambient temperatures and above, and the technical agreements that need to be reached. This standard is concerned with the structural integrity of the basic tank structure and does not provide requirements for considering process design, operational issues, safety and firefighting facilities, in-service inspection, maintenance or repair. This standard applies to closed-top tanks, with and without internal floating covers and open-top tanks, with and without floating roofs. It does not apply to 'lift-type' gas holders. It is also applicable to steel tanks with a maximum design strength of 60 N/mm2. This standard does not apply to tanks where the product is refrigerated to maintain it as a liquid at atmospheric pressure. This standard applies to storage tanks with the following characteristics: a) design pressure less than 500 mbar and design internal negative pressure not lower than 20 mbar; b) design metal temperature not lower than -40 degrees C and not higher than +300 degrees C; c) maximum design liquid level not higher than the top of the cylindrical shell. The limits of application of this Standard terminate at the following locations. - face of the first flange in a bolted flange connection; - first threaded joint on the pipe or coupling outside of the tank shell, roof or bottom; - first circumferential joint in a pipe not having a flange connection. History and related standards This European Standard supersedes BS 2654:1989 which is withdrawn. This Standard includes the following cross-references: EN 287-1:2004, EN 288-2, EN 444, EN 462-1, EN 462-2, EN 473, EN 485 (all parts), EN 499, EN 571-1, EN 754 (all parts), EN 755 (all parts), EN 970, EN 1092-1, EN 1290, EN 1418, EN 1435, EN 1593, EN 1600, EN 1714, prEN 1759-1:2000, EN 1991-1-3:2003, EN 10025:1992, EN 10028-2: 1993, EN 10028-3:1993, EN 10029:1991, EN 10045-1, EN 10088-1, EN 10088-2:1995, EN 10088-3:1995, EN 10113-2:1993, EN 10113-3:1993, EN 10204: 2004, EN 10210-1:1994, EN 10216-1, EN 10216-2, EN 10216-3, EN 10216-5, EN 10217-1, EN 10217-2, EN 10217-3, EN 10217-5, prEN 10217-7, EN 10222 (all parts), EN 10250 (all parts), EN 12874, ENV 1991-2-1, ENV 1993-1-1, ENV 1993-4-2, EN ISO 4063, EN ISO 6520-1, EN ISO 14122-1, EN ISO 14122-2, EN ISO 14122-3, EN ISO 14122-4, EN ISO 15607:2003 and EN ISO 15614-1:2004.
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Wiki Page: Bentley AutoPIPE - Japanese version
Applies To Product(s): AutoPIPE, Version(s): 2004, XM, & V8i Environment: N/A Area: Localization Subarea: Original Author: Bentley Technical Support Group Topics under the heading should be based on Bentley AutoPIPE - Japanese version AutoPIPE version available in this language: AutoPIPE V8i SS5 09.06.01.11 released January 27, 2015 Product Name: Bentley AutoPIPE V8i Version Number: 09.06.01.11 Application Group: SELECT Released Products Language: Japanese Solution: Pipe Stress Analysis Operating Systems: Windows 7 Windows 7 x64 Windows 8 Windows 8 x64 More information about this request is available by clicking on the following link. README AutoPIPE V8i SS4 09.05.01 released September 26, 2013 Product Name: Bentley AutoPIPE V8i Install Guide - Japanese Version Number : 09.05.01.05 Application Group: SELECT Documentation &Tutorials Language : Japanese Solution: Pipe Stress Analysis Operating Systems: Windows XP Windows Vista Windows Vista x64 Windows XP x64 Windows 7 Windows 7 x64 More information about this request is available by clicking on the following link: README AutoPIPE V8i SS4 09.05.01.02 released July 23, 2013 Product Name: Bentley AutoPIPE V8i Install Guide - Japanese Version Number: 09.05.01.02 Application Group: SELECT Documentation & Tutorials Language: Japanese Solution: Pipe Stress Analysis Operating Systems: Windows XP Windows Vista Windows Vista x64 Windows XP x64 Windows 7 Windows 7 x64 AutoPIPE V8i SS2 09.04.00 released June 15, 2012
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Forum Post: RE: Are there any schedules for including european code EN-14015 for Tank design?
We have not had many requests for this code, but we now have it on our backlog and we will prioritize it and get the enhancement added as soon as we can.
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Wiki Page: 02e. "Hydrotest" - AutoPIPE Load Case
Applies To Product(s): AutoPIPE, Version(s): 2004, XM, & V8i Environment: N/A Area: Loads Subarea: Original Author: Bentley Technical Support Group The Load> Hydrotest command enables the user to define the hydrotest conditions of a piping system. A hydrotest is a common method for testing the integrity of a piping system before it is put into service. In this test, the piping system is filled with pressurized water and checked for leakage, etc. The Hydrotest option permits a simulation of this scenario. Please note that the AutoPIPE Hydrotest option automatically converts all spring hangers into rigid supports to simulate the holding pin which is still in the spring hanger during the hydrotest. Comments, Questions, and Answers Item #1: Why are my V-stops not allowing lateral movement during a Hydrotest load case? Item #2: Is there a method to perform a Hydrotest as a non-linear analysis? Item #3: Why does the Hydrotest case show an Allowable K Factor of 0.9? Item #4: Why are my Hydrotest results so high? Item # 5: H ow to apply the Hydrotest load and analyse it in the new version of AutoPIPE V8i 09.06.01.10? See Also Bentley AutoPIPE External Links Bentley Technical Support KnowledgeBase Bentley LEARN Server Comments or Corrections? Bentley's Technical Support Group requests that you please submit any comments you have on this Wiki article to the "Comments" area below. THANK YOU!
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Wiki Page: 02. Is there a method to perform a Hydrotest as a non-linear analysis in AutoPIPE?
Applies To Product(s): AutoPIPE, Version(s): 2004, XM, & V8i Environment: N/A Area: Subarea: Original Author: Bentley Technical Support Group Dec 2014, AutoPIPE V8i 09.06.01.10 Problem: Is there a method to perform a Hydrotest as a non-linear analysis? Answer: Please see the following AutoPIPE help section: Help > Contents> Search Tab> enter "Hydrotest Loads" (include the quotes), press List Topics button, double click on the selected topic from the list provided to see more information. Note: use Non-linear analysis method of calculating stress in the model if the hydrotest load-case is to be analyzed while considering support Gaps, modeled Friction, and/or Soil properties. Otherwise, use Linear analysis method if gaps, friction, and /or soil settings are to be ignored during the stress analysis. See Also Bentley AutoPIPE External Links Bentley Technical Support KnowledgeBase Bentley LEARN Server Comments or Corrections? Bentley's Technical Support Group requests that you please submit any comments you have on this Wiki article to the "Comments" area below. THANK YOU!
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Wiki Page: E801-135: Number of analysis nodes exceeds maximum limit of 10000 nodes
Applies To Product(s): AutoPIPE, Version(s): 2004, XM, & V8i Environment: N/A Area: error Subarea: Original Author: Bentley Technical Support Group Problem: What is the node limit in AutoPIPE or the following appears: E801-135: Number of analysis nodes exceeds maximum limit of 10000 nodes Answer: AutoPIPE has always had a limit of 10,000 node points per model. The application has been known to crash and analysis results are not trustworthy in models above this limit. The CAE development team has add the following enhancement: CAE-CR-8795: Block analysis if number of analysis points is greater than 10000 System should block the analysis if total number of points (piping points+ soil points + frame nodes) is greater than 10,000. Program should also issue a warning to the user to reduce total number of points before proceeding with analysis. Avoidance: Reduce total number of points to less than 10,000. You can view the total number of pipe points in a model, Tools> Model input listing> only check "Extended Component" sub report, press OK button, near the very bottom of the report is "Number of points in the system:". This number does not include the center point for bends, Beam points, or all added soil points. ++++++++++++++++++++++++++++++++++++++++++++ Note: The total number of points in a model is not a one-to-one relationship with the model points. At tees, bends, and supports, for example, AutoPIPE generates results on each side of the point, i.e. accounts for 2 pipe points. Therefore if the total number of points (piping points + soil points + frame node points) is greater than 10,000. Program should issue a warning to the user to reduce total number of points before proceeding with analysis. ++++++++++++++++++++++++++++++++++++++++++++ Another enhancement has been added to increase the number of internal node points allowed, logged under: a. TFS-E114791: CAE-CR-6288: Increase allowable number of internal data points (10,000 to 100,000) in AutoPIPE Description: Increasing allowable number of internal data points in AutoPIPE from 10,000 to 100,000 would allow the copy/paste function to be used with larger models. Corrected Version: 9.7 project, due June-July 2015 b. CAE-CR-2347,nodenames > 4 characters Description: increase node names >4 characters The issues have been logged and to be added in a future version of the application. If you are interested in knowing which version & when, please log a service ticket referencing the CAE number above. See Also Bentley AutoPIPE External Links Bentley Technical Support KnowledgeBase Bentley LEARN Server Comments or Corrections? Bentley's Technical Support Group requests that you please submit any comments you have on this Wiki article to the "Comments" area below. THANK YOU!
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Wiki Page: AutoPIPE Enhancements, Error Reports, and Wish List
Applies To Product(s): AutoPIPE, Version(s): 2004, XM, & V8i Environment: N/A Area: Enhancements Subarea: Original Author: Bentley Technical Support Group What AutoPIE enhancements have already been logged and which ones are on your most wanted enhancements to be added to the next version of AutoPIPE: AutoPIPE Enhancements Logged AutoPIPE's Most Wanted AutoPIPE Error Reports See Also Bentley AutoPIPE External Links Bentley Technical Support KnowledgeBase Bentley LEARN Server Comments or Corrections? Bentley's Technical Support Group requests that you please submit any comments you have on this Wiki article to the "Comments" area below. THANK YOU!
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