Applies To Product(s): AutoPIPE, Version(s): 2004, XM, & V8i Environment: N/A Area: Enhancements Subarea: Original Author: Bentley Technical Support Group Note: if an enhancement has not been added to the program, log an Service request for that enhancement. The more requests logged per an enhancement, the quicker the CAE development team will add that feature to the program. Select one of the following piping codes to see the enhancements that have been logged for inclusion into a future version of 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 B31.5 Refrigeration Piping and Heat Transfer Components 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 EN1991 EN 1991: Actions on structures 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 CSA 289 Canadian Standards Association, General Requirements for Seismic Qualification of CANDU Nuclear Power Plants BSI PD8010 British Standards Institution PD 8010-1: Code of practice for pipelines - Part 1: Steel pipelines on land PD 8010-2: Code of practice for pipelines - Part 2: Subsea pipelines PD 8010-3: Code of practice for pipelines - Part 3: Guide to application of pipeline risk PD 8010-4: Code of practice for pipelines - Part 4: Code of practice for integrity management PD 8010-5: Code of practice for pipelines - Part 5: GUIDE TO OPERATIONALPRACTICE CAE-CR-3582: Apply 2 or more piping codes in the same calculation Fixed version: TBD Workaround: Suggest analyzing the model or creating multiple models each one using a different piping code. Then select, review, and print the output for just the applicable run of pipe per the required code. Example, run analysis using ASME NB Nuclear piping code, select the node points that must be analyzed per ASME NB code, create an output report "Limit results to highlighted points", and repeat above steps after selecting a different piping code, etc... 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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