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Piping Data Specification StandardDocumentPageIssue DateEngineeringTFC-ENG-STD-47, REV A-01 of 72September 28, 2017USQ #17-1414-DOwnership MatrixClick for copy of Word (native) fileTABLE OF CONTENTS1.02.03.04.05.0PURPOSE AND SCOPE . 2IMPLEMENTATION . 2STANDARD . 33.1General Requirements. 33.2General Design Criteria . 33.3Other Piping Design Criteria . 43.4Piping Data Specification Sheets . 4DEFINITIONS . 5SOURCES . 55.1Requirements . 55.2References. 5TABLE OF ATTACHMENTSATTACHMENT A – PIPING DATA SPECIFICATION SHEETS . 7ATTACHMENT B – PIPING DATA SPECIFICATION LISTING BY FACILITY . 66ATTACHMENT C – PIPE CLASS CROSSWALK . 72

Piping Data Specification Standard1.0DocumentPageIssue DateEngineeringTFC-ENG-STD-47, REV A-02 of 72September 28, 2017PURPOSE AND SCOPEThis standard provides requirements for piping system design and material selection for facilitieswithin the scope of the Tank Operations Contractor (TOC) and subcontract engineers on pipingsystem design and material selection as required by the WRPS facility Contract.This standard incorporates the use of ASME B31.1, B31.3 B31.9 and American Water WorksAssociation (AWWA) Code requirements that apply to the material specifications for pipe,fittings, flanges, valves, and other associated piping components. The scope includes pipingdesign of permanent and temporary piping structures, systems, and components (SSCs) for TOCfacilities. This revision of this standard does not apply to the Effluent Treatment Facility (ETF),Low Activity Waste Pretreatment System (LAWPS) This standard provides requirements forpiping system design and material selection for facilities within the scope of the Tank OperationsContractor (TOC) and subcontract engineers on piping system design and material selection asrequired by the WRPS facility Contract.This standard incorporates the use of ASME B31.1, B31.3 B31.9 and American Water WorksAssociation (AWWA) Code requirements that apply to the material specifications for pipe,fittings, flanges, valves, and other associated piping components. The scope includes pipingdesign of permanent and temporary piping structures, systems, and components (SSCs) for TOCfacilities. This revision of this standard does not apply to the Effluent Treatment Facility, LowActivity Waste Pretreatment System, or the 222-S Laboratory.3.2, or the 222-S Laboratory.The Standard Owner will consider use of such specific requirements based on their merits fordesigning piping system. Approved deviations, clarifications, interpretations, and equivalentcodes and standards are documented in this Standard. New clarifications or requests fordeviations shall be requested from the Standard Owner and may be used once approved, prior toincorporation.2.0IMPLEMENTATIONThis standard is effective on the date shown in the header.Deviations to any requirements of this standard shall be requested from the standard owner.Piping system design projects that are started after, or do not have approved design inputsbefore1, the issue date of Revision A of this standard shall follow the applicable requirements ofthis standard and incorporate those requirements into their specifications and applicable designdocumentation.New piping system design projects that are in progress with approved design inputs (pastpreliminary design) prior to the issue date of Revision A of this standard shall continue to usetheir code of record based on the functional and operational requirements at the time the systemswere authorized for operation.Maintenance, repair, and replacement of individual minor components within existing pipingsystem shall normally follow the existing code of record for the system, according toTFC-OPS-MAINT-C-01. The WRPS Environmental organization and the Standard Owner1As determined by design input approval signatures on the Modification Traveler.

Piping Data Specification StandardDocumentPageIssue DateEngineeringTFC-ENG-STD-47, REV A-03 of 72September 28, 2017should be consulted if performing an equivalent component replacement to determine if thisstandard applies to the replacement components.Implementation of this standard is required after completion of the training phase for pipingspecifications throughout the TOC facilities ensures compliance with the current procedures andregulatory requirements.3.0STANDARDMinimum requirements are identified by SHALL statements; while design goals are identified bySHOULD statements. Design of the piping system shall comply with the government andnon-government source documents as listed in the applicable sections of this document.3.1General RequirementsThe Design Authority (DA) and Subject Matter Expert (SME) have the authority to implement agraded approach to the design input development based upon a determination of the complexityof the problem, according to TFC-ENG-DESIGN-D-55.1 and TFC-ENG-DESIGN-D-13.2. Thedecision SHALL be documented in the design documentation (e.g., Modification Traveler, ECN,etc.) with the concurrence of the appropriate subject matter experts (SMEs). The DA shouldNOT use the graded approach in a sole effort to meet schedule commitments or reduce cost.3.2General Design CriteriaThe applicable consensus codes below. 3.2.1ASME B31.1, Power PipingASME B31.3, Process PipingASME B31.9, Building Services PipingAWWA Standards C200, C206, C900.Piping Design CriteriaSelection of inappropriate codes, standards, and requirements could add to the cost of designand construction. Thus, selection of piping standards such as ASME B31.1, B31.3, and B31.9 areneeded to ensure design features are considered for meeting the safety codes.ASME B31.1 Power Piping Code applies to boiler external piping for power boilers and hightemperature, high pressure water boilers in which steam or vapor is generated at a pressuregreater than 15 psig, and high temperature water is generated at pressures exceeding 160 psig,and/or temperatures exceeding 250 F. This code includes, but is not limited to, steam, water, oil,gas, and air services. This code makes provisions to allow the use of nonmetallic piping for watersystems.The ASME B31.3, Process Piping Code applies to piping systems found in petroleum refineries,chemical, pharmaceutical, textile, paper, semiconductor, and cryogenic plants, and relatedprocessing plants and terminals. Code excludes piping systems designed with internal pressuresat or below 15 psig provided the fluid is nonflammable, nontoxic, and not damaging to humantissue and its design temperature is –20 to 366 F. The code does not apply to operation,examination inspection, testing and maintenance, or repair of piping that has been placed inservice.

Piping Data Specification StandardDocumentPageIssue DateEngineeringTFC-ENG-STD-47, REV A-04 of 72September 28, 2017ASME B31.9 Building Service Piping Code applies to piping in industrial, institutional,commercial, and public housing and multiunit residences. The code does not cover the range andsizes, pressures, and temperature covered in ASME B31.1. The minimum temperature for allservices is 0 F. The code also covers boiler external piping for steam boilers with 15 psigmaximum pressure and water-heating units with 160 psig maximum pressure and 250 Fmaximum temperature. The code pipe size is limited to 30-inch nominal pipe size and 0.5-inchwall thickness for carbon steel. Stainless-steel pipe is limited to 12-inch nominal pipe size and0.5-inch wall thickness. Thermoplastics are limited to 14-inch nominal pipe size. This codeallows the use of nonmetallic piping systems. Code only applies to non-radiological piping.AWWA Standards cover water pipe, treatment chemicals, storage facilities, valves,appurtenances, and utility management practices.3.3Other Piping Design Criteria3.3.1Process/Waste PipingASME B31.3 defines design pressure as a pressure not less than the expected maximum sustainedoperating pressure. Design temperature is defined as the maximum sustained temperature.Waste transfer primary piping systems for pumping of a double-shell tank (DST) fluids shallcomply with TFC-ENG-STD-22.Temporary waste transfer lines that employ a primary waste transfer hose encased by a secondaryhose (hose-in-hose) shall comply with TFC-ENG-STD-21.3.3.2Ventilation Piping/DuctworkRefer to TFC-ENG-STD-07 for design of ventilation systems.3.4Piping Data Specification SheetsAttachment A summarizes the requirements of this Standard; this attachment contains the PipingData Specifications sheets for various piping services and material classes. At the time of releaseof this Standard, not all piping data specifications are shown in this document.3.4.1Codes and StandardsThe applicable design codes or standards are as noted on the piping data specifications summary.Any conflicts between this document and the applicable design codes shall be brought to theattention of the WRPS piping engineering group and the facility/system design authority.Standards provide specific design criteria and rules for individual components or classes ofcomponents such as valves, flanges and fittings.3.4.2Pressure-Integrity StandardsPressure integrity standards provide performance criteria. Components designed andmanufactured to the same standards will function in an equivalent manner. For example, all

Piping Data Specification StandardDocumentPageIssue DateEngineeringTFC-ENG-STD-47, REV A-05 of 72September 28, 2017ASTM A105 Class 150 flanges, which are constructed in accordance with ASME Standard B16.5(Pipe Flanges and Flanged Fittings), have a pressure-temperature rating of 200 psig at 400 F.3.4.3Fluid ServiceFluid service is a general term concerning the application of a piping, considering thecombination of fluid properties, operating conditions, and other factors, which establish the basisfor design. The piping codes do not list hazardous substances; therefore, the designer mustidentify these potentially “challenging” streams.Refer to ASME B31.3, Appendix M for classifying fluid services.4.0DEFINITIONSNo terms or phrases unique to this standard are used.5.0SOURCES5.1Requirements5.21.ASME AG-1, “Code on Nuclear Air and Gas Treatment,” American Society ofMechanical Engineers, New York, New York.2.ASME B16.5, “Pipe Flanges and Flanged Fittings NPS ½ Through NPS 24 Metric/InchStandard.”3.ASME B31.1, “Power Piping,” American Society of Mechanical Engineers, New York,New York.4.ASME B31.3, “Process Piping,” American Society of Mechanical Engineers, New York,New York.5.ASME B31.9, “Building Services Piping,” American Society of Mechanical Engineers,New York, New York.6.AWWA C200-12, “Steel Water Pipe, 6in. and Larger.”7.AWWA C206, Standard for Field Welding of Steel Water Pipe.”8.AWWA C900, “Polyvinyl Chloride (PVC) Pressure Pipe and Fabricated Fittings, 4 in.Through 60 in.”References1.TFC-ENG-DESIGN-C-10, “Engineering Calculations.”2.TFC ENG DESIGN-C-60, “Preparation of Piping Analyses for WasteTransfer Systems.”3.TFC-ENG-DESIGN-D-13.2, “Guidance For Applying Engineering Codes And StandardsTo Design.”

Piping Data Specification StandardDocumentPageIssue DateEngineeringTFC-ENG-STD-47, REV A-06 of 72September 28, 20174.TFC-ENG-DESIGN-D-55.1, “Design Input Guide.”5.TFC-ENG-FACSUP-C-27, “Interfacing Water System Overpressure and Flow TransientProtection.”6.TFC-ENG-STD-02, “Environmental/Seasonal Requirements for TOC Systems,Structures, and Components.”7.TFC-ENG-STD-07, “Ventilation System Design Standard.”8.TFC-ENG-STD-22, “Piping, Jumpers, and Valves.”9.TFC-OPS-MAINT-C-01, “Tank Operations Contractor Work Control.”

Piping Data Specification StandardDocumentPageIssue DateEngineeringTFC-ENG-STD-47, REV A-07 of 72September 28, 2017ATTACHMENT A – PIPING DATA SPECIFICATION SHEETS(5.1.1, 5.1.2, 5.1.3, 5.1.4, 5.1.5, 5.1.6, 5.17, 5.1.8)Pipe Specification General Notes;P100 Series - Carbon Steels (A-106, etc.)P200 Series - Stainless Steels (304L/316L, etc.)P300 Series - High Alloy Steels (Inconel, Hastelloy, etc.)P400 Series - Nonferrous (Copper, Aluminum, etc.)P500 Series - Nonmetals (PVC, CPVC, PE, HDPE, etc.)P600 Series - Reinforced Thermosetting Resin Pipe (RTRP)P700 Series - Plastic Lined Carbon Steel (PVDF, ETCF, etc.)P800 Series - Non-ASME B31 Codes - AWWAP900 Series - Non-ASME B31 Codes - NFPA (Fire PS501PS506PS508PS509PS510PS905TitleStructural CodeFluid ServiceClass 150 Carbon Steel LinesClass 300 Carbon Steel Lines500 PSI Carbon Steel w/ Victaulic FlangesClass 150 Carbon Steel LinesClass 150 Carbon Steel LinesClass 150 Type 304L Stainless Steel LinesClass 150 Type 316L Stainless Steel LinesClass 300 304L Stainless Steel LinesClass 300 316L Stainless Steel LinesClass 600 316L Stainless Steel TubingClass 150 304L Stainless Steel LinesClass 150 Double Containment Steel LinesClass 150 Inconel Alloy 625 Lines225 PSI Rating Copper TubingClass 150 Type CPVC LinesClass 150 Type PVC LinesClass 150 Type PVDF Lined Carbon SteelLinesClass 150, Reinforced Thermosetting ResinLinesClass 150, Reinforced Thermosetting ResinLinesClass 150 Galvanized or Carbon Steel alCategory rmalAWWAWater

Piping Data Specification StandardDocumentPageIssue DateEngineeringTFC-ENG-STD-47, REV A-08 of 72September 28, 2017ATTACHMENT A – PIPING DATA SPECIFICATION SHEETS (cont.)PS101: Class 150 Carbon Steel Lines (ASME B31.3 for “Normal Fluid Service”)1.0TYPICAL SERVICES INCLUDE:Process Piping used in radioactive or hazardous service: Liquid Waste Influent, Secondary Waste,Compressed Air Systems, Non-Potable water Systems, Caustic (0 – 60% NaOH), Drains, Hydro-CarbonSystems, etc.2.0TYPICAL MATERIAL DESIGN CONDITIONS:P-SpecPS-101Design Pressure (psig)285260230200170140125Design Temperature (ºF)1002003004005006006503.0GENERAL REQUIREMENTS: All materials shall comply with ASME B31.3 or facility Code of Record. All flanges shall be Class 150 raised-faced, weld neck unless noted otherwise. Mating flanges against cast iron, ductile iron or nonmetallic valves, equipment or piping shall beflat-faced unless noted otherwise. Piping system butt welds shall be made using consumable inserts or open butt weld techniques.Backing rings are not permitted. Where shown on drawings, pipe bends of specified radius may be used in lieu of elbow fittings. The system shall be designed for the Design Temperature Range as specified in TFC-ENG-STD02. Environmental Extremes shall be considered for storage, shipping, and installation asappropriate (without considering pressure or fluid effects). Stress Analysis shall be performed in accordance with TFC-ENG-DESIGN-C-60 in conjunctionwith TFC-ENG-STD-22, TFC-ENG-FACSUP-C-27 and TFC-ENG-DESIGN-C-10.

Piping Data Specification StandardDocumentPageIssue DateEngineeringTFC-ENG-STD-47, REV A-09 of 72September 28, 2017ATTACHMENT A – PIPING DATA SPECIFICATION SHEETS (cont.)4.0PIPE CLASS SPECIFICATIONMinimum Required Schedules for Non-Threaded Pipe:P- PipeSpec Size¼½¾11½22½346810Schd STD STD STD STD STD STD STD STD STD STD STD STDA12 orLargerSTDMinimum Required Schedules for Threaded Pipe:PPipe TDSTDSTDAFabrication and Welding Requirements:PipeAll SizesConstruction:Seamless or WeldedMaterial:Galvanized or Plain Carbon Steel per ASTM A106 Grade B or ASTM A53,Type E or S, Grade BSchedule:See Required Schedules TablesAll FittingsAll SizesType:Seamless Butt Weld Ends or Threaded (Close nipples not permitted)Material:ASTM A47 (Wrought Steel) or ASTM A197Schedule:See Required Schedules TablesDimension:ASME B16.3/B16.9/16.11 (wall thickness to match pipe)BranchConnectionsInstrument, Vent,Drain, and Branch(Except forThermowells):2” and Smaller2-1/2” and Larger Run SizesTeesUse Tees for Connections of EqualSize or Up to Two Sizes Smaller,Otherwise Use Sockolets orWeldolets as ApplicableThermowells:Use ¾” or 1” 3000 LB. ThreadoletDimensionASME B16.3/B16.9/16.11 for Tees, MSS SP-97 for O-LETSPipe RunsType:PlugsAll SizesButt WeldAll SizesType:Use Butt Welded Caps

Piping Data Specification StandardDocumentPageIssue DateEngineeringTFC-ENG-STD-47, REV A-010 of 72September 28, 2017ATTACHMENT A – PIPING DATA SPECIFICATION SHEETS (cont.)UnionsAll SizesType:Class 150, Malleable Iron, ASME B16.39, Threaded, ASTM A47 Grade 32510or, ASTM A197, Bronze to Iron Seat - Same Schedule as Pipe – No BuriedUnionsFlangesAll SizesType:Welding Neck, Slip-on or ThreadedMaterial:ASTM A105 (forged)Dimension:ASME B16.5ASME Rating:Class 150 Raised Face (RF). Use flat face where mating to flat faced flangesBored To:To Match PipeGasketsAll SizesType:Compressed Synthetic fiber gasket, 100% asbestos free, 1/16” or 1/8” thick,(Anchor Packing 443A or Garlock Bluegard 3000 or equal)Dimension:ASME B16.20BoltingAll SizesType:Stud With Two NutsStud:Continuously Threaded ASTM A193, Gr. B7Nut:Heavy Hex Nuts, ASTM A194, Gr. 2HWasher:Hardened Washers per ASTM F436Weld ProcessesAll SizesWelding requirements of ASME B31.3 are to be met.

Piping Data Specification StandardDocumentPageIssue DateEngineeringTFC-ENG-STD-47, REV A-011 of 72September 28, 2017ATTACHMENT A – PIPING DATA SPECIFICATION SHEETS (cont.)PS103: Class 300 Carbon Steel Lines (ASME B31.3 for “Normal Fluid Service”)1.0TYPICAL SERVICES INCLUDEProcess Piping used in radioactive or hazardous service: Steam (Medium Pressure), Fuel Oil,Slurry/Supernatant, Oxygen, etc.2.0TYPICAL MATERIAL DESIGN CONDITIONS:P-SpecPS103Design Pressure (psig)740675655635600550535Design Temperature ( F)1002003004005006006503.0GENERAL REQUIREMENTS: All Materials shall comply with ASME B31.3 and NFPA 30 (for Fuel Oil systems) or NFPA 51(for Oxygen Service) or facility Code of Record. All flanges shall be Class 300 raised-faced, weld neck unless noted otherwise. Mating flanges against cast iron, ductile iron or nonmetallic valves, equipment or piping shall beflat-faced unless noted otherwise. Piping system butt welds shall be made using consumable inserts or open butt weld techniques.Backing rings are not permitted. Where shown on drawings, pipe bends of specified radius may be used in lieu of elbow fittings. The system shall be designed for the Design Temperature Range as specified in TFC-ENG-STD02. Environmental Extremes shall be considered for storage, shipping, and installation asappropriate (without considering pressure or fluid effects). Stress Analysis shall be performed in accordance with TFC-ENG-DESIGN-C-60 in conjunctionwith TFC-ENG-STD-22, TFC-ENG-FACSUP-C-27 and TFC-ENG-DESIGN-C-10.

Piping Data Specification StandardDocumentPageIssue DateEngineeringTFC-ENG-STD-47, REV A-012 of 72September 28, 2017ATTACHMENT A – PIPING DATA SPECIFICATION SHEETS (cont.)4.0PIPE CLASS SPECIFICATIONMinimum Required Schedules for Non-Threaded Pipe:PSpecPipeSizeASchd.¼½¾11½22½34681014 orLarger12STD STD STD STD STD STD STD STD STD STD STD STD STD40Minimum Required Schedules For Threaded Pipe:P- Pipe 8080Fabrication and Welding Requirements:PipeAll SizesConstruction:Seamless or WeldedMaterial:Plain Carbon Steel per ASTM A106 Grade B or ASTM A53, Type E or S,Grade BSchedule:See Required Schedules TablesAll FittingsAll SizesType:Seamless Butt Weld Ends or Threaded (Close nipples not permitted)Material:ASTM A47 (Wrought Steel) or ASTM A197, ASME B16.9, wall thickness tomatch pipeSchedule:See Required Schedules TablesDimension:ASME B16.3 and B16.9(wall thickness to match pipe)BranchConnectionsInstrument, Vent,Drain, and Branch(Except forThermowells):2” and Smaller2-1/2” and Larger Run SizesTeesUse Tees for Connections of EqualSize or Up to Two Sizes Smaller,Otherwise Use Sockolets orWeldolets as ApplicableThermowells:Use ¾” or 1” 3000 LB. ThreadoletDimensionASME B16.3/B16.9/16.11 for Tees, MSS SP-97 for O-LETSPipe RunsType:PlugsAll SizesButt WeldAll Sizes

Piping Data Specification StandardDocumentPageIssue DateEngineeringTFC-ENG-STD-47, REV A-013 of 72September 28, 2017ATTACHMENT A – PIPING DATA SPECIFICATION SHEETS (cont.)Type:Use Butt Welded CapsUnionsAll SizesType:None allowedFlangesAll SizesType:Welding Neck, Slip-on or ThreadedMaterial:ASTM A105 (forged)Dimension:ASME B16.5, Bore Weldneck to match pipe I.D.ASME Rating:Class 300 Raised Face (RF)Bored To:To Match PipeGasketsAll SizesType:Reinforced PTFE, 1/16” or 1/8” thick, (Anchor Anklon Plus SR-10 orGarlock Gylon HP 3560/3561 or equal)Dimension:ASME B16.20BoltingAll SizesType:Stud Bolt With Two NutsStud:Continuously Threaded ASTM A193, Gr. B7Nut:Heavy Hex Nuts, ASTM A194, Gr. 2HWasher:Hardened Washers per ASTM F436Weld ProcessesWelding requirements of ASME B31.3 are to be met.All Sizes

Piping Data Specification StandardDocumentPageIssue DateEngineeringTFC-ENG-STD-47, REV A-014 of 72September 28, 2017ATTACHMENT A – PIPING DATA SPECIFICATION SHEETS (cont.)PS109: 500 psi. Carbon Steel Lines w Victaulic Flanges (ASME B31.3 for “Category D”)1.0TYPICAL SERVICES INCLUDE:Process Piping used in non-radioactive and non-hazardous service: Internal Fire Protection, etc.2.0TYPICAL MATERIAL DESIGN CONDITIONS:P-Spec.PS109Temperature ( F):200100Pressure (PSIG):5005003.0GENERAL REQUIREMENTS: All materials shall comply with ASME B31.3 or facility Code of Record. All flanges shall be Victaulic Zero-flex Carbon Steel, unless noted otherwise. Mating flanges against cast iron, ductile iron or nonmetallic valves, equipment or piping shall beflat-faced unless noted otherwise. Piping system butt welds shall be made using consumable inserts or open butt weld techniques.Backing rings are not permitted. The system shall be designed for the Design Temperature Range as specified in TFC-ENG-STD02. Environmental Extremes shall be considered for storage, shipping, and installation asappropriate (without considering pressure or fluid effects). Stress Analysis shall be in accordance with TFC-ENG-DESIGN-C-60 in conjunction with TFCENG-STD-22, TFC-ENG-FACSUP-C-27 and TFC-ENG-DESIGN-C-10.

Piping Data Specification StandardDocumentPageIssue DateEngineeringTFC-ENG-STD-47, REV A-015 of 72September 28, 2017ATTACHMENT A – PIPING DATA SPECIFICATION SHEETS (cont.)4.0PIPE CLASS SPECIFICATIONMinimum Required Schedules for Non-Threaded Pipe:PSpecAPipeSize¼½¾11½22½346810Schedule 404040404040404040404040Minimum Required Schedules for Threaded Pipe:PSpec Pipe Fabrication and Welding Requirements:PipeAll SizesConstruction:Seamless or WeldedMaterial:Plain Carbon Steel per ASTM A106 Grade B orASTM A53, Type E or S, Grade BSchedule:See Required Schedules TableAll FittingsAll SizesType:Seamless Butt Weld Ends or Threaded (Close nipples not permitted)Material:ASTM A105 (Wrought Steel) or ASTM A197Schedule:Match Pipe SizeDimension:ASME B16.9, B16.11, and B16.28 (wall thickness to match pipe)Branch ConnectionsInstrument, Vent, Drain,and Branch (Except forThermowells):2” and Smaller2-1/2” and Larger Run SizesTeesUse Tees for Connections of EqualSize or Up to Two Sizes Smaller,Otherwise Use Sockolets orWeldolets as ApplicableThermowells:Use ¾” or 1” 3000 LB. ThreadoletDimensionASME B16.3/B16.9/16.11 for Tees, MSS SP-97 for O-LETSPipe RunsAll SizesType:PlugsButt WeldAll SizesType:Use Butt Welded Caps

Piping Data Specification StandardDocumentPageIssue DateEngineeringTFC-ENG-STD-47, REV A-016 of 72September 28, 2017ATTACHMENT A – PIPING DATA SPECIFICATION SHEETS (cont.)UnionsAll SizesType:Class 150, Malleable Iron, ASME B16.39, Threaded, ASTM A47 Grade 32510or, ASTM A197, Bronze to Iron Seat - Same Schedule as Pipe – No BuriedUnionsVictaulic FlangesAll SizesType:Victaulic Zero Flex Coupling 07Material:Manufacturer’s (ASTM A105)Dimension:Manufacturer’sASME Rating:Class 150Additional Requirements:Use with EPDM gasket, Min Temp 20 F.Pipe FlangesAll SizesType:Threaded, Slip-on, Socket Weld, WeldneckMaterial:ASTM A105Dimension:ASTM B16.5ASME Rating:Class 300GasketsAll SizesType:Compressed Synthetic fiber gasket, 100% asbestos free , 1/16” or 1/8” thick,(Anchor Packing 443A or Garlock Bluegard 3000 or equal)Dimension:ASME B16.20BoltingAll SizesType:Stud Bolt With Two NutsStud:Continuously Threaded ASTM A193, Gr. B7-HHNut:Heavy Hex Nuts, ASTM A194, Gr. 2HWasher:Hardened Washers per ASTM F436Additional Requirements:Not for use with Victaulic FittingsWeld ProcessesWelding requirements of ASME B31.3 are to be met.All Sizes

Piping Data Specification StandardDocumentPageIssue DateEngineeringTFC-ENG-STD-47, REV A-017 of 72September 28, 2017ATTACHMENT A – PIPING DATA SPECIFICATION SHEETS (cont.)PS110: Class 150 Carbon Steel Lines (ASME B31.1)1.0TYPICAL SERVICES INCLUDE:Process Piping used in non-radioactive but hazardous service: Steam, Condensate, Service Air, CoolingWater, Drains, Service Water, Boiler Drains, etc.2.0TYPICAL MATERIAL DESIGN CONDITIONS:P-SpecPS110Design Pressure (psig)15013211293756045Design Temperature ( F)73901001101201301403.0GENERAL REQUIREMENTS: All Materials shall comply with ASME B31.1 or facility Code of Record. All flanges shall be 150 LB. raised-faced, weld neck unless noted otherwise. Mating flanges against cast iron, ductile iron or nonmetallic valves, equipment or piping shall beflat-faced unless noted otherwise. Piping system butt welds shall be made using consumable inserts or open butt weld techniques.Backing rings are not permitted. Where shown on drawings, pipe bends of specified radius may be used in lieu of elbow fittings. The system shall be designed for the Design Temperature Range as specified in TFC-ENG-STD02. Environmental Extremes shall be considered for storage, shipping, and installation asappropriate (without considering pressure or fluid effects). Stress Analysis shall be performed in accordance with TFC-ENG-DESIGN-C-60 in conjunctionwith TFC-ENG-STD-22, TFC-ENG-FACSUP-C-27 and TFC-ENG-DESIGN-C-10.

Piping Data Specification StandardDocumentPageIssue DateEngineeringTFC-ENG-STD-47, REV A-018 of 72September 28, 2017ATTACHMENT A – PIPING DATA SPECIFICATION SHEETS (cont.)4.0PIPE CLASS SPECIFICATIONMinimum Required Schedules for Non-Threaded Pipe:P- PipeSpec SizeSchdA¼½40 40¾11½ 240 402½ 340 40 40804681012141618202480808080808080808080Minimum Required Schedules for Threaded Pipe:PSpec Pipe abrication and Welding Requirements:PipeAll SizesConstruction:Seamless or WeldedMaterial:Plain Carbon Steel per ASTM A106 Grade B orASTM A53, Type E or S, Grade BSchedule:See Required Schedules TablesAll FittingsAll SizesType:Seamless Butt Weld Ends or Threaded (Close nipples not permitted)Material:ASTM A234 Grade WPB or, ASTM A197Schedule:See Required Schedules TablesDimension:ASME B16.3 and B16.9 (wall thickness to match pipe)BranchConnectionsInstrument, Vent,Drain, and Branch(Except forThermowells):2” and Smaller2-1/2” and Larger Run SizesTeesUse Tees for Connections of EqualSize or Up to Two Sizes Smaller,Otherwise Use Sockolets orWeldolets as ApplicableThermowells:Use ¾” or 1” 3000 LB. ThreadoletDimensionASME B16.3/B16.9/16.11 for Tees, MSS SP-97 for O-LETSPipe RunsType:PlugsAll SizesButt WeldAll SizesType:Use Butt Welded Caps

Piping Data Specification StandardDocumentPageIssue DateEngineeringTFC-ENG-STD-47, REV A-019 of 72September 28, 2017ATTACHMENT A – PIPING DATA SPECIFICATION SHEETS (cont.)UnionsAll SizesType:Class 150, Malleable Iron, ASME B16.39, Threaded, ASTM A47 Grade 32510or, ASTM A197, Bronze to Iron Seat - Same Schedule as Pipe – No BuriedUnionsFlangesAll SizesType:Welding Neck, Slip-on or ThreadedMaterial:ASTM A105 (forged)Dimension:ASME B16.5ASME Rating:Class 150 Raised Face (RF). Use flat face where mating to flat faced flangesBored To:To Match PipeGasketsAll SizesType:Compressed Synthetic fiber gasket, 100% asbestos free , 1/16” or 1/8” thick,(Anchor Packing 441/442 or Garlock Bluegard 3000 or equal),per ASME B16.5, Appendix E.Dimension:ASME B16.20BoltingAll SizesType:Stud Bolt With Two NutsStud:Continuously Threaded ASTM A193, Gr. B7 Steel, ASME B1.1Nut:Heavy Hex Nuts, ASTM A194, Gr. 2HWasher:Hardened Washers per ASTM F436Weld ProcessesWelding requirements of ASME B31.1 are to be met.All Sizes

Piping Data Specification StandardDocumentPageIssue DateEngineeringTFC-ENG-STD-47, REV A-020 of 72September 28, 2017ATTACHMENT A – PIPING DATA SPECIFICATION SHEETS (cont.)PS112: Class 150 Carbon Steel Lines (ASME B31.9)1.0TYPICAL SERVICES INCLUDE:Process Piping used in non-radioactive but hazardous service: Steam, Condensate, Service Air, CoolingWater, Dr

ASME B31.1, Power Piping ASME B31.3, Process Piping ASME B31.9, Building Services Piping AWWA Standards C200, C206, C900. 3.2.1 Piping Design Criteria Selection of inappropriate codes, standards, and requirements could add to the cost of design and construction. Thus, selection of piping standards such as ASME B31.1, B31

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A. ASME B31.1 - Power piping. B. ASME B31.2 - Fuel Gas Piping. C. ASME B31.3 - Process piping. D. ASME B31.4 - Pipeline Transportation system for liquid hydrocarbon & other liquid. E. ASME B31.5 - Refrigeration Piping. F. ASME B31.8 - Gas transmission & distribution piping system. G. ASME B31.9 - Buil

2.4 blast and fire strategy for piping 29 3 design of piping against explosions 35 3.1 introduction 35 3.2 interaction of piping with other design disciplines 35 3.3 loading components acting on piping due to explosions 42 3.4 types of piping and material properties 53 3.5 response of piping to blast loading 57 3.6 acceptance criteria 61

dependent on the plant design system being used to create the PCF. Most Piping Fabricators that can receive piping information in the form of PCF's will probably have the Spoolgen software from Hexagon (previously Intergraph). This software is derived from the Isogen piping isometric software that used to be the de-facto piping isometric .

Piping z The Piping functions build a fully detailed model of all piping systems, based on component catalogues and engineering specifications. From the piping model, Piping General Arrangement drawings, isometric drawings and bills of quantity are produced. z A full range of automatically generated piping isometrics is

banking industry, ignite innovation and enhance the public’s experience with the financial services industry. 4 The future of banking is open. Open Banking regulation has evolved from the original intent The UK started introducing an Open Banking Standard in 2016 to make the banking sector work harder for the benefit of consumers. The implementation of the standard was guided by .