API 5791ASME FFS1 FitnessForService Standard

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API 579-1/ASME FFS-1Fitness-For-Service
Standard
API CRE MeetingApril 18, 2007
David A. Osage Chairman Joint API/ASME
Fitness-For-Service Standards Committee
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Presentation Overview

• Introduction
• Joint API/ASME Fitness-For-Service Standards
  Committee
• New Joint API and ASME FFS Standard
• Overview of API 579-1/ASME FFS-1
• Balloting of API 579-1/ASME FFS-1
• Technical Basis and Validation of API 579-1/ASME
  FFS-1
• Relationships to Other FFS Standards
• Whats next

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Introduction

• The first edition of API 579 produced by API CRE
  FFS Task Group is issued in 2000 and becomes the
  de facto international Fitness-For-Service (FFS)
  Standard for pressure containing equipment in the
  refining and petrochemical industries
• ASME forms Post Construction Committee (PCC) to
  develop standards for in-service fixed equipment
• FFS effort started under ASME PPC, existing API
  CRE Task Group continues to develop the next
  edition of API 579, many committee members are
  serving on both committees
• In order to streamline development efforts, pool
  resources, and promote widespread regulatory
  acceptance, API and ASME agree to form a joint
  committee to produce a single FFS standard that
  can be used for pressure-containing equipment for
  all industries

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Joint API/ASME FFS Standards Committee

• Joint API/ASME Committee formed, first meeting
  takes place on February 5, 2002
• Polices and procedures manual developed covering
• Charter
• Organization
• Officers
• Membership
• Meetings
• Committee Actions (Voting and Balloting)
• Public Review and Submittal to ANSI
• Interpretations
• Appeals
• Records
• Polices and procedures manual approved by API CRE
  and ASME BPTCS

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Joint API/ASME FFS Standards Committee

• Oversight by API CRE and ASME BPTCS
• Membership
• Approval of standards actions
• Current committee has 39 members in 11 interest
  categories
• Regulatory/Jurisdictional
• Insurance/Inspection
• Petroleum Refining
• Petroleum Production
• Chemicals Manufacturing
• Pipeline Companies
• Power Generation
• Design/Engineering
• Repair/Manufacturing
• General Interest
• Pulp Paper
• Membership includes international participation
  from France, UK, Japan, Canada, others

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New Joint API and ASME FFS Standard

• API 579 will form the basis of the new joint
  API/ASME standard that will be produced by the
  API/ASME joint committee
• The initial release of the new joint standard
  designated as API 579-1/ASME FFS-1 is scheduled
  for the second quarter of 2007
• API 579-1/ASME FFS-1 2007 standard will include
  all topics currently contained in the first
  edition of API 579 and will also include new
  parts covering FFS assessment procedures that
  address unique damage mechanisms experienced by
  other industries
• API 579-1/ASME FFS-1 2007 will supersede API
  579-2000

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Overview of API 579-1/ASME FFS-1

• Sections and Appendices in the API 579-2000 are
  being renamed to Parts and Annexes in API
  579-1/ASME FFS-1 2007
• New Enhancements Existing Sections and New
  Parts
• Part 5 - Assessment of Local Thin Areas,
  assessment procedures for gouges have been
  relocated to Part 12
• Part 7 - Assessment of Blisters and HIC/SOHIC
  Damage, assessment procedures for HIC/SOHIC
  damage have been added
• Part 8 - Assessment of Weld Misalignment and
  Bulges, assessment procedures for bulges removed,
  assessment procedures for dents, gouges, and
  dent-gouge combinations have been relocated to
  Part 12
• Part 10 - Assessment of Equipment Operating in
  the Creep Range, assessment procedures for
  remaining life calculations for components with
  or without crack-like flaws have been added
• Part 12 - Assessment of Dents, Gouges, and
  Dent-Gouge Combinations, new Part
• Part 13 - Assessment of Laminations, new Part

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Overview of API 579-1/ASME FFS-1

• New Enhancements Existing and New Annexes
• Annex B - Stress Analysis Overview for a FFS
  Assessment, complete rewrite to incorporate new
  elastic-plastic analysis methods and fatigue
  evaluation technology developed for the ASME Div
  2 Re-write Project, Structural Stress/Master S-N
  Approach will be included
• Annex C - Compendium of Stress Intensity Factor
  Solutions, new stress intensity factor solutions
  for thick wall cylinders, through wall cracks in
  cylinders and spheres, holes in plates
• Annex E - Compendium of Residual Stress
  Solutions, complete rewrite to incorporate new
  solutions developed by PVRC Joint Industry
  Project
• Annex F - Material Properties for a FFS
  Assessment, new stress-strain curve model
  incorporated
• Annex H - Technical Basis and Validation of FFS
  Procedures
• Annex K - Crack Opening Areas, new annex covering
  crack opening areas for through-wall flaws in
  cylinders and spheres

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Overview of API 579-1/ASME FFS-1

• Organization of Parts
• Part 1 Introduction
• Part 2 FFS Engineering Evaluation Procedure
• Part 3 Assessment of Equipment for Brittle
  Fracture
• Part 4 Assessment of General Metal Loss (tm lt
  tmin - large area)
• Part 5 Assessment of Localized Metal Loss (tm lt
  tmin - small area)
• Part 6 Assessment of Pitting Corrosion
• Part 7 Assessment Of Hydrogen Blisters and
  Hydrogen Damage Associated with HIC and SOHIC
• Part 8 Assessment of Weld Misalignment and
  Shell Distortions
• Part 9 Assessment of Crack-Like Flaws
• Part 10 Assessment of Equipment Operating in
  the Creep Regime
• Part 11 Assessment of Fire Damage
• Part 12 Assessment of Dents, Gouges, and
  Dent-Gouge Combinations
• Part 13 Assessment of Laminations

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Overview of API 579-1/ASME FFS-1

• Organization of Annexes
• Annex A Thickness, MAWP, and Stress Equations
  for a FFS Assessment
• Annex B Stress Analysis Overview for a FFS
  Assessment
• Annex C Compendium of Stress Intensity Factor
  Solutions
• Annex D Compendium of Reference Stress
  Solutions
• Annex E Residual Stresses in a FFS Evaluation
• Annex F Material Properties for a FFS
  Assessment
• Annex G Deterioration and Failure Modes
• Annex H Validation
• Annex I Glossary of Terms and Definitions
• Annex J Currently Not Used
• Annex K Crack Opening Areas

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Balloting of API 579-1/ASME FFS-1

• The initial ballot was issued on March 11th,
  2002, and the final ballot was issued on March
  28th, 2007
• A total of 119 ballots were issued, closed, and
  all comments were resolved by the joint
  committee an outstanding effort by all committee
  members!
• Two committees were simultaneously balloted,
  API/ASME Joint Committee on FFS and the API CRE
  Task Group on FFS, many members serve on both
  committees
• Worked with the following Joint Industry Projects
  to support balloting process technology
  development is heavily leveraged
• MPC Fitness-For-Service JIP
• MPC HIC JIP
• MPC Project Omega JIP
• PVRC Div2 Re-write JIP
• PVRC Weld Residual Stress JIP
• Battelle Structural Stress JIP

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Balloting of API 579-1/ASME FFS-1

• Coordinated the balloting process of API
  579-1/ASME FFS-1 with the new ASME Section VIII,
  Division 2 Pressure Vessel Code to achieve
  harmonization between Fitness-For-Service and
  design rules, where appropriate feedback from
  both standards committees subsequently used to
  improve both documents
• Submitted for ANSI approval on February 23, 2007,
  final ANSI approval expected in May, 2007 (BSR8
  BSR9)
• ASME Board on pressure technology Codes and
  Standards (BPTCS) approved API 579-1/ASME FFS-1
  on March 28, 2007
• API CRE approval required, expected at the April
  18, 2007 API Spring Meeting

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Publication of API 579-1/ASME FFS-1

• Editing performed by D.A. Osage on volunteer
  basis
• Streamlined publication process
• All parts produced in MS Word using MathType for
  equations, Visio for graphics, and SigmaPlot for
  graphs
• Production ready MS Word documents circulated to
  committee members during balloting process using
  MS Word red-line mode feature
• After final approval, MS Word versions of all
  Parts sent to E2G Publications Department for
  review with API Publications Staff and final
  document processing
• Hypertext Links added to MS Word files, PDF
  version produced with full hyperlink capability
• PDF version sent to API, forms basis of
  electronic version and paper version
• Very time/cost effective process for producing a
  large complex document (over 1700 pages)
• Production version of API 579-1/ASME FFS-1
  currently posted on E2G website with DRAFT
  Watermark, available to committee members,
  password protected
• Waiting for final approval, publication expected
  in May 2007

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Technical Basis and Validation of API 579-1/ASME
FFS-1

• Joint API/ASME FFS Committee committed to
  publishing the technical basis to all FFS
  assessment procedures utilized in API 579-1/ASME
  FFS-1 2007 in the public domain
• Appendix H of API 579-1/ASME FFS-1 2007 provides
  an overview of technical basis and validation
  with related references organized by damage type
  the references are published in a series of WRC
  Bulletins and technical papers
• Publication of technical background has been
  instrumental in obtaining acceptance from
  regulatory bodies

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Technical Basis and Validation of API 579-1/ASME
FFS-1

• WRC Bulletins Published
• Review of Existing Fitness-For-Service Criteria
  for Crack-Like Flaws (WRC 430)
• Technologies for the Evaluation of Non-Crack-Like
  Flaws in Pressurized Components -
  Erosion/Corrosion, Pitting, Blisters, Shell
  Out-of-Roundness, Weld Misalignment, Bulges, and
  Dents in Pressurized Components (WRC 465)
• Development of Stress Intensity Factor Solutions
  for Surface and Embedded Cracks in API 579 (WRC
  471)
• Stress Intensity and Crack Growth Opening Area
  Solutions for Through-wall Cracks in Cylinders
  and Spheres (WRC 478)
• Recent Progress in Analysis of Welding Residual
  Stresses (WRC 455)
• Recommendations for Determining Residual Stresses
  in Fitness-For-Service Assessments (WRC 476)
• Master S-N Curve Method for Fatigue Evaluation of
  Welded Components (WRC 474)
• An Overview and Validation of The
  Fitness-For-Service Assessment Procedures for
  Locally Thin Areas in API 579 (WRC 505)

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Technical Basis and Validation of API 579-1/ASME
FFS-1

• WRC Bulletins In Preparation
• An Overview of The Fitness-For-Service Assessment
  Procedures for Pitting Damage in API 579
• Compendium of Temperature-Dependent Physical
  Properties for Pressure Vessel Materials (WRC
  503)
• An Overview and validation of the
  Fitness-For-Service Rules for the Assessment of
  HIC/SOHIC Damage in API 579
• An Overview of the Fitness-For-Service Assessment
  Procedures for Weld Misalignment and Shell
  Distortions in API 579
• An Overview and Validation of the
  Fitness-For-Service Assessment Procedures for
  Crack-Like Flaws in API 579
• An Overview and Validation of Residual Stress
  Distributions for Use in the Assessment
  Procedures of Crack-Like Flaws in API 579
• MPC Project Omega and Procedures for Assessment
  of Creep Damage in API 579
• Development of a Local Strain Criteria Based on
  the MPC Universal Stress-Strain Equation
• Update on the Master S-N Curve Method for Fatigue
  Evaluation of Welded Components

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Relationships to Other FFS Standards

• Alternative FFS Methodologies from international
  standards permitted under a Level 3 Assessment
  for example, Section 9 covering crack-like flaws
  provides reference to
• Nuclear Electric R-6
• Nuclear Electric R-5 (FFS in creep regime)
• BS 7910 (PD 6493)
• SAQ/FoU-Report 96/08
• EPRI J-Integral
• Joint API/ASME Committee continuing to set up
  technical liaisons with other international FFS
  standard writing bodies
• Depending on committee review, next edition of
  API 579-1/ASME FFS-1 may reference FITNET FFS
  procedures

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Whats Next

• API/ASME FFS Joint committee currently working on
  separate example problems manual, scheduled for
  release in 2008
• Committee also addressing agenda items generated
  during balloting process
• Subgroup of committee working on FFS methods for
  cast iron rollers in the pulp paper industry

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Whats Next

• Technical advancements planned for the next
  release include
• Updated brittle fracture screening procedures
• Enhanced LTA assessment procedures
• Enhanced crack-like flaw assessment procedures
• Further improvements in residual stress solutions
• Improvements in material property evaluation for
  in-service components
• Assessment of HTHA (High Temperature Hydrogen
  Attack) Damage
• Assessment of Hot-Spot
• Assessment of Fatigue Damage
• Other needs based on user feedback

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