VCPD858 - ASME B31, BPVC-VIII-1, API 579-1/ASME FFS-1, Fitness-for-Service for Pressure Vessels, Piping and Tanks Combo Course (Virtual Classroom) has been added to your cart.
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ASME B31, BPVC-VIII-1, API 579-1/ASME FFS-1, Fitness-for-Service for Pressure Vessels, Piping and Tanks Combo Course (Virtual Classroom)

Master the complexities of fitness-for-service and repair assessments with industry best practices and a special focus on the API579-1/ASME FFS-1.

This Standard was last reviewed and reaffirmed in {{activeProduct.ReaffirmationYear}}. Therefore this version remains in effect.

ASME B31, BPVC-VIII-1, API 579-1/ASME FFS-1, Fitness-for-Service for Pressure Vessels, Piping and Tanks Combo Course (Virtual Classroom)
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  • Mar 14-Apr 27th, 2022

    30

    $2395
    $2395
    $2395
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  • May 16-Jun 08th, 2022

    30

    $2395
    $2395
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Enroll now to save 47%

$4,485 $2,395


This combo includes two courses, scheduled in half-day and full day segments. Find detailed schedules and information on the individual course product pages. 
 
Routine and thorough fitness-for-service and repair assessments of your facility’s pressure equipment is critical to ensuring safety, reducing costs, and ideally, extending the life of your assets. These assessments require a multi-disciplinary engineering approach and a wide-range of skills and knowledge on various methods, criteria and standards including ASME B31, ASME VIII, API 579-1/ASME FFS-1, ASME PCC-2, NBIC parts 2 and 3, among others.
 
Together, the two courses in this official learning path unpack the complexities of fitness-for-service and repair assessments by providing an overview of industry recommended practices with a special focus on the API579-1/ASME FFS-1 standard. You will learn methods, skills, and best practices to analyze, evaluate, and monitor equipment for continued operation and make run-or-repair decisions for in-house pressure vessels, piping, and tanks.
 
This official ASME learning path consists of two courses:

Course 1: Failure Prevention, Fitness-for-Service, Repair and Life Extension of Piping, Vessels and Tanks This course brings together the methods and criteria of ASME B31, ASME VIII, API 579-1/ASME FFS-1, ASME PCC-2, NBIC parts 2 and 3, and other standards related to fitness-for-service and repairs to make run-or-repair decisions on degraded pressure equipment, piping, and pipelines.

  • Course Schedule: The course commences at 9:30 AM and ends at 1:30 PM Eastern each day over 5 days.

Course 2: API 579-1/ASME FFS-1 Fitness-For-Service Evaluation
This course helps participants understand and apply the API/ASME fitness-for-service standard in their daily work. The material presented in the course shows how the disciplines of stress analysis, materials engineering, and nondestructive inspection interact and apply to fitness-for-service assessment.

  • Schedule: this course offers sessions that are taught over 3 full days (9:30 AM to 6:30 PM each day) or 6 half days (from 9:30 AM and ending at 1:30 PM Eastern each day). 

Who Should Attend?
This exclusive learning path is intended for engineers, inspectors and engineering management engaged in the operation, design, analysis, and maintenance of plant facilities. 
 

This ASME Virtual Classroom course is held live with an instructor on our online learning platform.  Certificate of completion will be issued to registrants who successfully attend and complete the course. 

Buying for a team? Get ASME Corporate Training.

Set up a customized session of this course for your workforce. Contact learningsolutions@asme.org to learn more about group rates.

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Instructors

George Antaki, P.E., Becht Engineering, is a Fellow of ASME, with over 45 years of experience in pressure equipment. He is an ASME Fellow, internationally recognized for his expertise in design, analysis, and fitness-for-service evaluation of pressure equipment and piping systems. He is past vice –chair of the joint API-ASME Committee on Fitness-for-Service, member and past-chair of ASME B31 Mechanical Design Committee, Chairman of ASME III Working Group Piping Design, member of the ASME III Subgroup Component Design, and ASME Operation and Maintenance Subgroup Piping, and past member of the ASME PCC-2 Repair Committee. He is the author of three textbooks on the subject of pressure equipment design and integrity evaluation, including Fitness-for-Service for Piping, Vessels, and Tanks. Mr. Antaki earned his degree in Nuclear Engineering from the University of Liege, Belgium in 1975, and his Master’s degree in Mechanical Engineering from Carnegie Mellon University in 1985.
 

Gregory Brown, Ph.D., is the principal and owner of Blue Ring Engineering.  He is a current voting member of the ASME/API Joint Committee on Fitness-For-Service (API 579/ASME FFS-1).  Dr. Brown currently performs computational mechanics and fitness-for-service assessments for a variety of industries using API 579, as well as supporting litigation and failure analysis.  He also develops specialized software and methodologies for structural analysis and life assessment. Previously Dr. Brown was the Chief Engineer for TEAM/Quest Integrity.

Dr. Brown joined Dr. Ted Anderson in 2001 at Structural Reliability Technology, which later became part of the Quest Integrity Group.  Prior to SRT, he developed algorithms to update industrial finite element models using experimental measurements and performed flutter analyses of F16 and F18 fighter aircraft.  Dr. Anderson, Dr. Brown, and the engineers at Structural Reliability Technology performed much of the work that was incorporated into API 579.

Greg Thorwald, Ph.D., is a Principal Engineer in the Advanced Engineering Group at Quest Integrity in Boulder, Colorado. He joined Dr. Ted Anderson in 1996 at Structural Reliability Technology, which later became part of Quest Integrity. He earned a Ph.D. in aerospace engineering from the University of Colorado.

Dr. Thorwald helped contribute stress intensity solutions to the API 579/ASME FFS-1 Standard that are used in fracture mechanics assessments, and he is a member of the API/ASME joint committee. His consulting work focuses on structural analysis using finite element models, Fitness-for-Service assessments, software development, and training.

Dr. Thorwald helps develop and support the Signal Fitness-for-Service (FFS) software that performs the API 579 Fitness-for-Service calculations and assessments. He is the lead developer of the FEACrack software: a parametric 3D crack mesh generator and post processor used with finite element analysis solvers to compute stress intensity and J-integral solutions needed in fracture mechanics and fatigue crack propagation assessments.

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