Pressure Vessel Design, Inspection and Testing

LEVEL: INTERMEDIATE                    HRDF: CLAIMABLE 

Ten (10) CPD Hours approved by MBOT

TRAINER: 

Dr. Tamiru Alemu Lemma

 

21 - 22 JULY 2023

 

MS TEAMS (ONLINE)

 

9.00AM - 5.00PM

 

RM 650 FOR PROFESSIONALS

10% Discount for Early Bird (until 21 May 2023) / Group / Students

CONTENT SUMMARY

INTRODUCTION

Pressure Vessel Design, Inspection and Testing (PVDIT) short course is applicable for Technical Managers, Maintenance Staff, Design Engineer, Mechanical Engineers, Chemical Engineers, Process Engineers, and Technical Executives. It covers theoretical and practical aspects of design, inspection, and testing of unfired pressure vessel according to ASME Code Section VIII Div. 1 or 2 and API 510. Participants will also be given exposure to example of some case study on design PV using classical theory on ASME code. Highlights on the machine learning application for inspection purposes will also be shared.

COURSE CONTENT

Day 1A - General Design Process

  • Conceptual Design
  • Embodiment Design
  • Detail Design

Day 1B - Pressure Vessel Design

  • Introduction to ASME Code and Standards
  • Type of Pressure Vessel
  • Theoretical approach of design of unfired PV
  • Case study sample design PV, using ASME code
  • Flange calculation
  • Support design

Day 2A - Welding and Material Selection

  • Welding technology and Welding standards
  • Material selection for PVs

Day 2B - PV Inspection and Testing

  • Design appraisal 
  • PV Inspection, ASME Code VIII, Div. (2)
  • PV Inspection, API 510
  • Marking off and transfer of marks 
  • Examination of cut edges 
  • Welding procedure · Welding inspection 
  • NDE before heat treatment 
  • Heat treatment / stress release 
  • Non-destructive testing after heat treatment
  • Machine learning in PV Inspection

OBJECTIVES

Upon completion of this course, participants will be able to:

  • Explain the general process for product design and development 
  • Apply the ASME Code Section VIII Div. 1 or 2 for PV design 
  • Perform design calculations using the theoretical approach of design of unfired PV 
  • Assess the design of unfired using DBF approach 
  • Explain the inspection and testing requirement by ASME Code for PV


WHO SHOULD ATTEND?

  • Technical Managers, 
  • Maintenance Staff,
  • Design Engineer, Process Engineer, Chemical Engineers
  • Technical Executives.
  • Facilities, asset managers and engineers 
  • Operation and maintenance staff 





OUR TRAINER

1. Dr. Tamiru Alemu Lemma  (UTP)

Dr. Tamiru is a senior lecturer at the department of Mechanical Engineering, Universiti Teknologi PETRONAS. He is also the core members for Corrosion Research Centre (CCR) under Institute of Contaminant Management (ICM). He has vast experience in the application of machine learning to modelling, simulation, fault diagnostics, and performance prediction of oil and gas assets such as gas turbines, gas pipelines, two-phase flow pipelines, two-phase separators, air compressors, and polycrystalline diamond cutter (PDC) bits. His ongoing research includes CFD/ SPH modeling and simulations of flows in inline separators, diagnostics of industrial gas turbines, pipelines, and contaminants leak detection. He teaches mechanical vibration and mechanical engineering design course on a regular basis. Dr. Tamiru is a member of ASME and BEM.

COUNTDOWN

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REGISTRATION FEES

PROFESSIONALS

MYR650*

*fee quoted does not include SST, HRDF service fee, GST/VAT or withholding tax (if applicable).

EARLY BIRD/ GROUP/ STUDENT

MYR585*

*fee quoted does not include SST, HRDF service fee, GST/VAT or withholding tax (if applicable).

OUR LOCATION

Centre for Advanced & Professional Education (CAPE)

 Level 8, Permata Sapura, Kuala Lumpur City Centre, 50088 Kuala Lumpur​

CALL US

+605 - 368 7558 /

+605 - 368 8485

DROP US AN EMAIL

cape@utp.edu.my