Understanding And Preventing Process Equipment Failures
Course Description
Process equipment, structures and piping systems may be subjected to severe service conditions including high constant or fluctuating stresses, extreme temperatures and various types of corrosion. This could cause loss of structural integrity, leading to degradation and damage. If such damage is not detected and assessed in a timely manner, it could result in catastrophic failures with potentially enormous consequential losses of life and assets. To ensure that engineering systems are capable of handling the service conditions in all foreseeable operating scenarios, they must first be designed through the selection of appropriate materials of construction and in accordance with recognized design methodologies and codes. It is also important to incorporate safeguards and controls to prevent operation outside the "design and operational envelope" and to inspect the process equipment with the view to detect any damage, characterize it, and assess its impact on the equipment "Fitness For Service".
The Training Course Will Highlight ?

This comprehensive and structured Process Equipment Failures training course aims at providing a clear understanding of the major degradation mechanisms that process equipment and systems will be subjected to during their operating life, how to identify them, their effect on the integrity of the equipment and what appropriate measures can be taken to prevent and control the resultant damage.

Training Objective

  • Main aspects of mechanical testing of structures
  • Knowledge of the main types of structural failure
  • Aspects of structural integrity and mitigation techniques
  • Safe control and best practice use of engineering equipment
  • Inspection and non destructive methods

 

Target Audience

This CDGA training course is intended for:

  • Staff who use or supervise activities requiring the selection, design/fabrication or use of mechanical equipment or component parts
  • Engineers who seek a basic understanding of the practical aspects of evaluation of structural integrity
  • Operation, technical service and maintenance professionals from various processing plants involved in everyday operation, control, inspection and maintenance of equipment.
  • Engineers and consultants dealing with planning of new production plants, retrofitting plants and introducing new technologies
  • Technical professionals responsible for maintenance and repair of equipment
  • Project and asset managers

Training Methods

 

 

Daily Agenda

Day One: Materials Testing and Failure

Competency Description: Participants need to gain a sound understanding of methods of mechanical testing of components and methods of failure examination in order to assess the structural integrity of components and equipment.

Key behaviours

  • Comprehensive understanding of relevant methods of mechanical testing
  • Gain insight into relevant types of failure mechanisms
  • Understanding the factors and caused that influence structural failure
  • Gain knowledge of the examination of failed components

Topics to be covered

  • Course objectives and overview
  • Materials Testing – Tensile, Impact, Hardness
  • Types of Failures – Ductile/brittle fracture, Temperature Effects
  • Analytical Tools – Visual examination of fracture surface, Fractography, Microscopy
  • Industrial Failures – Examples of Failures and Causes

Day Two: Damage and Interpretation of Failure I

Competency Description: Participants need to understand relevant failure mechanisms of components, including fracture, fatigue and thermal (high temperature) influence, methods of failure examination and methods of determining the life of components and equipment subjected to several loading conditions.

Key behaviours

  • Gain insight into relevant types of failure mechanisms including fracture, fatigue and high temperature applications
  • Understanding the internal and external factors and caused that influence structural failure
  • Gain knowledge of determining the life of components and equipment subjected to various loading conditions
  • Reinforcement of knowledge of component life determination through worked examples

Topics to be covered

  • Stress Concentrating
  • Fracture Mechanics
  • Fatigue Failure
  • High temperature Creep
  • Thermal Expansion and deflections
  • Worked examples

Day Three: Damage and Interpretation of Failure II

Competency Description: Participants need to understand relevant failure mechanisms of components including corrosion and vibration damage, methods of failure examination and methods of determining the life of components and equipment subjected to several loading conditions.

Key behaviours

  • Gain insight into relevant types of failure mechanisms including corrosion and vibration damage
  • Understanding the internal and external factors and caused that influence structural failure
  • Gain knowledge of determining the life of components and equipment subjected to various loading conditions
  • Reinforcement of knowledge of component life determination through worked examples

Topics to be covered

  • Wear, Galing and Fretting
  • Principles and types of Corrosion damage and Mitigation
  • Vibration of Equipment and Piping
  • Vibration Condition Monitoring
  • Technical Problem Solving and Decision-making Approaches

Day Four: Examples of Equipment Failure

Competency Description: Participants need to recognise the failure of specific components and equipment and have a sound understanding of methods of failure mitigation, maintenance and troubleshooting.

Key behaviours

  • Appreciate relevant types of failure mechanisms of relevant components and equipment
  • Gain knowledge of the examination of failed components and equipment
  • Cain an understanding relevant maintenance and troubleshooting issues

Topics to be covered

  • Pressure vessels and life extension
  • Heat Exchangers
  • Pumps and Compressors
  • Mechanical Seals and “O” Rign Failures
  • Bearing failure
  • Pipes and Repair Techniques

Day Five: Inspection, Testing and Condition Assessment

Competency Description: Participants need to gain a sound understanding of methods of equipment inspection and relevant codes

Key behaviours

  • Comprehensive understanding of relevant non-destructive testing methods
  • Gain insight into estimating the remaining life of equipment and inspection intervals
  • Gain knowledge of relevant inspection codes

Topics to be covered

  • NDT Methods and Techniques
  • Inspection of Process Equipment
  • Examples of Remaining Life Calculations
  • Relevant Inspection Codes, API 570, etc.
  • Course Summary and Wrap-up
Accreditation

CDGA attendance certificate will be issued to all attendees completing minimum of 80% of the total course duration.

Quick Enquiry

Request Info

Download Brochure Request In house Proposal

Course Rounds : (5 -Days)


Code Date Venue Fees Register
ME100-04 08-12-2024 Dubai USD 5450
ME100-01 27-04-2025 Dubai USD 5450
ME100-02 24-08-2025 Amman USD 5450
ME100-03 19-10-2025 Dubai USD 5450
ME100-04 07-12-2025 Cairo USD 5450
Prices doesn't include VAT

UpComing Date


Details
  • Start date 08-12-2024
  • End date 12-12-2024

Venue
  • Country UAE
  • Venue Dubai

Quality Policy

 Providing services with a high quality that are satisfying the requirements
 Appling the specifications and legalizations to ensure the quality of service.
 Best utilization of resources for continually improving the business activities.

Technical Team

CDGA keen to selects highly technical instructors based on professional field experience

Strengths and capabilities

Since CDGA was established, it considered a training partner for world class oil & gas institution

Search For Available Course

Ireland, Ireland

3012, Block 3, 30 Euro Business Park, Little Island, Co. Cork, T45 V220, Ireland

+353 214 552955

Mon to Fri 09:00 AM to 06:00 PM

Info@cdga-training.com

Contact Us anytime!