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  • Corrosion is a major threat to the oil and gas, petrochemical and other process-intensive industries and is responsible for countless of dollars in damage and maintenance costs.
  • Additionally, ageing equipment becomes more susceptible to corrosion and loses its ability to withstand harsh operating environments (e.g. high temperature and pressure).
  • The purpose of a strong corrosion monitoring program is to improve safety, reduce maintenance and inspection costs, and maximize efficiency.
  • Corrosion monitoring plays a vital role throughout the equipment lifecycle.
  • Inspection and monitoring strategies and techniques may change according to the age and condition of equipment. Therefore, inspection and monitoring strategies should be reviewed at specific intervals at the owner-operator’s discretion.
  • The goal of this course is to provide interested persons with a basic overview of the theoretical and practical aspects of corrosion and its control.
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By the end of the training, participants will be able to:

  • Recognize the different inspection tools and techniques.
  • Be able to evaluate how the cost of corrosion is.
  • Have FOUNDATION Level understanding of how to Analyze annual inspection plans and reports.
  • Be able determine which pipelines need to be inspected.
  • Assesse the need for corrosion and repair as per asset criticality.
  • Conduct (physical) investigations to identify causes of failure and suggest mitigation measures (root cause analysis).
  • nspection technicians and chemists responsible for inspection programs.
  • Corrosion technicians responsible for corrosion monitoring and field measurement.
  • Asset integrity engineers responsible for equipment health,
  • Operating (field) personnel responsible for collecting samples.
  • QC technicians responsible for field examination and non- destructive testing.

  • The course will be delivered through a combination of lectures, case studies, group discussions, and practical exercises. Participants will engage in interactive sessions to enhance learning and practical application of concepts

    Day 1 :

    The benefit of applying inspection program

    The cost of Corrosion

    Basics of Corrosion

    The Corrosion Cell

    • Driving Force for Corrosion
    • Voltage
    • Metal Driving Voltage and Activity
    • Electrolyte

    Corrosion Rate

    • Faraday’s Law
    • Voltage Difference
    • Reference Electrodes (Half-Cells)
    • Standard Hydrogen Electrode (SHE)
    • Copper-Copper Sulfate Electrode (CSE)
    • Other Reference Electrodes
    • Polarity
    • Conversion Between Reference Electrode Values.

    Polarization

    • IR Drop
    • Factors Affecting Polarization
    • Current (Charge Transfer)
    • Anode/Cathode Ratio
    • Temperature
    • Electrolyte/Electrode Movement Effect
    • Electrolyte Concentration Effect (Interface Area)
    • Passivity

    Day 2

    Forms of Corrosion

    • Uniform Corrosion
    • Localized Corrosion
    • Pitting
    • Crevice Corrosion
    • Mesa Corrosion
    • Weld Zone Corrosion
    • Environmentally Assisted Cracking (EAC
    • Flow-Assisted Damage

    Potentially Corrosive Species

    • Carbon Dioxide (CO2)
    • Hydrogen Sulfide (H2S)
    • Oxygen.
    • Microbiologically Influenced Corrosion

    Environmentally Assisted Cracking Mechanisms

    • Hydrogen Damage
    • Hydrogen Induced Cracking (HIC)
    • Hydrogen Embrittlement (HE)
    • Stress-Oriented Hydrogen Induced Cracking (SOHIC)
    • Sulfide Stress Cracking (SSC)
    • Stress Corrosion Cracking (SCC)
    • Liquid Metal Embrittlement (LME

    Corrosion Mechanisms

    • Galvanic Corrosion
    • Concentration Cells

    Flow-Assisted Damage Mechanisms

    • Erosion
    • Impingement
    • Erosion-Corrosion
    • Cavitation

    Day 3

    Inspection Methods

    • Selection of Representative Inspection Locations
    • Visual Inspection
    • Magnetic Flux Leakage
    • Ultrasonic Testing (UT)
    • Manual UT
    • Automated UT (AUT)
    • Guided Wave Ultrasonic Testing Technology (GWUT)
    • Eddy Current (EC)
    • Radiographic Testing (RT)

    Inspection Method Selection

    • Wall Thickness Measurements
    • Screening Tool/Quick Inspection
    • Detection of Internal Cracking
    • Pipeline Replacement / Internal Surface Exposed

    Concept of Cathodic Protection

    Polarization of a Structure

    • Current Requirement
    • Surface Area
    • Examples (Bare and Coated)
    • Polarization
    • Effect of Environment pH on CP Current Requirement
    • Temperature Effect on CP Current Requirement
    • Effect of Oxidizers on CP Current Requirement
    • Effect of Relative Movement Between the Structure and Electrolyte on
    • CP Current Requirements

    Applied Current vs. Corrosion Rate

    Criteria for Cathodic Protection

    • SP0169 Criteria

    Designing for Corrosion Prevention

    • Design
    • Materials Selection
    • Modification of Environment
    • Cathodic and Anodic Protection
    • Protective Coatings
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