Corrosion Control in Power System Infrastructure Training Course

Date

Jul 28 2025 - Aug 01 2025

Time

8:00 am - 6:00 pm

Corrosion Control in Power System Infrastructure Training Course

Introduction:

Corrosion is a significant challenge in maintaining the integrity and longevity of power system infrastructure, which includes transmission lines, substations, electrical equipment, and more. This 5-day course provides participants with a comprehensive understanding of corrosion mechanisms, prevention methods, and maintenance strategies in power system infrastructure. Participants will learn to identify corrosion risks, implement effective corrosion control techniques, and ensure the reliability and safety of electrical systems over their operational lifetime. The course combines theory with practical case studies, allowing participants to apply their knowledge to real-world power system infrastructure scenarios.


Objectives:

By the end of this course, participants will:

  1. Understand the fundamental principles of corrosion, including the types and mechanisms of corrosion in power systems.
  2. Learn to identify areas of infrastructure vulnerable to corrosion in power systems.
  3. Gain knowledge of corrosion control methods such as coatings, cathodic protection, and material selection.
  4. Understand the impact of environmental factors on corrosion in power systems.
  5. Learn about the inspection, maintenance, and monitoring strategies for corrosion prevention in power infrastructure.
  6. Develop the ability to implement and maintain corrosion control programs for electrical infrastructure.

Who Should Attend:

This course is designed for professionals working in the power industry who are responsible for the maintenance, operation, and management of power system infrastructure, including:

  • Electrical Engineers and Technicians
  • Power System Maintenance Personnel
  • Asset Managers and Operations Supervisors
  • Contractors and Consultants in Power Infrastructure
  • Maintenance Planners and Inspectors
  • Corrosion Engineers and Specialists

Course Outline:

Day 1: Introduction to Corrosion and Its Impact on Power Systems

  • Session 1: Understanding Corrosion
    • Definition and Types of Corrosion: Uniform, Pitting, Galvanic, Crevice, and Stress Corrosion
    • Electrochemical Principles of Corrosion: Anodic and Cathodic Reactions
    • Factors Influencing Corrosion: Temperature, Humidity, Electrolytes, and Atmospheric Conditions
  • Session 2: Corrosion in Power System Infrastructure
    • Areas Prone to Corrosion in Power Systems: Transmission Lines, Substations, Transformers, and Electrical Equipment
    • Materials Used in Power Systems and Their Vulnerability to Corrosion
    • The Economic and Operational Impact of Corrosion on Power Systems: Downtime, Repair Costs, and Equipment Failure
  • Session 3: Corrosion Failures in Power Systems: Case Studies
    • Real-World Examples of Corrosion-Related Failures in Power Systems
    • Lessons Learned and Key Takeaways from Historical Incidents
    • Identifying Red Flags for Potential Corrosion Issues in Power Infrastructure
  • Activity: Group Discussion – Identifying Vulnerable Areas to Corrosion in Power Infrastructure

Day 2: Corrosion Control Methods for Power System Infrastructure

  • Session 1: Coatings and Surface Treatments
    • Types of Protective Coatings: Epoxy, Zinc, Polyurethane, and Powder Coatings
    • Surface Preparation and Application Techniques for Optimal Coating Performance
    • Coating Performance Testing: Adhesion, Abrasion Resistance, and Weathering
  • Session 2: Cathodic Protection Systems
    • Principles of Cathodic Protection: Galvanic and Impressed Current Systems
    • Design and Implementation of Cathodic Protection for Substations and Power Lines
    • Monitoring and Maintenance of Cathodic Protection Systems
  • Session 3: Material Selection and Corrosion-Resistant Materials
    • Corrosion-Resistant Materials: Stainless Steel, Alloyed Materials, and Corrosion-Resistant Alloys
    • Choosing the Right Material for Different Environmental Conditions
    • Strategies for Minimizing Corrosion through Material Innovations (e.g., Galvanization)
  • Activity: Hands-on Exercise – Selecting Corrosion Protection Methods for a Substation

Day 3: Environmental Factors and Their Impact on Corrosion

  • Session 1: Environmental Factors Affecting Corrosion
    • Atmospheric Corrosion: Salt, Humidity, Temperature, and Pollution
    • Soil and Groundwater Corrosion: Soil Resistivity, Moisture, pH, and Conductivity
    • Impact of Urbanization, Coastal Environments, and Industrial Areas on Corrosion Rates
  • Session 2: Corrosion in Different Environments
    • Marine Corrosion: Coastal Power Infrastructure Challenges and Protection Techniques
    • Corrosion in Wetlands, Deserts, and High Altitude Areas
    • Underground and Subsurface Corrosion in Underground Cables and Power Equipment
  • Session 3: Monitoring Environmental Factors for Corrosion Risk
    • Using Sensors and Data Loggers for Monitoring Environmental Conditions
    • Tools and Techniques for Assessing Corrosion Risk in Different Environments
    • Integrating Environmental Data into Preventive Maintenance Programs
  • Activity: Case Study – Analyzing Corrosion Risk in a Power Line Network in Coastal Areas

Day 4: Inspection, Maintenance, and Monitoring for Corrosion Control

  • Session 1: Corrosion Inspection Techniques
    • Visual Inspection: Identifying Early Signs of Corrosion
    • Non-Destructive Testing (NDT) Methods: Ultrasonic, Radiography, and Magnetic Particle Testing
    • Advanced Corrosion Monitoring Techniques: Corrosion Coupons, Electrical Resistance Probes, and Potential Measurement
  • Session 2: Preventive and Predictive Maintenance for Corrosion Control
    • Establishing Preventive Maintenance Plans for Power System Infrastructure
    • Scheduling and Performing Routine Inspections of Equipment and Structures
    • Predictive Maintenance: Using Data and Technology to Predict and Prevent Corrosion
  • Session 3: Developing a Corrosion Control Program
    • Creating and Implementing a Corrosion Control Program for Power Systems
    • Setting Up Key Performance Indicators (KPIs) for Monitoring Corrosion Control Effectiveness
    • Budgeting and Cost Control for Corrosion Prevention and Maintenance Activities
  • Activity: Workshop – Developing a Comprehensive Corrosion Control Plan for a Power Substation

Day 5: Advanced Corrosion Control Technologies and Future Trends

  • Session 1: Emerging Corrosion Control Technologies
    • Innovations in Corrosion-Resistant Materials and Smart Coatings
    • Role of Nanotechnology in Corrosion Prevention: Self-Healing Materials and Coatings
    • Advanced Cathodic Protection Systems and Remote Monitoring Technologies
  • Session 2: The Role of Digitalization and Data Analytics in Corrosion Control
    • Use of IoT and Cloud-Based Solutions for Real-Time Corrosion Monitoring
    • Big Data and Machine Learning for Predicting Corrosion Failures and Maintenance Needs
    • Integrating Corrosion Control into Digital Twin and Asset Management Systems
  • Session 3: Global Standards and Future Challenges in Corrosion Control
    • International Standards for Corrosion Control in Power Systems (ISO, NACE, ASTM)
    • Addressing Future Challenges: Climate Change, Aging Infrastructure, and Sustainability
    • The Role of Corrosion Control in Building Resilient Power Systems for the Future
  • Activity: Group Discussion – Exploring Future Trends in Corrosion Control for Power Infrastructure

Course Delivery:

  • Interactive Lectures: Comprehensive lectures covering corrosion mechanisms, prevention strategies, and case studies.
  • Hands-on Training: Practical exercises and demonstrations on corrosion control methods, inspection techniques, and maintenance practices.
  • Case Studies: Real-world examples of corrosion-related issues and solutions in power systems.
  • Workshops: Collaborative sessions for developing corrosion control programs and strategies for specific power infrastructure projects.
  • Monitoring and Maintenance Tools Demonstration: Introduction to modern corrosion monitoring tools and technologies.

Location

Dubai

Durations

5 Days

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