Essentials of Modern Electrical Transmission and Distribution Systems

Course Info

Length: 1 Week

City: London

Type: In Classroom

Available Dates

  • Jan-27-2025

    London

  • Mar-24-2025

    London

  • May-26-2025

    London

  • July-28-2025

    London

  • Sep-22-2025

    London

  • Nov-24-2025

    London

Dates in Other Venues

  • Jan-27-2025

    Istanbul

  • Jan-27-2025

    Paris

  • Jan-27-2025

    Kuala Lumpur

  • Jan-27-2025

    Singapore

  • Jan-27-2025

    Barcelona

  • Jan-27-2025

    Amsterdam

  • Feb-24-2025

    Dubai

  • Apr-28-2025

    Amsterdam

  • Apr-28-2025

    Kuala Lumpur

  • Apr-28-2025

    Dubai

  • Apr-28-2025

    Paris

  • Apr-28-2025

    Istanbul

  • Apr-28-2025

    Singapore

  • Apr-28-2025

    Barcelona

  • June-23-2025

    Dubai

  • July-28-2025

    Barcelona

  • July-28-2025

    Istanbul

  • July-28-2025

    Amsterdam

  • July-28-2025

    Paris

  • July-28-2025

    Kuala Lumpur

  • July-28-2025

    Singapore

  • Aug-25-2025

    Dubai

  • Oct-27-2025

    Kuala Lumpur

  • Oct-27-2025

    Barcelona

  • Oct-27-2025

    Dubai

  • Oct-27-2025

    Amsterdam

  • Oct-27-2025

    Paris

  • Oct-27-2025

    Singapore

  • Oct-27-2025

    Istanbul

  • Dec-22-2025

    Dubai

Course Details

Course Outline

5 days course

 
Introduction

 

  • Overview of a Typical and Modern Systems covering Generation, Transmission and Distribution and the SMART Grid
  • Determination of Flow of Real (P) and Reactive Power (Q)
  • Characteristics and Impact of System and Transformer Fault Levels
  • Control of Reactive Power & Voltage
  • Control of Active Power & System Frequency
  • Effects of Reactive Power Compensation on Voltage Profile
  • Overview of Power System Disturbances

 

Current Operational Problems and System Operations

 

  • Coping with Rising Demand for Power, Carbon Footprint Reduction and Global Warming
  • Symmetrical, Asymmetrical Faults and Effects on Positive, Negative and Zero Sequence Components
  • Monitoring of Plant Condition – e.g. temperature
  • Power System and Substation Automation
  • Increasing Problems of Heavily Loaded Systems - Stability, Voltage Dip
  • Transmission Voltage Levels - Line and Cable Design, Power Loading and De-rating for Temperature Effects
  • Major causes of power system failures
 
Emerging Technologies related to Green Renewable Energy

 

  • Renewable Energy and the Environment - Solar Power, Geothermal Power, Wind Power, Environmental Friendly Storage Batteries
  • ‘Green’ Generation? Is it possible on a large scale or are there stability problems?
  • Demand Side Management - Remote Load Control - Minimising Demand - Optimising Transmission – Coping with Dips and Swells
  • Optical Current Transducers for Protection - Optical Current Sensors Eliminate CT Saturation
  • High Voltage Applications - Surge Protection, Fault Current Limiters Network Switching
  • Non-linear loads - harmonics at PCC - filtering - G5/4 requirements
  • Triplen harmonics  and mitigation techniques
 
Digital Substations, FACTS and HV DC Link

 

  • Digital Substation Architecture
  • Flexibility in AC Systems (FACTS) - Static VAr Compensation - Series Controlled Capacitors
  • Changing Maintenance Schedules, Remote Surveillance of Plant and the Introduction of Unmanned Substations
  • Data Logging
  • HV-DC Links for Stability Improvement
  • Optical Cable Temperature Monitoring
  • SCADA and Artificial Intelligence Systems for Fault Diagnostics

 

 

Numerical Protection Relays and Functionalities; State of the Art Fault Current Limiter

 

  • Advanced Protection and Control Techniques
  • Numerical Relay and Protection Functions
  • Electrical Insulation - Air and SF6 - The Problems
  • Condition Monitoring of Plant
  • Is - Fault Current Limiter, How to Apply
  • GIS Diagnostics – Partial Discharge Techniques
  • Q & A session

Course Video