Gas Turbine Technology

Course Info

Length: 1 Week

Type: In Classroom

Available Dates

Venue

  • Dec-23-2024

    Singapore

  • Dec-30-2024

    Paris

  • Jan-27-2025

    London

  • Jan-27-2025

    Dubai

  • Feb-24-2025

    Istanbul

  • Feb-24-2025

    Singapore

  • Feb-24-2025

    Paris

  • Feb-24-2025

    Barcelona

  • Feb-24-2025

    Amsterdam

  • Mar-24-2025

    Dubai

  • Mar-24-2025

    London

  • May-19-2025

    London

  • May-19-2025

    Dubai

  • May-26-2025

    Amsterdam

  • May-26-2025

    Paris

  • May-26-2025

    Istanbul

  • May-26-2025

    Barcelona

  • May-26-2025

    Singapore

  • July-28-2025

    Dubai

  • July-28-2025

    London

  • Aug-25-2025

    Singapore

  • Aug-25-2025

    Amsterdam

  • Aug-25-2025

    Istanbul

  • Aug-25-2025

    Barcelona

  • Aug-25-2025

    Paris

  • Sep-01-2025

    London

  • Sep-01-2025

    Dubai

  • Nov-24-2025

    Barcelona

  • Nov-24-2025

    Paris

  • Nov-24-2025

    Singapore

  • Nov-24-2025

    Istanbul

  • Nov-24-2025

    Amsterdam

  • Dec-29-2025

    London

  • Dec-29-2025

    Dubai

Course Details

Course Outline

5 days course

Foundations of Gas Turbine Technology

  • Introduction to Gas Turbine Components
  • Energy Transformations in Gas Turbine Engines
  • Fluid Flow in Gas Turbines
  • Simple cycle gas turbine performance in terms of power, fuel consumption and thermal efficiency

Fuel Dynamics and Control Systems in Gas Turbines

  • Effect of fuel choice on corrosion, emissions, and component life
  • Effect of ambient temperature and pressure on performance
  • Control System of Gas Turbine
  • Power Electronics and Electrical Components of Gas Turbines
  • Applications of Gas Turbines

Design and Operation Insights of the Mechanical Components of Gas Turbines

  • Compressor and turbine design and performance and their characteristics and matching
  • Compressor surge and its prevention
  • Combustor types, chamber design, fuel atomisation and ignition
  • Constraints imposed by fuels on the design and operation of the combustor

Maintenance, Cogeneration, and Renewable Integration in Gas Turbines

  • Gas Turbine Repair and Maintenance
  • Cogeneration of heating and power (CHP) in Gas Turbines
  • Cogeneration of cooling, heating, and power (CCHP) in Gas Turbines
  • Potential of renewable energy sources in Gas Turbines

Micro Gas Turbines: Innovative Technology Inspired by Gas Turbines

  • Assessing the operational and performance disparities between Gas Turbines and Micro Gas Turbines
  • Evaluating the Levelized Cost of Electricity for both Micro Gas Turbines and Gas Turbines
  • Conducting a Market Analysis for Micro Gas Turbines and Gas Turbines
  • Identifying areas for improvement in Micro Gas Turbines