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Thermodynamic Cycles
Combustion and Vapor Turbine

TRAINING OBJECTIVE

 

PEDAGOGY

Understand the thermodynamic principals and functions (air/smoke and water/steam) necessary for the operation of a cimbined cycle

Length of the course: 5 days

 
  • Theoretical and practical training on the clients' installations
  • Use of videos and industrial examples
  • Individual testing of knowledge at the end of the course

TRAINING PROGRAM

  • Combined cycle: thermodynamic
  • The principles of thermodynamics
  • Main thermodynamic units and their uses
  • Thermodynamics in a combined cycle
  • The T.S and Mollier diagrams for water and steam
  • The psychometric charts and T.S for air
  • The operation of the equipment constituting the thermodynamic cycle of a combined cycle
  • The energies of the transformation process
  • The different values of pressure, temperature and flow of air / smoke operation in diagram form

 
  • Changing parameters during transient phases
  • Pressure readings, temperature and water hardness in the different exchangers of the thermodynamic cycle according to diagrams
  • The power of the CT and compressor
  • The power of the exchangers
  • The power of ST
  • The efficiency of a combined cycle
  • Check the drift of the installation by monitoring the thermodynamic parameters
  • Heritage preservation through the optimization of thermodynamic parameters

TRAINING OBJECTIVE

Understand the thermodynamic principals and functions (air/smoke and water/steam) necessary for the operation of a cimbined cycle

Length of the course: 5 days

PEDAGOGY

  • Theoretical and practical training on the clients' installations
  • Use of videos and industrial examples
  • Individual testing of knowledge at the end of the course

TRAINING PROGRAM

  • Combined cycle: thermodynamic
  • The principles of thermodynamics
  • Main thermodynamic units and their uses
  • Thermodynamics in a combined cycle
  • The T.S and Mollier diagrams for water and steam
  • The psychometric charts and T.S for air
  • The operation of the equipment constituting the thermodynamic cycle of a combined cycle
  • The energies of the transformation process
  • The different values of pressure, temperature and flow of air / smoke operation in diagram form

  • Changing parameters during transient phases
  • Pressure readings, temperature and water hardness in the different exchangers of the thermodynamic cycle according to diagrams
  • The power of the CT and compressor
  • The power of the exchangers
  • The power of ST
  • The efficiency of a combined cycle
  • Check the drift of the installation by monitoring the thermodynamic parameters
  • Heritage preservation through the optimization of thermodynamic parameters