energy systems – A NEW APPROACH TO ENGINEERING THERMODYNAMICS

First Steps in Engineering Thermodynamics

  • A New Educational Paradigm
    • Introduction
    • General remarks on the evolution of training specifications
    • Specifics of applied thermodynamics teaching
    • A new educational paradigm
    • Diapason modules
    • A three-step progressive approach
    • Main pedagogic innovations brought by Thermoptim
    • Digital resources of the Thermoptim-UNIT portal
    • Comparison with other tools with teaching potential
  • First Steps in Thermodynamics: Absolute Beginners
    • Architecture of the machines studied
      • Steam power plant
      • Gas turbine
      • Refrigeration machine
    • Four basic functions
    • Notions of thermodynamic system and state
    • Energy exchange between a thermodynamic system and its surroundings
    • Conservation of energy: fi rst law of thermodynamics
    • Application to the four basic functions previously identified
      • Compression and expansion with work
      • Expansion without work: valves, filters
      • Heat exchange
      • Combustion chambers, boilers
    • Reference processes
      • Compression and expansion with work
      • Expansion without work: valves, filters
      • Heat exchange
      • Combustion chambers, boilers
    • Summary reminders on pure substance properties
    • Return to the concept of state and choice of state variables to consider
    • Thermodynamic charts
      • Different types of charts
      • (h, ln(P)) chart
    • Plot of cycles in the (h, ln(P)) chart
      • 2.11.1 Steam power plant
      • 2.11.2 Refrigeration machine
    • Modeling cycles with Thermoptim
      • Steam power plant
      • Gas turbine
      • Refrigeration machine
    • Conclusion
  • First Steps in Thermodynamics: Entropy and the Second Law

Methodology, Thermodynamics Fundamentals, Thermoptim, Components

  • Introduction
  • Thermodynamics Fundamentals
  • Presentation of Thermoptim
  • Basic Components and Processes
  • Heat Exchangers
  • Examples of Applications
  • General Issues on Cycles, Energy and Exergy Balances

Main Conventional Cycles

  • Introduction: Changing Technologies
    • Limitation of fossil resources and geopolitical constraints
    • Local and global environmental impact of energy
      • Increase in global greenhouse effect
      • Reduction of the ozone layer
      • Urban pollution and acid rain
    • Technology transfer from other sectors
    • Technological innovation key to energy future

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