Thermodynamics

6JUCSN04

ECTS3SEMESTER6
lecturesclasses / seminarspractical workintegrative teachingindependent work
10h20h0h0h20 h
Language used
French


Course supervisor(s)

  BARRAT Silvere

Key words
Thermodynamics, fluids ,matter, energy, stability, instability
PrerequisitesThermodynamics of CPGE classes
Overall objective

At the end of the module, students will be able to apply concepts of thermodynamics to industrial machines and the transformations of matter that take place in them

Course content and organisation

Part I : energy use and transformations in non-ideal systems

    -Closed systems at non uniform temperature
    -Chemically inert open systems in steady state
   - Optimal use of energy
   - Use of yields (isentropic, energetic, exergetic)

Part II: use and transformations of matter

    Evolution, equilibrium and stability of matter. Relative stability of phases
    Surfaces and interfaces
    Evolution of divided matter

Examples of problems addressed in tutorials: Heat transfer in foundry, optimization of a multistage compressor
optimization of a multistage compressor, use of ocean thermal energy, storage and use of industrial gases, industrial synthesis of diamond, oil extraction in underground environment, industrial evaporator-condenser.

Skills

Levels Description and operational verbs
Know The first and second principles of thermodynamics - Thermodynamic efficiency - Entropy generation - Mollier diagrams - Surface tension - Characteristic functions
UnderstandHeterogeneous temperature systems - Steady state systems - The origin of irreversibilities in real machines - Relative stability of phases - The nucleation of a new phase.
Apply  Principles of thermodynamics for an industrial machine transforming a fluid or matter - Mollier diagram for the transformation of a fluid Know how to construct a characteristic function
Analyse 

A complex system to reduce it to an analyzable thermodynamic system - Know how to analyze the performance of an industrial installation in terms of energy and exergy

SummariseGather physical and thermodynamic data of a fluid or a material being transformed in an industrial machine
AssessThe relevance of a numerical result in relation to the scale of the system studied
Compliance with the United Nations Sustainable Development Goals
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Evaluation methods
Continuous assessment
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Written test
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Oral presentation / viva
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Written report / project
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  • Aucune étiquette