2024-2025 / MECA0002-1

Applied Thermodynamics and Introduction to Heat Engines

Duration

26h Th, 26h Pr

Number of credits

 Bachelor of Science (BSc) in Engineering5 crédits  
 Master Msc. in Energy Engineering, professional focus in Energy Conversion5 crédits  
 Master MSc. in Electromechanical Engineering, professional focus in energetics (Inscriptions closes)5 crédits  
 Master Msc. in Energy Engineering, professional focus in Networks5 crédits  

Lecturer

Vincent Lemort

Language(s) of instruction

French language

Organisation and examination

Teaching in the first semester, review in January

Schedule

Schedule online

Units courses prerequisite and corequisite

Prerequisite or corequisite units are presented within each program

Learning unit contents

This class aims at understanding and being able to describe the operating principle of the most used thermal machines. The latter ones include thermal engines and heat pumps/refrigerators. For each of them, the ideal thermodynamic cycle described by the working fluid will be represented in the most usual thermodynamic diagrams. The lectures will cover the different « performance losses » occurring in actual machines and show how the actual cycle differs from the ideal one. Performance criteria of thermodynamic machines and their components will be introduced. The study of these machines and components will be based on the First Law of Thermodynamics (applied to closed systems and control volumes, in steady-state and transient regimes), as well as on the Second Law. The class will introduce the concept of exergy (« quality/availability of heat »), humid air and combustion.

 

Table of contents is given hereunder (it follows that of the reference textbook)

Chapter 0 : Introduction
Chapter 1: Basic concepts
Chapter 2: Energy, energy transfer and general energy analysis
Chapter 3: Properties of pure substances
Chapter 4: Energy analysis of closed systems
Chapter 5: Mass and energy analysis of control volumes
Chapter 6: The second law of thermodynamics
Chapter 7: Entropy
Chapter 8: Exergy
Chapter 9: Gas power cycles
Chapter 10: Vapor and combined power cycles
Chapter 11: Refrigeration cycles
Chapter 14: Air - water-vapor mixtures
Chapter 15: Combustion

 

 

Learning outcomes of the learning unit

This course contributes to the learning outcomes I.1, I.2, II.1, III.1, III.2, IV.1, IV.2, V.1 of the BSc in engineering.

 

Prerequisite knowledge and skills

   

Planned learning activities and teaching methods

 

 

 

 

 

Mode of delivery (face to face, distance learning, hybrid learning)

Face-to-face course


Additional information:

 

 

 

Course materials and recommended or required readings

    

Exam(s) in session

Any session

- In-person

written exam ( open-ended questions )


Further information:

Closed-book exam consisting of exercises, theory questions, and questions related to laboratory sessions (70% of the final grade).

Assignments to be completed using EES software (30% of the final grade).

Attendance at laboratory sessions is mandatory. The knowledge gained from these sessions will be assessed during the exam (see above).





 

 

 

 

 

 

Work placement(s)

Organisational remarks and main changes to the course

Contacts

 

 

Association of one or more MOOCs