Open to all students of civil and mechanical engineering and electromechanical engineering, classes in this major review the subject of energy in the real world.
This subject is addressed in its entirety first by the study of production techniques and energy conversion (thermal machines, nuclear energy, renewable energy) followed by an analysis of the risks associated with energy production and the means of minimising these risks (major risks, pollution) and finally a study of energy consumption and its consequences.
This major is complemented by the major in Aeronautics for those students interested in problems of energy and motorisation in aeronautics. This is also the case for the major in Dynamics, Robotics and Biomechanics as well as the major in Design, Manufacturing and Materials Mechanics for students interested in dynamics, automation, and materials used in the design and maintenance of systems of production and energy conversion.
This subject is addressed in its entirety first by the study of production techniques and energy conversion (thermal machines, nuclear energy, renewable energy) followed by an analysis of the risks associated with energy production and the means of minimising these risks (major risks, pollution) and finally a study of energy consumption and its consequences.
This major is complemented by the major in Aeronautics for those students interested in problems of energy and motorisation in aeronautics. This is also the case for the major in Dynamics, Robotics and Biomechanics as well as the major in Design, Manufacturing and Materials Mechanics for students interested in dynamics, automation, and materials used in the design and maintenance of systems of production and energy conversion.
> Legend 
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| De 19 à 30 credits parmi | ||||||||
| Annual block | ||||||||
| 1 | 2 | |||||||
LENVI2007
|
Renewable energies | Xavier Draye; Patrick Gerin (coord ); Herve Jeanmart; Geoffrey Vanmoeseke; | 30h | 4 credits | 1q | x | x | |
|
LMECA2160
|
Combustion and fuels | Miltiadis Papalexandris; | 30h+30h | 5 credits | 1q | x | x | |
|
LMECA2240
|
Testing of thermal machinery. | Herve Jeanmart; | 15h+15h | 2 credits | 2q | x | x | |
|
LMECA2325
|
Biomass conversion | Patrick Gerin; Herve Jeanmart; | 30h+30h | 5 credits | 1q | x | x | |
|
LMECA2420
|
Advanced topics in energetics. | Yann Bartosiewicz; Herve Jeanmart; | 30h | 3 credits | 2q | x | x | |
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LMECA2600
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Introduction to nuclear engineering and reactor technology | Hamid Aitabderrahim; | 30h+30h | 5 credits | 1q | x | x | |
|
LMECA2711
|
Quality management and control. | Nicolas Bronchart; | 30h+30h | 5 credits | 2q | x | x | |
|
LMECA2771
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Thermodynamics of irreversible phenomena. | Miltiadis Papalexandris; | 30h+30h | 5 credits | 2q | x | x | |
|
LMECA2780
|
Fluid compressors | Tony Arts; | 30h+30h | 5 credits | 2q | x | x | |
