Energetics Master's degree

Explore the programs and courses offered by Energetics Master's degree

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Program Overview

Learning energetics at university is essential in a world facing major energy challenges such as climate change, the depletion of fossil resources, and the transition to sustainable energy sources. This field allows students to understand the fundamental principles related to the production, conversion, distribution, and use of energy, whether in thermal, electrical, or mechanical form. By mastering this knowledge, students become capable of analyzing the energy efficiency of systems, designing innovative and environmentally friendly solutions, and contributing to the development of clean technologies. Thus, energetics trains engineers and scientists who are vital to building a more sustainable and responsible energy future.


Teaching Language : french, english

Curriculum Highlights

Core Courses

Advanced Fluid Mechanics

Thermal Machines

Advanced Heat and Mass Transfer

Advanced Numerical Methods

Combustion

Gas Dynamics

Thermal Drying

Heating and Air Conditioning

Advanced Turbomachines

Advanced Internal Combustion Engines

Cryogenics

Propulsion Mechanics

Heat Exchangers

Advanced Topics

  1. Renewable Energy: Study of renewable energy sources such as solar, wind, biomass, hydropower, and geothermal energy, and their integration into modern energy systems.
  2. Energy Efficiency: Analysis of technologies and strategies to reduce energy consumption in industrial, residential, and transportation sectors.
  3. Energy Transport: Study of energy-related transport systems, including smart grids and energy storage technologies such as batteries and supercapacitors.
  4. Energy Transition: The process of transforming energy systems based on fossil fuels to more sustainable and decarbonized systems, focusing on policy, economy, and technological innovations.
  5. Energy Production and Distribution: Study of energy production systems (thermal, nuclear, wind, solar, etc.) and their efficient distribution.
  6. Energy Storage Technologies: Exploration of storage solutions like lithium-ion batteries, gravity-based storage pumps, and hydrogen storage systems for more flexible energy management.
  7. Optimization of Energy Systems: Research and development of new, more efficient energy systems, particularly through optimization models and energy management strategies.
  8. Energy and Climate: Study of the interactions between energy production and climate change, as well as global and local policies to limit greenhouse gas emissions.


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Admissions Information

The following bachelor's degrees lead to master's programs:

The Energetics bachelor's degree ranks first in both license compatibility and license assignment.

It is followed by the Aeronautics and Mechanical Construction bachelor's degrees, both ranked second in license compatibility, with a license assignment score of 0.8.

The Process Engineering bachelor's degree ranks third in compatibility, with a license assignment score of 0.7.

  • Finally, the Additional ST licenses rank fourth, with lower compatibility and a license assignment score of 0.6
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