General engineer, student curriculum, third-year expertise in low-carbon energy and efficient energy systems.
Objectives
In order to meet the challenges of the energy transition, this expertise aims to train engineers capable of understanding and mastering the operation, sizing, and modeling of components and systems for low-carbon energy production and storage and efficient consumption.
Module 1: Societal Issues (15 hours), N. Jonquères
- Global warming
- Global consumption, looking ahead to 2050
- energy transition and legislation
- Renewable, intermittent, and storage energies
Module 2: Theoretical Foundations (38 hours), S. Khelladi, V. Daru, L. Sciacovelli
- Flow, heat transfer, and numerical simulation (16 hours) V. Daru, L. Sciacovelli
- Applied thermodynamics, quantities characterizing energy efficiency (efficiency, concept of exergy, etc.) (10 hours) Deligant
- CFD Project (12 hours) Khelladi
Module 3: Technological elements (50 hours)
- Fluid dimensioning of components (6 hours) Noguera
- Machine technologies and mechanical design (7.5 hours) Sarraf
- Project design of a hydraulic turbine (16 hours) Sarraf
- System modeling (4.5 hours) Ravelet
- Modelica Project (16 hours) Ravelet and Deligant
Module 4: Low-carbon energy production and efficient energy systems (47 hours)
- Renewable resources (resource potential, technologies, state of development, prospects) (15 hours) Sarraf, Noguera
- The nuclear industry (10 a.m.) Ravelet
- Resource/technology/operation suitability for an intermittent renewable energy sector (wind, marine energy, solar, etc.) (10 a.m.) Charpentier
- Energy storage (6 hours) Deligant
- Low-carbon heat production (6 hours) Deligant
