Master’s degree in energy for sustainable engineering

Résumé

The mobility of people and objects consumes a large quantity of natural resources, in terms of both materials and energy. energy efficiency, energy sobriety, and decarbonized energies are the keys for a sustainable future. Read more

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Secrétariat de l’?cole Universitaire de Physique et d'Ingénierie 

Details

Institution
Duration
  • 2 years
Places
  • Aubière
Internship(s)
  • Yes
Published on 24 juin 2022

Introduction

This master’s degree offers students multidisciplinary training in the field of engineering applied to energy production, storage, supply, and management, including in particular:

  • renewable energy (bioenergy, solar from materials to panels)
  • hydrogen production and power-to-gas
  • sustainable mobility based on hydrogen, power, or liquid biofuels
  • energy efficiency for industrial and service sectors

Take advantage of specialized training and research bench-scale to pilot-scale facilities of the chemical and biochemical engineering laboratory, and of the engineering physics workshops (CAD, soldering, 3D printing, physicochemical properties) of POLYTECH Clermont for project-based learning.

Places

Aubière

Person in charge of the academic program

  • M. Christophe VIAL

Partnership

Corporations

Institut Pascal (chemical engineering, bioenergy, solar energy, physics), Excellence Laboratory on sustainable mobility (LabEx IMobS3) and CIR ITPS (Innovative Systems for Transportation and Production), Michelin, Bio-Valo

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Admission

  • Prerequisites training

    • Applicants should already have passed/validated a bachelor’s degree in Physics, Physical Chemistry, Materials Engineering, Chemical Engineering, or Biochemical Engineering.
    • The selection process will be based on the examination of the application file (cv, transcript of the BEng, English language certification). The candidate may be invited to an interview.

Program

Les informations ci-dessous sont données à titre indicatif et peuvent faire l'objet de mises à jour.

Content of the academic programm

1st semester

  1. Energy tools for engineers (50 hrs.)
  2. Specialized energy tools in chemical and biochemical engineering (50 hrs.)
  3. Specialized energy tools in engineering physics (50 hrs.)
  4. Project in energy and sustainable development (150 hrs.)
  5.  Humanities, French, English (50 hrs.)

2nd semester

  1. Energy tools for engineers (50 hrs.)
  2. Sustainable development (50 hrs.)
  3. Project in energy and sustainable development (50 hrs.)
  4. Humanities, French, English (50 hrs.)
  5. 16-week internship in a research laboratory (academic or industrial)

3rd semester

  1. Energy engineering (40 hrs.)
  2. Decarbonized energy (40 hrs.)
  3. Energy efficiency (40 hrs.)
  4. Energy storage and supply (40 hrs.)
  5. Energy management (40 hrs.)
  6. Sustainable Mobility (60 hrs.)
  7. Research and innovation project (100 hrs.)
  8. Humanities, French, English (40 hrs.)

4th semester

Final internship (5-6 months)
 

3 school projetcs and 2 internships

  • 4- month internship between the 2nd and 3rd semesters
  • final internship (5-6 months)

What's next ?

Level of education obtained after completion

Year of highschool graduation

Bac +5

Level of education obtained after completion

Level 7: Master's degree