Curriculum - Master Hydrogen Energy
The aim of this course is to enable students to acquire the basic electrochemistry needed to understand the phenomena inherent in electrical energy storage (batteries, hydrogen).
The aim of this course is to enable students to acquire the necessary knowledge of mathematical tools for engineering, and to apply the knowledge acquired of mathematical tools for engineering to heat/mass transfer and fluid mechanics problems by developing programs (Matlab or C++) for solving partial differential equations.
The aim of this course is to provide extensive and extensible linguistic resources (lexical, phonological, grammatical) through intensive oral and written practice, both in English through dedicated English courses, and in French through the learning of academic work methods taught in the French language.
The aim of this course is to enable students to acquire the basics of automatic system modeling and PID control. In the second part of the course, the aim is to provide students with a broad knowledge of power electronics and the operating principle of various static converters. Students will learn how to synthesize a PID controller from a functional specification.
M121 Energy Production Credit 5
The aim of this course is to enable students to acquire an understanding of the operation of power plants, combustion and heat engines. It provides students with knowledge and know-how in the transformation of energy in turbomachinery and thermal phenomena.
M123 Materials and Structures Credit 5
One of the aims of this course is to enable students to acquire an understanding of the physico-chemical and thermo-hydro-mechanical properties of functional and composite materials. The idea is to provide an overview of materials for energy and their main uses. In addition, it provides students with a broad understanding of the various corrosion and mechanical wear mechanisms that can lead to structural degradation. The course defines the phenomenon of corrosion and lists its different types (electrochemical, galvanic, pitting, aqueous, etc.).
M124 Foreign Languages 2 Credit 3
The aim of this course is to enable students to continue their preparation for the TOEIC test and generally improve their written and oral communication skills in English. Students will also be able to improve their knowledge and know-how of oral, written and audiovisual communication techniques in the French language.
M126 Energy Storage Credit 5
The aim of this module is to provide students with knowledge and know-how on the various forms of electrical and thermal energy storage.
M232 Industrial Computing Credit 5
The aim of this course is to give students a solid understanding and know-how of mathematical tools for digital signals.
M233 Hydrogen chain analysis methods Credit 5
This course is designed to introduce students to the fundamental concepts of supply chain management and the emerging field of green hydrogen, as well as the complexities of managing it.
M235 Building Energy Credit 5
The aim of this course is to give students a basic understanding of the energy characterization of buildings and their envelopes.
The aim of this course is to provide students with a broad understanding of the different water desalination technologies, from the choice of technology to be used, its design and dimensioning, and its optimization.
S241 End-of-Study Project PFE Credit 30
