2. Master Objectives
• Knowledge and control of the phenomena involved in energy
systems for their design and optimal operation;
• Energy systems based on fossil sources or on new or
renewable energies from economically viable sources;
• Knowledge to be acquired:
– new energies
– energy efficiency
– transversal skills
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3. UEMF Profile
. The UEMF profile aims to provide the student with:
- Certified multi-lingual capabilities (2 languages alongside the mother
tongue)
- Control of ICT tools (Information and Communication)
- Knowledge in entrepreneurship and innovation management;
- Discovery of the history and civilization of the Euro-Mediterranean
region in order to better share its rich heritage
• The laureates of the Master will also be prepared to pursue doctoral
studies by conducting high-level research activities on the thematics
of the Master.
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4. Skills to be acquired
• Understand the phenomena involved
• Assess the potential of renewable energy and sizing of the facilities
• Master the process of generating renewable energy
• Operate an energy system based on renewable energy
• Conduct a study of the economic evaluation of projects
• Evaluate and optimize the energy performance of a system
• Achieve the integration of an industrial site in relation to utilities
• Use the relation between water and energy to develop and manage
industrial and urban systems.
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5. Opportunities
Training to address the needs of qualified human resources to support
the national strategy on energy issues:
• The development of the industrial sector
• The R & D in this field.
The laureates may be employed by:
• Industries: engineering companies, manufacturers, electric power
generation plants, electricity distribution regulators
• R & D Laboratories
• Commercial: any business where the energy consumption is an
important item in their operating costs.
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6. Prerequisites
• Knowledge required:
Solid scientific basis on Chemistry, Physics, Mathematics and
Computer Science.
Degree required:
- Bachelor in Physics, Chemistry or Mathematics and Computer
Science,
- Professional Degree in Process Engineering, Mechanical
Engineering, Electrical Engineering or Industrial Engineering
- Other equivalent qualifications
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7. R3E Master modules
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Descriptifs des modules
Module Code Title module
PTR Transfert Phenomena
TDG General Thermodynamic
MSO Modeling, Simulation & Optimization
IER Introduction to Renewable Energies
CCE1 Euromed Culture & Communication 1
AIS Specific Computer Applications
TGA Applied Thermodynamics
EEI Energetic Efficiency in Industry
AES Energetic Systems Analysis
GDU Utilities Management
ER1 Renewables Energies 1
CCE2 Euromed Culture & Communication 2
ER2 Renewables Energies 2
ISI Integration & optimization of industrial sites
EEB Efnergetic Efficiency of Buildings
PDE Production & Distribution of Electrical Energy
ASI Preliminary Draft of an Energetic System
MIP Innovation & Project Management
PFE Graduation Project
SEMESTER 1
SEMESTER 2
SEMESTER 3
SEMESTER 4
9. Laboratory work
Theoretical training will be, for several courses, supplemented by
practical work taking place in the laboratory to facilitate the
understanding of physical phenomena.
Lab work topics include:
- Transfer phenomena and thermodynamics
- Energy production
- Energy efficiency measurement
To this may be added :
- visits to production facilities and energy management,
- interventions of professionals and industrials involved in the field of
energy.
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