1. Master
Renewable Energies &
Energy Efficiency (R3E)
Barcelona, Maghrenov workshop
19th & 20th June 2014

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

8. Distribution of modules
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RENEWABLES
ENERGIES
ENERGETIC
EFFICIENCY
BASIS:
MATHEMATICS-
COMPUTER
SCIENCES &
ENGINEERING
UEMF PROFILE
3x 56 h
5x 56 h
7x 56 h 3x 56 h
End of Studies Project

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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