Training Objectives
Electromechanical engineering trains engineers capable of designing, operating, and maintaining industrial systems that integrate mechanics, electricity, and automation. The program develops skills in maintenance, production, robotics, and project management to meet the performance and innovation requirements of the industrial sector.
Targeted Skills
An electromechanical engineer must be able to:
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Design, implement, and improve an electromechanical system.
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Define industrialization methods and implement production processes.
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Optimize energy consumption.
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Plan and supervise production and maintenance procedures.
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Use computer tools for validation, simulation, and control of electromechanical systems.
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Develop quality procedures, comply with applicable standards, and implement corrective actions.
Fields of Application
Career prospects
Mechanical Engineer
Design, development and improvement of mechanical systems, industrial equipment and technical solutions.
Research & Development Engineer
Design, innovation and development of new products, processes or technical solutions.
Design Office, Methods & Testing Engineer
Technical design, optimization of production methods, carrying out studies and validation tests.
Quality & Production Engineer
Implementation of quality control, optimization of industrial processes and improvement of production performance.
Energy Engineer
Design, management and optimization of energy systems, thermal installations and energy efficiency solutions.
Methods Engineer
Development, organization and optimization of work methods, manufacturing processes and production resources.
Electromechanical Engineering Program
First Year – Semester 1
First Year – Semester 2
Second Year – Semester 3
Second Year Semester 4
3rd Year, Semester 5 – Common Core
3rd Year, Semester 5 – Thermal Machines Option: Industrial Refrigeration and Air Conditioning
3rd Year, Semester 5 – Manufacturing Engineering Option
3rd Year, Semester 5 – Mechanics and Structural Engineering Option
3rd Year, Semester 6
- Engineering Mathematics
- Algorithms and Data Structures
- Atelier Mathématiques
- Programming Languages
- Computer Workshop – MATLAB
- Strength of Materials
- Manufacturing Processes and Material Processing Techniques
- Mechanical Design
- Fluid Mechanics
- Mechanical Design Project
- Electrotechnics 1: Electrical Circuits
- Automation 1: Control of Continuous Linear Systems
- Elective Module: Physics of Semiconductor Components, Measurement and Instrumentation
- Electrical Circuits / Linear Systems Simulation Project
- General Economics
- English 1
- French 1
- Engineering Mathematics II
- Probability and Statistics
- Numerical Analysis
- Continuum Mechanics
- Power Transmission
- Heat Transfer
- Vibrational Mechanics
- Occupational Health and Safety
- Project: Thermal and Vibrational Analysis of a Mechanical System
- Electronics 1
- Logic Circuits
- Automation 2: Control of Sampled-Data Systems
- Project: Logic and Digital Control
- Business Management
- Labor Law and Engineering Ethics
- English 2
- French 2
- Operations Research
- Dynamic Systems Analysis
- Autonomous Project Optimization and Simulation
- Applied Thermodynamics
- Solid Mechanics
- Structural Analysis
- Metallurgy and Metal Treatment
- Materials and Technological Innovations
- Innovative Materials Project
- Electronics 2
- Electrical Machines 1
- Industrial Electronics
- Electromechanical Systems Study and Simulation Project
- Entrepreneurship and Innovation
- English 3
- French 3
- Mechanics and Materials Processing
- Non cutting material processing methods
- Destructive and Non-Destructive Testing of Metals
- Project: Processing and Characterization of Materials
- Lean Management – Manufacturing
- Mini CAD/CAM Project
- Programmable Logic Controllers (PLC) and Microprocessors
- Modeling and State-Space Control
- Integration Project: Control of an Electromechanical System
- Electrical Machines II
- Electronics Lab, Industrial Electronics and Automation
- Corporate Social and Environmental Responsibility Project
- English 4
- French 4
- Supervised Personal Project (SPP)
- Numerical Control Machine Technology
- Production Line Technology
- Machining Techniques on Special Machines
- In-Service Performance of Materials
- Study of Industrial Thermal and Refrigeration Systems
- Compressible Fluid Dynamics
- Independent Project: Study and Simulation of Thermo-Fluid Systems
- Data Transmission Network 4.0
- Nonlinear Control Systems
- Control and Instrumentation Process
- Systems Maintenance – CMMS
- CMMS Project: Industrial Case Study
- Scientific Research Methodology in GELM
- English 5
- French 5 – Communication Techniques
- Industrial Refrigeration Systems
- Industrial Energy Engineering
- Air Conditioning Systems
- CNC Programming and CAM
- Industrial Control and Supervision
- Flexible Manufacturing Systems and Robotics
- Structural Modeling
- Computer-Aided Structural Analysis
- Modeling of Material Behavior
- Final Year Project
- First-Year Internship
- Second-Year Internship
EUR-ACE® Accredited Engineering Degree and Membership in the Order of Tunisian Engineers
