Professional Licence in Renewable Energy and Environment

Explore the programs and courses offered by Professional Licence in Renewable Energy and Environment

Browse Programs Admission Information

Program Overview

Program Overview – Professional Bachelor's Degree in Renewable Energies and Environment

The Professional Bachelor's Degree in Renewable Energies and Environment is designed to train highly qualified technicians with practical and theoretical knowledge in the field of sustainable energy and environmental protection. The program spans three academic years (six semesters), combining fundamental scientific education, technical skills, and hands-on experience in renewable energy technologies.

Key Objectives:

  • Develop strong foundations in physics, chemistry, and engineering sciences related to energy.
  • Provide in-depth knowledge of various renewable energy sources, including solar, wind, biomass, and geothermal.
  • Equip students with practical competencies in energy systems design, environmental monitoring, and sustainable development strategies.
  • Foster project management skills and promote awareness of environmental regulations and energy efficiency practices.

Program Structure:

  • Semester 1 & 2: Focus on basic sciences (mathematics, physics, chemistry), introductory technical subjects, and computer skills.
  • Semester 3 & 4: Emphasize core technical knowledge in energy systems, electronics, thermal engineering, and renewable energy fundamentals.
  • Semester 5: Specialization phase with advanced modules on solar thermal and photovoltaic systems, energy efficiency, and professional practices.
  • Semester 6: Dedicated to a practical internship in a company or energy-related institution, enabling students to apply their knowledge in real-world settings.

Career Opportunities:

Graduates are well-prepared to work in:

  • Renewable energy installation and maintenance companies
  • Environmental consultancy and monitoring agencies
  • Public and private energy management bodies
  • Research and development centers in sustainable technologies
Teaching Language :

Curriculum Highlights

Core Courses

The curriculum includes a comprehensive set of core courses that form the backbone of the training. These foundational courses are designed to provide students with a broad understanding of energy systems and environmental dynamics. Topics include:

  • Thermodynamics and Heat Transfer: essential for understanding energy flows and system efficiency.
  • Fluid Mechanics: relevant to wind energy systems, hydropower, and thermal processes.
  • Electrical Machines and Power Systems: focusing on energy conversion, distribution, and system safety.
  • Solar and Wind Energy Technologies: covering system design, operation, and maintenance.
  • Environmental Impact Assessment and Sustainability: providing tools to evaluate and mitigate environmental risks.
  • The courses combine theoretical instruction with practical applications, enabling students to gain skills that are directly transferable to renewable energy industries


Advanced Topics

To prepare students for emerging trends and innovations in the renewable energy and environmental sectors, the program includes advanced-level courses that bridge scientific theory with technological applications. These include:

  • Photovoltaic System Design and Simulation: exploring technical specifications, performance analysis, and integration with the grid.
  • Energy Storage and Smart Energy Management: focusing on batteries, hydrogen storage, and intelligent energy use in microgrids.
  • Environmental Monitoring and Modeling: introducing tools and software used in pollution tracking, climate modeling, and ecosystem management.
  • Artificial Intelligence in Renewable Energy Systems: applying machine learning and data analytics to optimize energy forecasting and system control.
  • Sustainable Urban Planning and Green Building: offering insights into energy efficiency in construction and urban infrastructure.
  • These modules ensure that graduates are not only technically competent but also aware of cutting-edge technologies and ready to contribute to innovative projects in the field


View Full Curriculum

Admissions Information

The program is open to candidates who have successfully completed a recognized technical diploma such as a BTS (Brevet de Technicien Supérieur), DUT (Diplôme Universitaire de Technologie), or an equivalent qualification in fields related to physics, mechanics, electromechanics, energy systems, or environmental technologies. Applicants with two years of university studies in scientific or technological domains may also be considered. Selection is merit-based and takes into account academic records, motivation, and alignment with the objectives of the program. In addition to strong academic performance, candidates are expected to demonstrate a keen interest in sustainable development, clean technologies, and environmental challenges. The program is particularly suited for individuals seeking to specialize and enter the job market quickly, with professional and industry-relevant skills

Apply Now