Explore the programs and courses offered by Green Hydrogen
Browse Programs Admission InformationThe Renewable Energy and Green Hydrogen Engineering program is a cutting-edge discipline designed to address global and national energy challenges through sustainable hydrogen technologies. Aligned with Algeria’s energy diversification strategy and the
national hydrogen development roadmap, this program equips students with multidisciplinary expertise to lead the transition toward a carbon-neutral economy.
The curriculum encompasses the full hydrogen value chain, integrating:
1. Production: Electrolysis (solar/wind-powered), biomass conversion, and other renewable methods.
2. Storage & Distribution: Advanced techniques for gaseous, liquid, and carrier-based hydrogen (e.g., ammonia, methanol).
3. Applications: Fuel cells, combustion systems, industrial processes (e.g., ammonia synthesis, Power-to-X), and grid stabilization.
With a strong practical focus, students engage with real-world projects, preparing them for careers in energy system design, industrial optimization, and policy-driven sustainability initiatives.
Hydrogen Chemistry: Fundamental properties and reactions.
Electrochemistry: Principles of fuel cells and energy storage.
Water Quality Management: Purification for efficient electrolysis.
Green Hydrogen Production: Solar/wind-powered electrolysis, thermochemical
cycles.
Hydrogen Storage & Distribution: Cryogenics, metal hydrides, and carrier
technologies.
Hydrogen Transport & Infrastructure: Pipeline networks, safety protocols, and
supply chain logistics.
Techno-Economic Optimization: Cost-performance analysis of hybrid renewable- hydrogen systems.
Project Management & Life Cycle Assessment: Sustainability metrics for hydrogen projects.
Industrial Applications: Hydrogen in mobility, aerospace, and chemical manufacturing.
Power-to-X (P2X): Conversion of hydrogen into synthetic fuels and chemicals.
3. Practical Training
Lab Work: Electrolysis prototyping, fuel cell testing, and storage material characterization.
Capstone Projects: Industry collaborations addressing real hydrogen challenges. Internships: Partnerships with energy firms and research institutions.
For preparatory classes: The minimum baccalaureate average is 14.
For engineering specializations: Admission is through a competitive exam for entry into the second year of higher schools.
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