The Future of
Green Hydrogen
Unlocking the potential of 25kW alkaline electrolyzer pilot plants for sustainable, renewable-integrated hydrogen production.
64% Efficiency
Achieved optimal system efficiency at 52A current under full load operation, demonstrating robust performance for pilot-scale production.
Exponential Output
Hydrogen flow rate exhibits an exponential asymptotic behavior with stack current, providing predictable scaling models.
Hybrid Integration
Seamless integration of PV arrays and grid power ensures stable operation despite renewable energy intermittency.
Featured in ZDF Documentary
Watch the "Planet e." documentary featuring our pilot plant and the future of green hydrogen technology in Morocco.
Video: Exclusive tour of the Green Hydrogen Pilot Plant facility.
State-of-the-Art Infrastructure
Explore our advanced 25kW alkaline electrolyzer pilot plant and supporting facilities designed for scalable green hydrogen production.
Wide-angle view of the integrated solar-hydrogen facility
Precision-engineered stainless steel piping systems
Advanced monitoring and automated control systems
High-pressure storage tanks for generated hydrogen
Digital Twin Platform
Experience our advanced electrolyzer simulation tool. Visualize performance metrics, adjust parameters, and analyze system behavior in real-time through this interactive digital twin.
Innovation Note: Scaling to 500 MW
While existing literature (cited below) focuses on standard or smaller-scale stack dynamics, our Digital Twin Platform is uniquely engineered to extrapolate these behaviors to a 500 MW industrial scale. This capability allows us to predict thermal runaway, current distribution, and efficiency losses in massive arrays before physical deployment.
Single Stack Unit
~1-5 MW Scale
Industrial Array
500 MW Scale
Dynamic Load Response
Current: Variable | Temp: 60°C
Baseline study on alkaline electrolyzer response to renewable energy fluctuations.
Thermal Management
Temp: 40-90°C | Press: 30 bar
Optimization of operating temperature for efficiency vs. degradation trade-offs.
High Current Density
Current: >10 kA/m²
Safety and stability challenges in high-current alkaline water electrolysis.
Interactive 3D Model
25kW Stack Architecture & Piping System
Advanced Alkaline
Electrolysis
Our research focuses on a 25 kW alkaline electrolyzer pilot plant. By analyzing stack voltage, current, and efficiency, we've mapped the critical parameters for scaling green hydrogen production.
From Pilot Plant to
Hydrogen Cities
The technologies developed in our 25kW pilot plant are the building blocks for Hydropolis—a visionary concept for a fully sustainable, hydrogen-powered civilization.
Scaled Integration
- Industrial-scale H2 production
- Urban energy grid integration
- Sustainable transport networks
- Carbon-neutral living spaces