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.
Core Research Areas
Renewable Integration
Direct coupling of PV arrays with electrolyzers to maximize green hydrogen yield in fluctuating solar conditions.
Smart Grid Dynamics
Advanced power management strategies to balance grid loads and ensure stable electrolyzer operation.
Electrochemical Optimization
Analyzing voltage-current characteristics and temperature effects to enhance stack longevity and efficiency.
Research Data & Documentation
Access the full technical report and experimental datasets.
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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.
- Zero-gap design analysis
- Temperature-dependent efficiency
- Intermittent power handling
- Automated PLC control systems