The core principle of the ALK-GFSDJ Series is based on Alkaline Water Electrolysis (ALK), the most industrially mature hydrogen production technology. Within an electrolytic cell filled with potassium hydroxide (KOH) electrolyte, direct current facilitates the electrochemical splitting of water: hydrogen is generated at the cathode while oxygen is produced at the anode. High-density diaphragms provide physical separation to prevent gas mixing, ensuring a hydrogen purity of 99.999%, which meets stringent industrial standards.
The design logic of this series focuses on "Scalable Efficiency" and "Operational Resilience." With a single-unit capacity ranging from 50 to 1000 Nm³/h, the modular architecture allows for the easy construction of megawatt-scale hydrogen production arrays. The outlet pressure is adjustable between 0 and 3 bar, and the integrated explosion-proof valve assembly ensures structural safety while stabilizing intermittent renewable power input. By reducing the capital expenditure per unit of electrolysis, this solution can be deeply coupled with fuel cell systems for long-duration seasonal storage or serve as an independent regional hydrogen supply hub, providing an ideal technical foundation for large-scale, low-cost green energy transition.