PEM/AEM water electrolysis technology utilizes an ion exchange membrane as the separator in the electrolyzer to decompose water into hydrogen and oxygen. Compared to traditional alkaline water electrolysis technology, it features high efficiency, fast response, and strong adaptability to grid fluctuations, making it a primary direction for the development of green hydrogen in the future.
l High Efficiency: It offers a more advantageous overall hydrogen production energy efficiency ratio, enabling high-efficiency hydrogen output.
l High Pressure: The output pressure is flexibly adjustable, supporting pressure output of over 3MPa.
l Convenience: Compact in size, easy to install and maintain, and can be freely assembled to meet the demand for large-volume hydrogen production.
l Fluctuation Coupling: It has good fluctuation coupling with renewable energy sources.
Model | HAE125 | HAE1100 | HPE1500 |
Hydrogen Production (Nm³/h)
| 5 | 20 | 100 |
Current (A) | 510 | 950 | 2242 |
Pressure Adjustment Range | 5-120% | ||
Dew Point (℃) | -70 | ||
Pressure (MPa) | 0.1-3.0 | ||
Hydrogen Purity (after purification) | 99.999% | ||
Electrolysis Cell Efficiency (kWh/m³) | ≤4.5 | ||
Electrolysis Cell Temperature (℃) | ≤85 | ||
Water Consumption (L/h) | 5 | 20 | 100 |
Cooling Water Usage (m³/h) | 4 | 12 | 18 |