The Hybrid Anion Exchange Membrane (AEM) electrolysis technology offers a cost-effective solution that can be seamlessly coupled with renewable energy sources using P2H2’s patented and proprietary innovations.
By relying on abundant, low-cost materials, the system helps minimize expenses and alleviate supply chain constraints.
Key advantages include:
- Fewer supply chain challenges associated with scarce minerals and fluorinated components
- 10 % improvement in efficiency for reduced OPEX
- 65 % reduction in stack costs compared to incumbents
- A simplified balance-of-plant design that decreases total system costs
Power to Hydrogen's Target Markets
- Independent power/resilience
- Industrial hydrogen
- Energy storage
- Hydrogen and oxygen users
- Clean transportation
- Natural gas blending
Source: Power to Hydrogen
| Features |
Specifications |
| Technology |
Hybrid AEM water electrolysis |
| Power Supply |
10.0 kW | three phase, 480 V, 30 A |
| Hydrogen Production |
.13 kg | 1.44 NM3 |18,720 BTU per hour |
| Oxygen Production |
1.04 kg per hour |
| System Specific Consumption |
46.3–50.5 kWh/kg of H2, dependent on operating range |
| Operating Range |
40–100 % |
| H2 Output Pressure |
30 Bar |
| O2 Output Pressure |
10 Bar with 30 Bar add-on |
| H2 Quality |
99.9 % with add-on for 99.999 % |
| O2 Quality |
> 99 % |
| Utilities Required for the Plant |
Electrical power, potable water |
| Potable Water Consumption |
20 L/kg |
| Dimensions (W x D x H) |
40” x 20” x 72” (reconfigurable for smaller formats) |
| Installation Environment |
-4 to 104 degrees °F outdoors |
Power to Hydrogen's electrolysis systems can operate in parallel, enabling deployment in installations exceeding 10 kW.
AEM electrolyzers represent a next-generation approach for producing lower-cost clean hydrogen. Many organizations are seeking opportunities to become familiar with this emerging technology through low-risk systems before scaling deployment to industrial applications.