P2H2's proprietary technology enables Hybrid Anion Exchange Membrane (AEM) electrolysis to be cost-effective against alkaline and PEM Technologies and compatible with renewable energy sources. Using readily available, reasonably priced commodities lowers costs and supply chain bottlenecks.
The advantages of this technology include:
- Decreased supply chain bottlenecks associated with fluorinated materials and rare minerals
- 65 % less expensive stack than incumbents
- 10 % increase in efficiency for lower OPEX
- Simplified balance-of-plant for reduced total system expenses
Power to Hydrogen Target Markets
- Energy storage
- Industrial hydrogen
- Hydrogen and oxygen users
- Clean transport
- Independent power/resilience
- Natural gas blending
Source: Power to Hydrogen
| Features |
Specifications |
| Technology |
Hybrid AEM water electrolysis |
| Power Supply |
1 MW | three phase, 480 V, 1200 A |
| Hydrogen Production |
21.6 kg/hour |
| Oxygen Production |
165 kg/hour |
| System Specific Consumption |
46.3–50.5 kWh/kg of H2, dependent on operating range |
| Operating Range |
10 % to 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 to the Plant |
Electrical power, potable water, and sanitary sewer |
| Potable Water Consumption |
20 L/kg |
| Dimensions |
Standard ISO 20’ shipping container 20’ L x 8’ W x 8.5’ H |
| Installation Environment |
-4 to 104 °F outdoors |
Power to Hydrogen's electrolysis systems employ 250 kW stacks that can be installed in installations ranging from 250 kW to 25 MW.
P2H2's Hybrid AEM electrolyzers help users reduce the cost of hydrogen production projects. Higher current density, less plant balance, and more affordable materials lower capital requirements and help the user achieve their objectives for inexpensive, clean hydrogen.