Electrolysis at the wellhead uses electricity from Geo-Engines to split water into hydrogen and oxygen, right where the energy is generated. This removes the need for external power sources or off-site hydrogen production facilities.
By capturing energy from HPHT gas streams, Geo-Engines produce clean electricity that can be used to power electrolysers on location. The result is a self-sufficient, modular hydrogen production setup that supports decarbonisation at the source.
Geo-Engines harness pressure and heat from gas that would otherwise be flared or wasted. That energy is converted into stable electricity, which is then used to drive the electrolysis process.
This hydrogen can be:
- Used on-site as a clean fuel
- Stored for later use
- Supplied to nearby operations or transport networks
The entire process happens at or near the wellhead, reducing infrastructure costs, energy losses, and environmental impact.
- Reduces emissions: Eliminates the need to power electrolysis with diesel or grid energy
- Improves site efficiency: Uses existing resources to generate fuel locally
- Enables energy storage: Converts surplus electricity into hydrogen for future use
- Supports net-zero goals: Facilitates clean fuel adoption in remote or industrial settings
As hydrogen becomes a key part of decarbonising heavy industry and transport, on-site production methods will be essential. Geo-Engines make it possible to produce hydrogen using resources that are already available at the wellhead.
This technology offers a fast, flexible, and low-impact way to generate clean fuel, helping operators turn their energy into a long-term advantage.
