We use the geothermal heat and pressure in natural gas to generate clean electricity, but that’s just the start. Geo-Engines™ provides energy where it’s needed most, supporting emissions reduction, hydrogen generation, and carbon capture. It’s a smarter use of energy that works with existing infrastructure to deliver meaningful environmental and commercial impact.
Surplus electricity from Geo-engines powers electrolysis, turning the geothermal energy into a valuable hydrogen resource.
Expected cost per MWh
More carbon-efficient than wind
Recyclable after 20 years
Geo-Engines aren’t just an idea. They’re validated, patented, and ready for deployment. Our technology transforms wasted energy from sour gas and abandoned fields into clean power.
With proven IP and engineering-ready designs, the system supports carbon capture and enables future Net Zero operations in even the world’s most challenging environments.
From remote gas fields to carbon capture hubs, Geo-Engines™ are designed to operate in high-impact environments. These examples show how our technology delivers results across different industrial settings.
Solar and wind are essential to the energy transition, but their variability limits how far they can go alone. To build reliable, scalable and cost-effective clean systems, constant sources like engineered geothermal must complement renewables and fill the base load gap.
As we developed the Geo-Engine, we partnered with PSW Integrity to design and validate bespoke control and monitoring systems for high-pressure operation. This collaboration strengthened the reliability foundation of the technology and supports future development.
Hydrogen is key to the clean energy transition, with increasing emphasis on scaling clean production. PEM electrolysis offers a flexible, zero-emissions method by splitting water into hydrogen and oxygen. Maintaining optimal temperature is crucial for efficiency, but traditional heating methods add cost and inefficiency. At Geo-Engines, we use stable low-grade geothermal heat to sustain ideal conditions, boosting efficiency and enabling scalable geothermal hydrogen production.
