INSIGHTS

A look at how on-site energy recovery helps operators strengthen resilience, manage volatility and create a more stable foundation for long-term operational performance.

Europe’s proposed 2040 climate target calling for a 90% emissions reduction puts new urgency on using existing energy infrastructure more effectively. Subsurface systems will play a key role in geothermal heat, CO₂ storage and hydrogen storage. This post explains how Geo-Engines helps operators turn high-temperature gas streams into on-site power to support practical decarbonisation and move climate policy from ambition to action.

Geo-Engines technology delivers more than renewable power. By harnessing subsurface heat and pressure, our systems also produce clean water as a natural byproduct. This dual benefit helps communities facing both energy scarcity and water stress build lasting resilience.

Europe’s ageing oil and gas fields could hold the key to its clean hydrogen future. By repurposing existing wells and infrastructure for geothermal heat, Geo-Engines systems enable efficient, low-carbon hydrogen production—turning legacy energy sites into assets for a resilient, renewable Europe.

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.

Discover why constant, reliable clean energy is vital for modern economies and how Geo-Engines technology helps fill the base load gap in renewable strategies.

Gas fields aren’t just a legacy of the past. With the right technology, they can generate clean power at the source and help drive industrial decarbonisation. Here’s how Geo-Engines turns waste gas into energy.

Net zero isn’t just about targets. It’s about smarter, more sustainable ways of getting there. Discover how Geo-Engines enable localised, low-emission power that helps industries decarbonise faster and more effectively.

Industrial waste heat is one of the most overlooked energy sources on the planet. Here’s how Geo-Engines recover that lost energy and turn it into reliable, clean power at the point of need.

Remote sites are often held back by poor infrastructure and limited power access. Geo-Engines provide on-site, clean electricity that unlocks new possibilities for operations in even the most challenging locations.

Net-zero targets demand smarter energy use. By recovering thermal energy from high-pressure gas, Geo-Engines offer a scalable way to reduce emissions and power industrial operations with what would otherwise be wasted.

Modular systems offer a faster, more flexible path through the energy transition. Discover how Geo-Engines are designed for scalability, adaptability, and real-world deployment without the wait.