Supercritical gas generation produces high-pressure, high-temperature gas streams for conversion into a reliable source of clean electricity, directly at the wellhead.
Geo-Engines™ harness this energy in real time, turning abandoned resources into useful power for carbon capture, compression, and other site operations. This technology offers a sustainable alternative to hydrocarbon based generation and provides a practical solution for energy-intensive industrial environments especially where base load stability is imperative.
By tapping into late life reservoirs in induced Thermogenesis TM, Geo-Engines™ convert thermal and kinetic energy into up to 8MW of carbon-neutral electricity per engine. This power is used directly on site to support:
- CO₂ capture and injection systems
- Electrolysis of water to produce hydrogen and oxygen
- Hydrogen compression and transport
There is no need for grid connections or fossil-fuel-based backup power. The result is a more self-sufficient and climate-aligned operation.
- Energy recovery: Converts unrecoverable reserves into electricity and hydrogen
- Lowering emissions: Reduces the footprint of energy-intensive processes
- Greater autonomy: Supports off-grid operations and improves site resilience
- Scalability: Deploys flexibly across both new and existing assets
As industries seek smarter ways to decarbonise, Geo-Engines coupled with Thermogenesis provides the efficiency, flexibility, and reliability they need. Geo-Engines makes this technology deployable today, delivering real-world impact across complex energy systems.
