Higher net electric efficiency and increased MWh production
Reduction in electric self-consumption
Savings in cooling water consumption of up to 100%
Maximum operational flexibility, increasing lifespan, reliability, and availability, especially with fluctuations in PCI, boiler blowdowns, etc.
Reduction in O&M costs
Environmental improvements by reducing steam plume emissions and using them for energy or eliminating thermal plugs in aquifers
Greater freedom of location in new projects
More manageable and stable energy
Higher net electric efficiency and increased MWh production
Reduction in self-consumption by utilizing waste heat
Possibility of converting open gas cycles into combined cycles. Greater efficiency
Savings in cooling water consumption of up to 100%
Maximum operational flexibility, increasing lifespan, reliability, and availability, especially with production fluctuations
Reduction in O&M costs
Environmental improvements by reducing steam plume emissions and using them for energy or eliminating thermal plugs in aquifers
Greater freedom of location in new projects and easy adaptation to existing spaces
More manageable and stable energy
Higher net electric efficiency and increased MWh production
Reduction in electric self-consumption
Better winter-summer balance for district heating operations
100% savings in cooling water consumption
Maximum operational flexibility, increasing lifespan, reliability, and availability, especially with fluctuations in PCI, boiler blowdowns, etc.
Reduction in O&M costs
Environmental improvements by reducing steam plume emissions and using them for energy or eliminating thermal plugs in aquifers
Greater freedom of location in new projects
Easy adaptation to existing plants
More manageable and stable energy
Higher net electric efficiency and increased MWh production
Reduction in electric self-consumption
Savings in cooling water consumption of up to 100%
Maximum operational flexibility, increasing lifespan, reliability, and availability, especially when clouds pass
Quick payback
Reduction in O&M costs
Environmental improvements by reducing steam plume emissions and using them for energy or eliminating thermal plugs in aquifers
Greater freedom of location in new project
Higher net electric efficiency and increased MWh production
Reduction in self-consumption by utilizing waste heat
Savings in cooling water consumption of up to 100%, whether using engines or turbines
Maximum operational flexibility, increasing lifespan, reliability, and availability, especially with production fluctuations
Reduction in O&M costs
Environmental improvements by reducing steam plume emissions and using them for energy
Greater freedom of location in new projects and easy adaptation to existing spaces
More manageable and stable energy
A technology that surpasses ORC
Higher net electric efficiency and increased MWh production
Reduction in self-consumption by utilizing waste heat
Savings in cooling water consumption of up to 100%
Maximum operational flexibility, increasing lifespan, reliability, and availability, especially with production and demand fluctuations
Reduction in O&M costs
Environmental improvements by reducing steam plume emissions and using them for energy
Greater freedom of location in new projects and easy adaptation to existing spaces
More manageable and stable energy
Modular construction
Our technologies allow for the reduction of steam plume emissions, enabling us to reuse the water and thermal energy emitted to the atmosphere
We reduce emissions
We cool emissions
Watch this video to see it in action:
Reduction in self-consumption by utilizing waste heat and improving efficiency
Savings in cooling water consumption of up to 100%
Reduction in O&M costs
Environmental improvements by reducing steam plume emissions and using them for energy
Greater freedom of location in new projects and easy adaptation to existing spaces
Modular construction, especially interesting for next-generation small modular reactors
With our technologies and expertise, we can harness very low-temperature waste heat from processes to generate energy for self-consumption