Solutions

In Biomass Generation Plants

  • 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

In Combined Cycle Plants

  • 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

In Waste-to-Energy Generation Plants

  • 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

In Solar Thermal Generation Plants

  • 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

In Cogeneration Plants

  • 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

In High-Temperature Geothermal Plants

  • 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

Water and Energy Recovery

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:

In Nuclear Power Plants

  • 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

Industrial Electric Self-Consumption

With our technologies and expertise, we can harness very low-temperature waste heat from processes to generate energy for self-consumption

  • Improves process efficiency
  • Reduces the carbon footprint of processes
  • Allows efficient fluid cooling without water consumption
  • Our applications are modular and scalable to client needs
  • Renewable self-consumption solution, manageable and available at all times, independent of weather conditions