Technologies Under Development

Decarbonization

Focused on developing decarbonization and value-added technologies for high-value products in the aviation, chemical, and automotive industries, thereby contributing to the creation of a sustainable circular economy and participating in the development of technologies that support the emissions reduction agreements established for 2030 and 2050. Areas covered by this discipline include the capture of CO2 generated by energy-intensive industries, the conversion of this CO2 into chemical products, and the production of green hydrogen.

IN PROGRESS

The overall objective of the V-CaL project is to research, implement, and demonstrate at TRL7 an innovative and energy-efficient capture process called Vacuum-Assisted Calcium Looping (V-CaL), which enables the capture and purification of direct CO2 emissions from industrial processes for storage or utilization.

IN PROGRESS

The main objective of the AEMPower project is to research and develop proprietary technology for the construction and validation of a high-power anion exchange membrane (AEM)-based electrolysis module. This type of electrolyzer can be powered by renewable electricity to produce green hydrogen at a lower cost compared to other technologies.

IN PROGRESS

Innovative designs for high-temperature electrolyzer stacks/modules and BoP integration to provide efficient solutions for energy-intensive industries by utilizing their waste heat.

IN PROGRESS

We focus on new battery configurations and designs to efficiently convert electrical energy into valuable products. We are working on the electrochemical conversion of CO2 into products, which opens up the possibility of transforming captured CO2 into fossil-free synthetic hydrocarbons.

Building a sustainable future driven by technology.

Together, we create projects that contribute to sustainability and environmental protection. For more information, please contact us.