Located in Alcalá de Henares, Moeve’s Innovation Center for the Energy Transition is home to more than 100 professionals dedicated to developing innovative solutions for the decarbonization of the energy sector.
The center features innovation spaces, state-of-the-art equipment, and pilot plants capable of replicating the processes carried out in our Energy Parks in Andalusia.
Covering over 12,000 m2 , the center is organized into four main project areas: Technologies for the Energy Transition, Bio & Oils Technologies, Chemicals, Internet of Things (IoT) Laboratory, and Industry X.
Meet our team at the Innovation Center
Innovation Center Projects
Biofuels
Life Superbiodiesel Project
We are committed to innovation in second-generation biofuels and their production from non-food-grade animal fat waste.
Biofuels
PlasMagFuel Project
We innovate in the use of plastic to generate fuels, reduce waste and support the circular economy.
Biofuels
RASIS Project
We are working on the development of new processes and techniques that help us obtain more sustainable heavy products.
Biofuels
Flexiwaste Project
We are innovating in the grease processing system to produce biofuel in a sustainable way.
Biofuels
Refolution Project
Refolution is a pioneering European initiative focused on biofuel production to help decarbonize air and maritime transport.
Biofuels
AA2C Project
The Algae-Olive Mill Wastewater to Biocrude (AA2C) project aims to transform agro-industrial waste and microalgae into advanced biofuels.
MOF
Metal Organic Frameworks
We work on the use and application of metal-organic frameworks (MOFs) for green hydrogen storage and the capture of biogenic or anthropogenic CO2.
Phenol and acetone
Circular phenol and acetone
We produce raw material from single-use plastics, such as plastic bags or plastic cutlery, dumped into the gray garbage can, which we then convert into circular phenol and acetone.
Microalgae
Microalgae
Developed in collaboration with the Canary Islands Institute of Technology (Instituto Tecnológico de Canarias, ITC), this project leverages circular economy techniques to produce renewable raw materials.
Industry 5.0
IoT
The laboratory features specialized areas, including virtual and augmented reality, radiofrequency, and device consumption and lifecycle analysis, among others.
Industry 5.0
PredictIA
Optimization of complex industrial processes, addressing both the blending of diesel A and the Hydrocracking.
e-fuels
e-fuels
We develop advanced technologies to transform captured CO2 and green hydrogen into sustainable synthetic fuels, driving the decarbonization of air and maritime transport.
e-fuels
SOL-Future Project
We develop photoactive materials (catalysts and electrodes) and photoreactors.
Biofuels
Life Superbiodiesel Project
We are committed to innovation in second-generation biofuels and their production from non-food-grade animal fat waste.
Biofuels
PlasMagFuel Project
We innovate in the use of plastic to generate fuels, reduce waste and support the circular economy.
Biofuels
RASIS Project
We are working on the development of new processes and techniques that help us obtain more sustainable heavy products.
Biofuels
Flexiwaste Project
We are innovating in the grease processing system to produce biofuel in a sustainable way.
Biofuels
Refolution Project
Refolution is a pioneering European initiative focused on biofuel production to help decarbonize air and maritime transport.
Biofuels
AA2C Project
The Algae-Olive Mill Wastewater to Biocrude (AA2C) project aims to transform agro-industrial waste and microalgae into advanced biofuels.
MOF
Metal Organic Frameworks
We work on the use and application of metal-organic frameworks (MOFs) for green hydrogen storage and the capture of biogenic or anthropogenic CO2.
Phenol and acetone
Circular phenol and acetone
We produce raw material from single-use plastics, such as plastic bags or plastic cutlery, dumped into the gray garbage can, which we then convert into circular phenol and acetone.
Microalgae
Microalgae
Developed in collaboration with the Canary Islands Institute of Technology (Instituto Tecnológico de Canarias, ITC), this project leverages circular economy techniques to produce renewable raw materials.
Industry 5.0
IoT
The laboratory features specialized areas, including virtual and augmented reality, radiofrequency, and device consumption and lifecycle analysis, among others.
Industry 5.0
PredictIA
Optimization of complex industrial processes, addressing both the blending of diesel A and the Hydrocracking.
e-fuels
e-fuels
We develop advanced technologies to transform captured CO2 and green hydrogen into sustainable synthetic fuels, driving the decarbonization of air and maritime transport.
e-fuels
SOL-Future Project
We develop photoactive materials (catalysts and electrodes) and photoreactors.