Demonstrating energy intensive industry-integrated solutions to produce liquid renewable energy carriers from CAPTUred carbon emissionS

Climate, Energy & MobilityHORIZON-IAID: 101118265
EC Contribution
€99,997
Consortium Size
19 orgs
Start Year
2023
Summary

GHG emissions reduction policies to mitigate climate change heavily impact on energy intensive industries, leading to loss of employment and competitiveness. In addition, variable renewable generation faces high risks from electricity curtailment if renewable surplus is not used. Carbon capture and utilisation technologies that make use of industrial flue gas and renewable surplus will play a key role in the clean energy transition of industry. Various technologies exist but most are still quite demanding in terms of materials and energy, being costly and inefficient. CAPTUS key objective is to demonstrate sustainable, cost-effective and scalable pathways to produce high-added value energy carriers by valorising industrial carbon emissions and integrating renewable electricity surplus. To this end, 3 complete value chains will be demonstrated at 3 different demo-sites: (i) Bioprocess based on a two-stage fermentation to produce triglycerides in a steel plant, (ii) Lipids-rich microalgae cultivation followed by hydrothermal liquefaction to produce bio-oils in a chemical plant, and (iii) Electrochemical reduction of CO2 to produce formic acid in a cement plant. The proposed technologies will be tested at TRL7, and the obtained energy carriers will be validated by upgrading studies. CAPTUS will also validate solutions regarding economic, environmental, societal and geo-political criteria, contributing to the development of novel business models, guidelines and strategies. CAPTUS has been structured in 8 WP, combining R&D activities, project management and demonstration activities. CAPTUS addresses this complex challenge by gathering a competitive consortium of 18 partners from 8 EU countries. Overall, CAPTUS innovations at technical, economical, managerial and social level will enable the consolidation of CCU technologies within 3 EII key sectors and leverage their benefits by reducing carbon emissions, increasing renewables share and producing valuable energy carriers

Consortium (19)

Project Results (27)

Source: CORDIS, the EU research results database.

Publications (17)
CO2 Electroreduction to Formate: Advancing toward Scalable Technologies
ACS Applied Energy Materials· 2026DOI
Jose Antonio Abarca, Guillermo Díaz-Sainz, and Ángel Irabien
Advances in the development of innovative Bi-Sn-Sb-based Gas Diffusion Electrodes for continuous CO2 electroreduction to formate
Journal of CO2 utilization· 2025DOI
Díaz Sainz, Guillermo
Chemical Engineering Journal
Chemical Engineering Journal· 2025DOI
Jose Antonio Abarca; Xian Wu; Cristina González-Fernández; Ioannis H. Karampelas; Alejandro Gutierrez-Carballo; Joseph A. Gauthier; Gerardine G. Botte; Jose Solla-Gullon; Guillermo Díaz-Sainz; Angel Irabien; Jenifer Gomez-Pastora
CO2 recycling plant for decarbonizing hard-to-abate industries: Empirical modelling and Process design of a CCU plant- A case study
Systems and Control Transactions, Proceedings of the 35th European Symposium on Computer Aided Process Engineering (ESCAPE 35)· 2025DOI
Jose Antonio Abarca, Stephanie Arias-Lugo, Lucia Gomez-Coma, Guillermo Diaz-Sainz, Angel Irabien
Coupling Ni-based anodes for textile industry process stream electrooxidation with electrocatalytic CO2 reduction to formate in gas phase
Journal of CO2 Utilization· 2025DOI
Jose Antonio Abarca, Ghazaleh Abdolhosseini, Juan Marcos Sanz, Jose Solla-Gullón, Felipe A. Garcés-Pineda, Guillermo Díaz-Sainz, Angel Irabien
Experimental assessment of different reactor configuration approaches for direct CO2 electroreduction to formic acid
Electrochimica Acta· 2025DOI
Díaz Sainz, Guillermo; Coz-Cruz, Mario; Alvarez-Guerra, Manuel; Abarca, Antonio; Irabien, Angel
Low nickel loading carbon microfibers fabricated by electrospinning for the glycerol electrooxidation coupled with the continuous gas-phase CO2 reduction reaction towards formate
Journal of Power Sources· 2025DOI
Fernández-Caso, Kevin; Holade, Yaovi; Cornu, David; Díaz-Sainz, Guillermo; Alvarez-Guerra, Manuel; Irabien, Angel; bechelany, mikhael; ZahraHagheh-Kavousi, Zahra
Prototype Validation of a Large‐Scale CO<sub>2</sub>‐to‐Formate Zero‐Gap Electrolyzer
ChemSusChem· 2025DOI
Jose Antonio Abarca, Cristina González‐Fernández, Camilo Estevan Peralta, Axel Arruti, Esther Santos, Guillermo Díaz‐Sainz, Angel Irabien
Slurry-phase hydrotreating of vacuum gas oil with Mo-based dispersed catalyst in semi-batch and continuous reactors
Fuel Processing Technology· 2025DOI
Eleni Heracleous, Flora Papadopoulou, Angelos A. Lappas
Turning waste into value: Fabrication of gas diffusion electrodes from biomass-derived materials for CO₂ electroreduction to formate
Chemical Engineering Journal· 2025DOI
Guillermo Díaz-Sainz; Jose Antonio Abarca; Iker Uriarte-Porres; Álvaro Ramírez; Martín Muñoz-Morales; Ángel Irabien; Javier Llanos; Manuel Álvarez-Guerra
Coupling glycerol oxidation reaction using Ni-Co foam anodes to CO2 electroreduction in gas-phase for continuous co-valorization
Chemical Engineering Journal· 2024DOI
Kevin Fernández-Caso; Martí Molera; Teresa Andreu; Jose Solla-Gullón; Vicente Montiel; Guillermo Díaz-Sainz; Manuel Álvarez-Guerra; Angel Irabien
Demonstrating Technologies to Produce Liquid Renewable Energy Carriers from Carbon Emissions Captured from Energy Intensive Industries
European Biomass Conference and Exhibition Proceedings· 2024DOI
Guerrero, J., Bernardes Figueirêdo, M., Aragón, C., Badenes, S., Costa, D., Rodrigues, P., Helle, T., Oechsner, C.
Inhibiting salt precipitation on the gas diffusion electrode surface in gas-phase CO2 electroreduction to formate by using an acidic anolyte
Journal of CO2 Utilization· 2024DOI
José Antonio Abarca, Guillermo Díaz-Sainz, Angel Irabien
Modelling and stochastic optimization of a three-compartment electrochemical reactor for CO2 electroreduction to formic acid using neural networks
Computer Aided Chemical Engineering· 2024DOI
José Antonio Abarca, Mario Coz-Cruz, Guillermo Díaz-Sainz, Angel Irabien
Exploring the impact of partial pressure and typical compounds on the continuous electroconversion of CO2 into formate
Journal of CO2 Utilization· 2023DOI
Guillermo Díaz-Sainz, José Antonio Abarca, Manuel Alvarez-Guerra, Angel Irabien
Fabrication and optimization of perovskite-based photoanodes for solar-driven CO2 photoelectroreduction to formate
Catalysis TodayDOI
José Antonio Abarca, Ivan Merino-Garcia, Guillermo Díaz-Sainz, Maite Perfecto-Irigaray, Garikoitz Beobide, Angel Irabien, Jonathan Albo
Photoelectrochemical CO2 electrolyzers: From photoelectrode fabrication to reactor configuration
Journal of Energy ChemistryDOI
Jose Antonio Abarca, Guillermo Díaz-Sainz, Ivan Merino-Garcia, Angel Irabien, Jonathan Albo
Deliverables (9)
Other Results (1)
Periodic Reporting for period 1 - CAPTUS (Demonstrating energy intensive industry-integrated solutions to produce liquid renewable energy carriers from CAPTUred carbon emissionS)