Técnicas Reunidas is participating in a research project to develop solid oxide electrolysis (SOE) technology for the production of green hydrogen
- The efiSOEC project is researching new green hydrogen production technologies to contribute to the decarbonization of the Spanish economy.
- The project consortium, in which TÉCNICAS REUNIDAS S.A. is collaborating, is led by REPSOL and includes three other Spanish companies: TUBACEX S.A., EPOWERLABS S.L., and ZGR CORPORACIÓN S.A.
- efiSOEC benefits from the contribution of five research organizations: INSTITUT DE RECERCA EN ENERGIA DE CATALUNYA (IREC), CENTRO NACIONAL DEL HIDRÓGENO (CNH2), DYPAM-UNIVERSITY OF CASTILLA-LA MANCHA, TECNALIA RESEARCH & INNOVATION, and CIDETEC.
- The project was included in the Missions Program of the Center for Industrial Technological Development (CDTI), having received the second-highest rating in the 2022 edition of the program.
Context
Climate change is having a growing impact on our planet, and mitigating it is an increasingly urgent challenge. To this end, it is necessary to decouple from fossil-based raw materials and fuels to enable the gradual decarbonization of all sectors of the economy, thereby achieving the European Commission’s 2050 carbon neutrality targets.
In this context, the project led by Repsol entitled “Research and analysis for the development of proprietary SOEC technology for the generation of efficient hydrogen production systems,” with the acronym efiSOEC, was launched.
Técnicas Reunidas, as a leading engineering firm in international energy transition projects, is participating in the business group developing the efiSOEC R&D project, whose main objective is to research, analyze, and generate knowledge about a new system for producing green hydrogen with high efficiency and durability, based on high-temperature solid oxide electrolysis cells (SOEC).
This project will be carried out by a consortium comprising five Spanish companies: REPSOL S.A., TÉCNICAS REUNIDAS S.A., TUBACEX S.A., EPOWERLABS S.L., and ZGR CORPORACIÓN S.A.
In addition, the project benefits from the contribution of seven research organizations: INSTITUT DE RECERCA EN ENERGIA DE CATALUNYA (IREC), CENTRO NACIONAL DEL HIDRÓGENO (CNH2), DYPAM-UNIVERSITY OF CASTILLA-LA MANCHA, TECNALIA RESEARCH & INNOVATION, and CIDETEC.
Project
The collaborative business R&D project titled “Research and analysis for the development of proprietary SOEC technology for the generation of efficient hydrogen production systems” and with the acronym “efiSOEC,” has been funded by the Center for Technological Development and Innovation (CDTI) and supported by the Ministry of Science and Innovation as part of the 2022 call for proposals under the Science and Innovation Missions program.
It is worth noting that this project, part of the Missions Program, received the second-highest score of all projects submitted in the program’s 2022 call for proposals.
efiSOEC aims to address the challenges posed by the decarbonization of energy-intensive industries through the development of domestic solid oxide electrolysis (SOE) technology for the efficient production of renewable hydrogen and the creation of the industrial infrastructure necessary for its commercialization. SOEC technology stands out for enabling the production of green hydrogen from renewable energy sources with efficiencies superior to those of low-temperature electrolysis, making it highly suitable for industrial application.
In this project, which began in 2022, the performance of different materials, structures, and configurations of SOEC cells is being analyzed with the aim of developing more efficient and resilient stacks, with power ratings of 3 kW, that overcome the current limitations of the technology. The most industrially viable solutions will be scaled up and integrated into a 24 kW modular system which, following an analysis and implementation of the necessary auxiliary systems, will be characterized and validated according to previously identified industrial performance indicators. In parallel, based on the results and solutions obtained, those that enable the scaling and industrialization of the system will be evaluated and identified, thereby facilitating rapid future implementation in Spanish industry.
Specifically, the contribution of each of the companies participating in this project is as follows:
Repsol:
Will coordinate the technical activities to be carried out to achieve the main objective; will develop the 3 kW and 24 kW efficient systems; will evaluate the validation of these systems; will study the challenges of scaling and industrialization based on the results obtained.
Técnicas Reunidas:
Will develop the 3 kW and 24 kW efficient systems; will design and plan the strategy for the test bench validation plan; will evaluate the validation of these systems; will study the scaling challenges based on the previous results through intermediate pre-conceptual designs of 100–250 kW.
Tubacex:
Will design, produce, characterize, and validate SOEC stacks with alternative geometries at the laboratory scale.
Epowerlabs:
Will design and develop the DC power electronics suitable for the newly developed SOEC module; will develop proprietary high-complexity software to make the EFISOEC module efficient, stable, and durable.
ZGR:
Will develop an AC/DC power electronics converter suitable for the new SOEC system; will study the integration of the new converter with renewable energy sources, as well as its bidirectional capability and adaptability.