OBJECTIVES
Challenges and expected Impacts
of the Hy-SPIRE project.
OBJECTIVES / IMPACT
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SCIENTIFIC
ECONOMIC
INDUSTRIAL
Standardization
Scientific
1
Development and manufacturing of a new generation of Solid Oxide Cells based on oxygen ion conductor (O-SOE)
2
(O-SOE) - Development a new generation of planar proton-conducting solid oxide electrolyser cells (P-SOEs)
3
Integration of metal- and electrode-supported SOE cells
4
Understanding the influence of the applied manufacturing technique on the cell performance and durabilit
5
Adjustment of the stack operation conditions to the flexible operation stemming from the fluctuation of RES
6
Understanding the degradation mechanism and way to minimize their impact on the cell to achieve degradation equal to or lower than 0.75% per 1,000 h
7
Enhancement of the cell properties achieve high current densities ca. 1.2 A/cm2
8
Studies on the dynamic operation of the SOC stack and its fast ramping
Economic
1
Performing techno-economic analysis, supported by the LCA
2
Identification of barriers and required research directions to achieve SRIA objectives such as reduction of hydrogen production cost to 3 €/kg by 2030, reduction of CAPEX 520 €/(kg/kW) and OPEX 45 €/(kg/kW)
Social
1
Designing and deploying of the communication, dissemination, and exploitation plan
2
A set of activities during and after the ending of the project to implement project novelties to the market
3
Promoting and exploiting of the project’s outcomes to maximise the impact on target groups,
4
Communicating the key information on the project to multiple stakeholder groups comprising the scientific community, policymakers and the public as well the potential users from various industries,
5
Actively attending relevant conferences of Clean Hydrogen Partnership, FCH, scientific, as well as industrial community and also organizing workshops and topical sessions focused on the advances and novelties developed within the project
FEATURES
Hy-SPIRE
solid oxide electrolyzers (SOEL)
innovative low-cost and compact STACK
temperature not higher than 700°C
REDUCED USE OF CRITICAL MATERIALS
New and alternative material
flexible operation
CONTACT US
Jakub Kupecki
Project Coordinator for Hydrogen Technologies
Center for Hydrogen Technologies
Institute of Power Engineering – National Research Institute
This work is part of the research activities of the project Hy-SPIRE. The project is supported by the Clean Hydrogen Partnership and its members Hydrogen Europe and Hydrogen Europe Research, under grant agreement No 101137866.
Co-funded by the European Union. Views and opinions expressed are however those of the author(s) only and do not necessarily reflect those of the European Union or the Clean Hydrogen Partnership. Neither the European Union nor the granting authority can be held responsible for them.