ExpertiseUpdated on 29 January 2024
Nanofiber based proton/anion exchange membrane for fuel cells/electrolyzers
About
Membranes are the heart of both electrolyzer systems where hydrogen is produced and fuel cell systems where electrical energy is produced directly from hydrogen energy. These membranes are high-tech membranes with high added value, and they function similarly to ion exchange membranes. Although high cost is one of the biggest problems in commercial membranes prepared by normal casting method, performance, strength and production sustainability are the features that need to be improved.
So what are we doing? Nanofiber membranes developed with machine learning and artificial intelligence-based performance optimization solutions; will provide up to 10 times higher performance and have a 20% lower cost. Nanofiber membranes that can be used in electrolyzer/fuel cell systems are not PFSA-based, and efforts are being made to minimize their negative effects on the environment.
Field
- HYDROGEN END USES: TRANSPORT APPLICATIONS (PEMFC, Heavy Duty, Maritime and Shipping Applications etc)
Organisation
Similar opportunities
Expertise
- HYDROGEN END USES: CLEAN HEAT AND POWER
- HYDROGEN END USES: TRANSPORT APPLICATIONS (PEMFC, Heavy Duty, Maritime and Shipping Applications etc)
Fatih Piskin
Assoc. Professor at Mugla Sitki Kocman University
Mugla, Türkiye
Expertise
Chemical and ICT tools customised for HYDROGEN
- Large-scale Hydrogen Valley
- HYDROGEN END USES: CLEAN HEAT AND POWER
- HYDROGEN END USES: TRANSPORT APPLICATIONS (PEMFC, Heavy Duty, Maritime and Shipping Applications etc)
- RENEWABLE HYDROGEN PRODUCTION (PCCEL, AEMEL, Seawater Electrolysis, Development Tools for Electrolysers etc..)
- HYDROGEN STORAGE and DISTRIBUTION (Large Scale Storage Sollutions, Storage and Utilization in Industrial and Commercial Applications, Storage in Porous Media Geological Formations, Refuelling Stations etc…)
Pedro Caballero-Lozano
International Programmes Manager at Fundación CARTIF
Valladolid, Spain
Project cooperation
- Early
- Research & Development
- HORIZON-JTI-CLEANH2-2024-06-01: Large-scale Hydrogen Valley
- HORIZON-JTI-CLEANH2-2024-06-02: Small-scale Hydrogen Valley
- HORIZON-JTI-CLEANH2-2024-01-03: Development of innovative technologies for direct seawater electrolysis
- HORIZON-JTI-CLEANH2-2024-05-02: Development of non-fluorinated components for fuel cells and electrolysers
- HORIZON-JTI-CLEANH2-2024-03-03: Next generation on-board storage solutions for hydrogen-powered maritime applications
- HORIZON-JTI-CLEANH2-2024-04-01: Portable fuel cells for backup power during natural disasters to power critical infrastructures
- HORIZON-JTI-CLEANH2-2024-01-02: Advanced anion exchange membrane electrolysers for low-cost hydrogen production for high power range applications
- HORIZON-JTI-CLEANH2-2024-03-01: Balance of plant components, architectures and operation strategies for improved PEMFC system efficiency and lifetime
- HORIZON-JTI-CLEANH2-2024-02-05: Demonstration and deployment of multi-purpose Hydrogen Refuelling Stations combining road and airport, railway, and/or harbour applications
- HORIZON-JTI-CLEANH2-2024-02-04: Demonstration of innovative solutions for highcapacity, reliable, flexible, and sustainable hydrogen compression technologies in commercial applications
- HORIZON-JTI-CLEANH2-2024-01-05: Hydrogen production and integration in energyintensive or specialty chemical industries in a circular approach to maximise total process efficiency and substance utilisation
Tuğba Lekesiz, PhD
Senior Researcher at TUBITAK MAM
Kocaeli, Türkiye