Project cooperationUpdated on 10 June 2026
Greenish Hydrogen Production Through Natural Gas Pyrolysis
About
Natural gas decarbonization through methane pyrolysis offers a promising pathway for low-carbon hydrogen production while generating valuable solid carbon products. The proposed activities aim to investigate the greenish hydrogen production strategies for sustainable industrial implementations.
Potential topics include:
• Methane pyrolysis and greenish hydrogen production
• Carbon valorization and circular carbon pathways
• Process modeling and system integration
• Energy and exergy analysis
• Techno-economic assessment (TEA)
• Life cycle assessment (LCA)
• Optimization of integrated energy systems
We are interested in establishing collaborations with universities, research organizations, industrial partners, gas companies, technology developers and SMEs for joint R&D activities, bilateral cooperation projects, academia-industry collaborations and international funding opportunities, including CETPartnership and other European initiatives.
Potential collaborators working on hydrogen technologies, carbon management, natural gas systems and industrial decarbonization are welcome.
Topic
- Call Module 2026-02 Energy system flexibility in a high renewable energy sources (RES) scenario: energy generation, storage and system integration
- Call Module 2026-04: Industrial carbon management
- Call Module 2026-05: Hydrogen and renewable fuel
- Call Module 2026-09: Integrated industrial energy systems
Type
- R&D Partner
- Technology Partner
- Demonstrator
Organisation
Similar opportunities
Project cooperation
Gas turbines on hydrogen or other green fuels
- R&D Partner
- Demonstrator
- Technology Partner
- Call Module 2026-05: Hydrogen and renewable fuel
- Call Module 2026-08: Integrated regional energy systems
- Call Module 2026-09: Integrated industrial energy systems
- Call Module 2026-03A/03B: Advanced renewable energy (RE) technologies for power production
Joachim Nordin
Decarbonization strategy manager at Siemens Energy
Sweden
Project cooperation
- R&D Partner
- Technology Partner
- Call Module 2026-05: Hydrogen and renewable fuel
- Call Module 2026-04: Industrial carbon management
- Call Module 2026-07: Heating and cooling technologies
- Call Module 2026-08: Integrated regional energy systems
- Call Module 2026-09: Integrated industrial energy systems
- Call Module 2026-10: Clean energy integration in the built environment
- Call Module 2026-01: Integrated energy system resilience in a changing environment
- Call Module 2026-03A/03B: Advanced renewable energy (RE) technologies for power production
- Call Module 2026-06: Stationary battery technologies and systems for climate-neutral industry and built environment
- Call Module 2026-02 Energy system flexibility in a high renewable energy sources (RES) scenario: energy generation, storage and system integration
Thomas Parissis
Chief Operations & Business Development Manager at Stratagem Ltd
Limassol, Cyprus
Project cooperation
- Consultant
- R&D Partner
- Call Module 2026-04: Industrial carbon management
- Call Module 2026-07: Heating and cooling technologies
- Call Module 2026-08: Integrated regional energy systems
- Call Module 2026-09: Integrated industrial energy systems
- Call Module 2026-10: Clean energy integration in the built environment
- Call Module 2026-01: Integrated energy system resilience in a changing environment
- Call Module 2026-06: Stationary battery technologies and systems for climate-neutral industry and built environment
- Call Module 2026-02 Energy system flexibility in a high renewable energy sources (RES) scenario: energy generation, storage and system integration
Hamza Salih Erden
Associate Professor at Istanbul Technical University
Türkiye