Objectif
The primary objective of the PrimoLyser project is to develop, construct, and test a cost-minimised highly efficient and durable PEM-electrolyser stack aimed for integrated with domestic µCHPs through a combination of the following activities:
1) Specification done by the end-user(s);
2) Basic material R&D on catalyst & membrane to increase durability & efficiency while reducing cost;
3) Process development to fabricate high performance MEAs;
4) Engineering of a durable, reliable, and robust high pressure PEM stack through CFD modelling and design optimisation;
5) Continuous test for 2,000 hours together with a 1.5 kW µCHP; and
6) An evaluation headed by the end-user(s)
The key-targets for the stack are as follows:
A) Hydrogen production capacity: 1 Nm3/h;
B) Pressure: 10 MPa (100 bar);
C) 1.68 V @ 1.2 A/cm2 not only at BoL but also after 2,000 hours of continuous operation;
D) Cost: <5,000 € per Nm3 H2 production capacity per hour in series production; and
E) Durability: >20,000 hours @ constant load
Furthermore, the stack will be liquid cooled to enhance durability and enable easy heat utilisation. This is important as a PEM electrolyser operated with renewable will run when the electricity is cheap and therefore not simultaneous with the µCHP.
The PrimoLyser project is scheduled for 2.5 years. The present proposal is phase I in a 2 step development, where phase II will comprise BoP development & full integration of the electrolyser with a µCHP followed by a field test.
The Consortium is well balanced, with the following 6 partners complementing one another to achieve the project target goals: i) A PEM FC manufacturing company (IRD Fuel Cells A/S [SME], DK); ii) 3 research centres and universities VTT (FI), Åbo Akademi (FI) & ECN (NL); iii) A leading manufacturer of ion exchange polymers and membranes (Fumatech (DE)); and iv) A subsidiary utility company (Abengoa-Hynergreen [ES])
Champ scientifique
- engineering and technologyelectrical engineering, electronic engineering, information engineeringelectrical engineeringpower engineeringelectric power generationcombined heat and power
- natural scienceschemical sciencespolymer sciences
- natural scienceschemical sciencescatalysis
- engineering and technologyenvironmental engineeringenergy and fuelsfuel cells
- engineering and technologyenvironmental engineeringenergy and fuelsrenewable energyhydrogen energy
Thème(s)
Appel à propositions
FCH-JU-2008-1
Voir d’autres projets de cet appel
Régime de financement
JTI-CP-FCH - Joint Technology Initiatives - Collaborative Project (FCH)Coordinateur
5220 Fraugde
Danemark