Market fit
The project aims to fill a gap in the market, and z.trusion is undergoing this project to realize an offering towards the market of flow plates with design freedom. This means, for example, that unique flow patterns can be designed on both sides of the fuel cell plate, and on top of that, the both sides can be efficiently manufactured in one production step.
Technical progress
Technical progress has been made in identifying the relevant specifications required to achieve cost-efficient, sustainable z.truded bipolar fuel cell plates. After conducting thorough research, a voltage of 0.7 volts per plate is assumed and generation of 35 watts of power per plate. The simulation method in place is computational fluid dynamics (CFD) simulations as it gives us the capability to design flow channels on the gas and cooling sides of the plates
Material
The current focus is on gathering specifications for materials with excellent electrical and thermal properties to ensure the function of the product. This far into the project, we maintain significantly optimistic about a polymer-base with carbon powder filler which so far have been the best-fitting material combination meeting our criteria. Further on, we will use our experience from other projects where we use recycled plastic.
Method
The production method used in the project differs from the commonly used methods, such as hot compression and injection molding, to produce bipolar fuel cell plates. The z.truded production technique enables high-volume production while ensuring that the product can withstand corrosive environments for long-term usage.
We want feedback!
Interested parties are invited to provide feedback and suggestions, and the project team is committed to maintaining transparency throughout the project.