45th International Vienna Motor Symposium
Passive Anode Recirculation in PEM Fuel Cell Systems: Enhancing Efficiency and Performance
Authors
G. Singer, M. Rabensteiner, R. Pinsker, T. Hafner, M. Aggarwal, P. Pertl, HyCentA Research GmbH, Graz; A. Trattner, Graz University of Technology / HyCentA Research GmbH, Graz:
Year
2024
Print Info
Production/Publication ÖVK
Summary
Proton exchange membrane (PEM) fuel cells are increasingly seen as a viable option for clean energy in mobility, thanks to their high efficiency and low greenhouse gas emissions. A major challenge in improving PEM fuel cell systems is to increase the efficiency of the anode recirculation. Using an ejector, which acts as a jet-pump in the anode path, is a more effective and sustainable choice than an electrically powered blower. Ejectors are more durable, energy-efficient, and maintenance-free. However, designing an ejector that ensures sufficient hydrogen recirculation across the entire operating range in a PEM fuel cell stack is complex. This study introduces an innovative two-step needle ejector that efficiently manages hydrogen supply and recirculation for a stack load range of 6 % to 100 %. The design and optimization of this ejector involved a comprehensive approach, incorporating basic thermodynamics, computational fluid dynamics, design of experiments optimization, prototyping, and experimental testing. Moreover, the next generation ejector utilizes an advanced additive manufacturing process – HP Multi Jet Fusion (MJF) with polyamide 12. This choice reduces the mass of the ejector by over 90 % and that of the complete ejector recirculation system by over 70 %, which is particularly advantageous in automotive applications. In summary, this research advances the industrialization of PEM fuel cell technology by setting a new standard in ejector performance and mass reduction.
ISBN
978-3-9504969-3-2
DOI
https://doi.org/10.62626/ob5b-45kd
Lectures from the International Vienna Motor Symposium can be ordered from the Austrian Society of Automotive Engineers (ÖVK). Lectures can only be purchased in the form of the complete conference documents, individual lectures are not available.
When placing an order, please note the year/name of the event (e.g. "45th International Vienna Motor Symposium 2024") for the further ordering process.
Members of the Austrian Society of Automotive Engineers have access to all lectures of the International Vienna Motor Symposia.