Developing an experimental functional map of polymer electrolyte fuel cell operation
Lead Research Organisation:
University College London
Department Name: Chemical Engineering
Abstract
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People |
ORCID iD |
Daniel Brett (Principal Investigator) |
Publications
Engebretsen E
(2016)
Electro-thermal impedance spectroscopy applied to an open-cathode polymer electrolyte fuel cell
in Journal of Power Sources
Kalyvas C
(2014)
Spatially resolved diagnostic methods for polymer electrolyte fuel cells: a review Diagnostic methods for polymer electrolyte fuel cells
in Wiley Interdisciplinary Reviews: Energy and Environment
Description | This project has pushed back the boundaries of what we know about how fuel cells operate. We have developed a range of novel diagnostic techniques that allow us to 'look inside' and 'see' what is happening in these complex devices. This has allowed us to develop new ways of operating fuel cells that give longer life and better performance. |
Exploitation Route | As a consequence of this project, Intelligent Energy (the UK's leading fuel cell hardware manufacturer) is currently using techniques developed in the project to understand the role of water in fuel cell operation. We have published extensively and the broader scientific community is adopting our methods. |
Sectors | Energy,Transport |
URL | http://www.ucl.ac.uk/electrochemical-innovation-lab |
Description | As a consequence of this project, Intelligent Energy (the UK's leading fuel cell hardware manufacturer) is currently using techniques developed in the project to understand the role of water in fuel cell operation. We have published extensively and the broader scientific community is adopting our methods. Techniques developed can be used on-board card powered by fuel cells to make for better performance and durability |
First Year Of Impact | 2013 |
Sector | Energy |
Impact Types | Economic |
Company Name | Amalyst |
Description | Diagnostic techniques developed in this project were key to doing the research on fuel cell catalysts that led to the spin out of Amalyst from UCL in 2012. |
Year Established | 2012 |
Impact | Development of a fuel cell catalyst as a replacement for platinum that is <40% the cost. |
Website | http://www.amalyst.com |