Multiscale in-situ characterisation of degradation and reactivity in solid oxide fuel cells
Lead Research Organisation:
University College London
Department Name: Chemical Engineering
Abstract
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Organisations
People |
ORCID iD |
Daniel Brett (Principal Investigator) |
Publications
Maskell W
(2013)
Improvements to Zirconia Thick-Film Oxygen Sensors
in Journal of Physics: Conference Series
Meyer Q
(2014)
Dead-ended anode polymer electrolyte fuel cell stack operation investigated using electrochemical impedance spectroscopy, off-gas analysis and thermal imaging
in Journal of Power Sources
Robinson J
(2015)
Investigating the effect of thermal gradients on stress in solid oxide fuel cell anodes using combined synchrotron radiation and thermal imaging
in Journal of Power Sources
Meyer Q
(2015)
Optimisation of air cooled, open-cathode fuel cells: Current of lowest resistance and electro-thermal performance mapping
in Journal of Power Sources
Engebretsen E
(2016)
Electro-thermal impedance spectroscopy applied to an open-cathode polymer electrolyte fuel cell
in Journal of Power Sources
Robinson J
(2014)
Non-uniform temperature distribution in Li-ion batteries during discharge - A combined thermal imaging, X-ray micro-tomography and electrochemical impedance approach
in Journal of Power Sources
Millichamp J
(2013)
A study of carbon deposition on solid oxide fuel cell anodes using electrochemical impedance spectroscopy in combination with a high temperature crystal microbalance
in Journal of Power Sources
Meyer Q
(2015)
Combined current and temperature mapping in an air-cooled, open-cathode polymer electrolyte fuel cell under steady-state and dynamic conditions
in Journal of Power Sources
Robinson JB
(2014)
A novel high-temperature furnace for combined in situ synchrotron X-ray diffraction and infrared thermal imaging to investigate the effects of thermal gradients upon the structure of ceramic materials.
in Journal of synchrotron radiation
Toleuova A
(2015)
Mechanistic Studies of Liquid Metal Anode SOFCs I. Oxidation of Hydrogen in Chemical - Electrochemical Mode
in Journal of The Electrochemical Society
Description | So far this project has allowed us to develop correlative metrology techniques for the analysis of solid oxide fuel cells. This includes the ability to examine the temperature distribution in electrode materials and relate this to strain within the structure. We have also developed an in-situ SOFC cell capable of viewing, with an infrared thermal camera, the temperature distribution within an operational system. We will use these results to inform model development in the next phase of work. |
Exploitation Route | Our thermal imaging technique will provide unparalleled insight into the internal workings of SOFCs and allow advanced models describing electro-thermal operation to be developed and validated, so leading to the development of commercial SOFC technology. |
Sectors | Energy |
URL | http://www.ucl.ac.uk/electrochemical-innovation-lab |
Description | Findings of the operation of solid oxide fuel cell materials under thermal gradients are being communicated to out industrial collaborator, Ceres Power, and we have recently applied for a Supergen H2FC Early Career Researcher award with Ceres to apply thermal imaging alongside X-ray computed tomography to help understand how electrodes function in devices. |
First Year Of Impact | 2014 |
Sector | Energy,Environment |
Impact Types | Societal,Economic |