Developing an experimental functional map of polymer electrolyte fuel cell operation

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Title
Developing an experimental functional map of polymer electrolyte fuel cell operation

CoPED ID
46e5e300-1e5c-4037-a348-8f22eb94a456

Status
Closed

Funders

Value
£72,934

Start Date
March 2, 2009

End Date
March 1, 2012

Description

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It is not possible to understand the way that a fuel cell operates without understanding how reactants, products, heat and electrochemical potential varies within that fuel cell. A consequence of this is that in order to obtain the best performance out of a fuel cell we cannot treat it like a simple electrical device with a positive and negative terminal: we need to be able to understand what is happening at different points within that fuel cell. Put simply, the purpose of this project is to develop a new way to image what is happening within an operating fuel cell. That is, to develop a way in which we can see how well the different parts of the fuel cell is operating - whether they are operating well, or starved of reactants, or undergoing damaging processes which will limit the longevity of the system.In this programme we intend to build on previous work at NPL, Imperial and UCL to develop a world-class instrument to allow us to study what is happening within an operating fuel cell. We will utilise a specially instrumented fuel cell which will allow us to monitor several very important parameters in real time. In this way we can monitor how the fuel cell operates under the different extreme conditions imposed on it during both normal and abnormal operating conditions. Examples of such extreme conditions occur when the fuel cell is started up, or shut down or when the fuel cell is pushed to perform at the limits of its performance (as might be expected during an overtaking manoeuvre if the fuel cell were powering a vehicle). Results of this research will be utilised to improve the design of the fuel cell.The hardware will be designed and built at Imperial College, and tested at both Imperial and NPL. A bipolar plate rapid prototyping facility will be built at UCL which will allow us to experiment with different flow-field geometries in order to achieve as even as possible distribution of the parameters being measured with the fuel cell mapping hardware. Modelling will be performed at UCL in order to test improvements to the performance of the cells brought about by using different flow-field architecturesWe have engaged with two major UK fuel cell companies, Johnson Matthey and Intelligent Energy, who are interested in utilising the instrumentation and results of this work.

Daniel Brett PI_PER

Subjects by relevance
  1. Fuel cells
  2. Fuels
  3. Cells

Extracted key phrases
  1. Polymer electrolyte fuel cell operation
  2. Fuel cell mapping hardware
  3. Major UK fuel cell company
  4. Instrumented fuel cell
  5. Experimental functional map
  6. Different extreme condition
  7. New way
  8. Different flow
  9. Different point
  10. Abnormal operating condition
  11. Good performance
  12. Bipolar plate rapid prototyping facility
  13. Possible distribution
  14. Imperial College
  15. Simple electrical device

Related Pages

UKRI project entry

UK Project Locations