modeling the internal pressure distribution of a fuel …the structure of a pem fuel cell gas...
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Modeling the Internal Pressure
Distribution of a Fuel Cell
Mikko Mikkola & Pauli Koski
New Energy Technologies groupDepartment of Applied Physics
Helsinki University of TechnologyEspoo, Finland
email: [email protected]
Presented at the COMSOL Conference 2009 Milan
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What are fuel cells?
• Electrochemical
devices that convert the chemical energy of
reactants directly into
electricity and heat
Image: US Fuel Cell Council
• Oxidation and reduction physically separated and charge carriers forced to take separate paths
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The structure of a PEM fuel cellPolymer electrolyte membrane
and thin film electrodes,
~40 µm
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The structure of a PEM fuel cell
Gas diffusion layers, carbon paper or cloth,
~300 µm
Polymer electrolyte membrane and thin film electrodes,
~40 µm
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The structure of a PEM fuel cell
Gas diffusion layers, carbon paper or cloth,
~300 µm
Polymer electrolyte membrane and thin film electrodes,
~40 µm
Gaskets
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The structure of a PEM fuel cell
Gas diffusion layers, carbon paper or cloth,
~300 µm
Polymer electrolyte membrane and thin film electrodes,
~40 µm
Gaskets
Flow field plates
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The structure of a PEM fuel cell
Gas diffusion layers, carbon paper or cloth,
~300 µm
Polymer electrolyte membrane and thin film electrodes,
~40 µm
Gaskets
Flow field plates
Current collectors
![Page 8: Modeling the Internal Pressure Distribution of a Fuel …The structure of a PEM fuel cell Gas diffusion layers, carbon paper or cloth, ~300 µm Polymer electrolyte membrane and thin](https://reader034.vdocument.in/reader034/viewer/2022050219/5f647e055ceeab29a02fec2b/html5/thumbnails/8.jpg)
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The structure of a PEM fuel cell
Gas diffusion layers, carbon paper or cloth,
~300 µm
Polymer electrolyte membrane and thin film electrodes,
~40 µm
Gaskets
Flow field plates
Current collectors
End plates
![Page 9: Modeling the Internal Pressure Distribution of a Fuel …The structure of a PEM fuel cell Gas diffusion layers, carbon paper or cloth, ~300 µm Polymer electrolyte membrane and thin](https://reader034.vdocument.in/reader034/viewer/2022050219/5f647e055ceeab29a02fec2b/html5/thumbnails/9.jpg)
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The structure of a PEM fuel cell
Gas diffusion layers, carbon paper or cloth,
~300 µm
Polymer electrolyte membrane and thin film electrodes,
~40 µm
Gaskets
Flow field plates
Current collectors
End plates
Clamping bolts
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The structure of a PEM fuel cell
Gas diffusion layers, carbon paper or cloth,
~300 µm
Polymer electrolyte membrane and thin film electrodes,
~40 µm
Gaskets
Flow field plates
Current collectors
End plates
Clamping bolts
…and the rest
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Significance of compression
• Low contact pressure increases electrical and thermal contact resistance
• High contact pressure hinders mass transfer resistance due to loss of porosity
�Finding optimal compression is a balancing act!
• The pressure distribution is rarely uniform
– On millimeter scale
• Ridge-channel structure
– On larger scale
• Clamping from the edges
Cell cross section view
Flow field plate
Gas diffusion layer
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Background and goals
• Measuring compression pressure distribution is
laborious and can be done only close to room temperature
• Modeling provides a faster and cheaper way to
predict the pressure distribution
– Provided that a valid model and material parameters are available
• We have a model for that!
• Here, we demonstrate
– A method to even out the pressure distribution
– The effect of temperature on the pressure distribution
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The physics
• Solid, Stress-Strain application mode– Isothermal, linear elasticity, isotropic materials– Input measured Young’s moduli and Poisson’s ratios– Solved for displacement field u
• Boundary conditions– Clamping force as a area load around the bolt holes– Symmetry conditions where applicable– A contact pair condition between rigid components
( ) 0=∇⋅∇ uD ( )( )
−
−
−
−
−
−
−+=
ν
ν
ν
ννν
ννν
ννν
νν
2
1
2
1
2
1
00000
00000
00000
0001
0001
0001
211
ED
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The model
• Model geometry fashioned after an existing fuel cell stack
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Model subdomains
Equalization layer
(fluoropolymer)
Current collector (graphite)
Flow field plate (graphite)
Areas or clamping
bolt washers
End plate
(reinforced PPS)
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The mesh• ~200k tetrahedral mesh elements
• ~420k degrees of freedom,
• ~4 h solution time with PARDISO solver on an Intel Core 2 Quad Q9550 + 8 GB RAM
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Modeled case 1
The effect of the pressure equalization layer
• A 5 mm fluoropolymer layer
between the end plate and
current collector evens out the variations in clamping
force
• The equalization layer is
much softer than the other components
Equalization layer
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Modeled case 1
The effect of the pressure equalization layer
Without equalization layer With equalization layer
Pressure unit: bar
Pressure distribution on the flow field plate surface
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• Young’s moduli depend on temperature
-59.55.29
± 0.25-30.9
8.96± 0.27
-22.21.64
± 0.16160
-45.17.17
± 0.25-37.7
8.08± 0.28
-1.32.08
± 0.04120
-15.811.01
± 0.25-39.1
7.89
± 0.282.7
2.16
± 0.0380
013.07
± 0.250
12.96
± 0.470
2.10
± 0.0523
Change (%)
E (GPa)Change
(%)E (MPa)
Change (%)
E (GPa)
PPS + 40% GFFluoropolymerGraphiteT (°C)
Modeled case 2
The effect of temperature
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At 23 °C At 160 °C
Pressure unit: bar
Modeled case 2
The effect of temperature
Pressure distribution on the flow field plate surface
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Conclusions
• Thermal expansion is not significant at these
temperatures
• The equalization layer really makes a difference!
• Uniformity of pressure distribution at assembly
temperature not enough!
– Softening of cell components with increasing temperature leads into more uneven pressure distribution
• This model can be used for optimizing clamping
systems also for high temperature fuel cells
provided that material data is available
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Bonus slide 1: Geometry details
The geometry of the pressure equalization layer
Force per bolt in kN.
Clamping force scheme
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Bonus slide 2: The effect of the
contact pair boundary condition
Without contact pair With contact pair
Pressure unit: bar