Degradation tests of two phosphoric acid (PA) doped polybenzimidazole (PBI) membrane based high temperature polymer electrolyte membrane (HT-PEM) fuel cells were reported in this paper to investigate the effects of start/stop and the presence of methanol in the fuel to the performance degradation. Continuous tests with H2 and simulated reformate which was composed of H2, water steam and methanol as the fuel were performed on both single cells. 12-h-startup/12-h-shutdown dynamic tests were performed on the first single cell with pure dry H2 as the fuel and on the second single cell with simulated reformate as the fuel. Along with the tests electrochemical techniques such as polarization curves and electrochemical impedance spectroscopy (EIS) were employed to study the degradation mechanisms of the fuel cells. Both single cells showed an increase in the performance in the H2 continuous tests, because of a decrease in the oxygen reduction reaction (ORR) kinetic resistance probably due to the redistribution of PA between the membrane and electrodes. EIS measurement of first fuel cell during the start/stop test showed that the mass transfer resistance and ohmic resistance increased which can be attributed to the corrosion of carbon support in the catalyst layer and degradation of the PBI membrane. During the continuous test with simulated reformate as the fuel the ORR kinetic resistance and mass transfer resistance of both single cells increased. The performance of the second single cell experienced a slight decrease during the start/stop test with simulated reformate as the fuel.
Issue Section:
Research Papers
References
1.
Chandan
, A.
, Hattenberger
, M.
, El-Kharouf
, A.
, Du
, S.
, Dhir
, A.
, Self
, V.
, Pollet
, B. G.
, Ingram
, A.
, and Bujalski
, W.
, 2013
, “High Temperature (HT) Polymer Electrolyte Membrane Fuel Cells (PEMFC)—A Review
,” J. Power Sources
, 231
, pp. 264
–278
.10.1016/j.jpowsour.2012.11.1262.
Li
, Q.
, Jensen
, J. O.
, Savinell
, R. F.
, and Bjerrum
, N. J.
, 2009
, “High Temperature Proton Exchange Membranes Based on Polybenzimidazoles for Fuel Cells
,” Prog. Polym. Sci.
, 34
(5
), pp. 449
–477
.10.1016/j.progpolymsci.2008.12.0033.
Das
, S. K.
, Reis
, A.
, and Berry
, K. J.
, 2009
, “Experimental Evaluation of CO Poisoning on the Performance of a High Temperature Proton Exchange Membrane Fuel Cell
,” J. Power Sources
, 193
(2
), pp. 691
–698
.10.1016/j.jpowsour.2009.04.0214.
Pan
, C.
, He
, R.
, Li
, Q.
, Jensen
, J. O.
, Bjerrum
, N. J.
, Hjulmand
, H. A.
, and Jensen
, A. B.
, 2005
, “Integration of High Temperature PEM Fuel Cells With a Methanol Reformer
,” J. Power Sources
, 145
(2
), pp. 392
–398
.10.1016/j.jpowsour.2005.02.0565.
Holladay
, J. D.
, Wainright
, J. S.
, Jones
, E. O.
, and Gano
, S. R.
, 2004
, “Power Generation Using a Mesoscale Fuel Cell Integrated With a Microscale Fuel Processor
,” J. Power Sources
, 130
(1–2
), pp. 111
–118
.10.1016/j.jpowsour.2003.11.0556.
Jensen
, J. O.
, Li
, Q.
, Pan
, C.
, Vestbø
, A. P.
, Mortensen
, K.
, Nybo Petersen
, H.
, Lau Sørensen
, C.
, Nedergaard Clausen
, T.
, Schramm
, J.
, and Bjerrum
, N. J.
, 2007
, “High Temperature PEMFC and the Possible Utilization of the Excess Heat for Fuel Processing
,” Int. J. Hydrogen Energy
, 32
(10–11
), pp. 1567
–1571
.10.1016/j.ijhydene.2006.10.0347.
DOE
, 2012, “Fuel Cell Technologies Office Multi-Year Research, Development and Demonstration Plan
,” U.S. Department of Energy, Washington, DC, http://energy.gov/eere/fuelcells/fuel-cell-technologies-office-multi-year-research-development-and-demonstration-plan8.
Oono
, Y.
, Sounai
, A.
, and Hori
, M.
, 2012
, “Long-Term Cell Degradation Mechanism in High-Temperature Proton Exchange Membrane Fuel Cells
,” J. Power Sources
, 210
, pp. 366
–373
.10.1016/j.jpowsour.2012.02.0989.
Oono
, Y.
, Fukuda
, T.
, Sounai
, A.
, and Hori
, M.
, 2010
, “Influence of Operating Temperature on Cell Performance and Endurance of High Temperature Proton Exchange Membrane Fuel Cells
,” J. Power Sources
, 195
(4
), pp. 1007
–1014
.10.1016/j.jpowsour.2009.08.09710.
Wannek
, C.
, Kohnen
, B.
, Oetjen
, H. F.
, Lippert
, H.
, and Mergel
, J.
, 2008
, “Durability of ABPBI-Based MEAs for High Temperature PEMFCs at Different Operating Conditions
,” Fuel Cells
, 8
(2
), pp. 87
–95
.10.1002/fuce.20070005911.
Galbiati
, S.
, Baricci
, A.
, Casalegno
, A.
, and Marchesi
, R.
, 2013
, “Degradation in Phosphoric Acid Doped Polymer Fuel Cells: A 6000 h Parametric Investigation
,” Int. J. Hydrogen Energy
, 38
(15
), pp. 6469
–6480
.10.1016/j.ijhydene.2013.03.01212.
Lobato
, J.
, Cañizares
, P.
, Rodrigo
, M. A.
, and Linares
, J. J.
, 2007
, “PBI-Based Polymer Electrolyte Membranes Fuel Cells: Temperature Effects on Cell Performance and Catalyst Stability
,” Electrochim. Acta
, 52
(12
), pp. 3910
–3920
.10.1016/j.electacta.2006.11.01413.
Borup
, R. L.
, Davey
, J. R.
, Garzon
, F. H.
, Wood
, D. L.
, and Inbody
, M. A.
, 2006
, “PEM Fuel Cell Electrocatalyst Durability Measurements
,” J. Power Sources
, 163
(1
), pp. 76
–81
.10.1016/j.jpowsour.2006.03.00914.
Lim
, K. H.
, Oh
, H.-S.
, Jang
, S.-E.
, Ko
, Y.-J.
, Kim
, H.-J.
, and Kim
, H.
, 2009
, “Effect of Operating Conditions on Carbon Corrosion in Polymer Electrolyte Membrane Fuel Cells
,” J. Power Sources
, 193
(2
), pp. 575
–579
.10.1016/j.jpowsour.2009.04.00615.
Schmidt
, T. J.
, and Baurmeister
, J.
, 2008
, “Properties of High-Temperature PEFC Celtec®-P 1000 MEAs in Start/Stop Operation Mode
,” J. Power Sources
, 176
(2
), pp. 428
–434
.10.1016/j.jpowsour.2007.08.05516.
Hartnig
, C.
, and Schmidt
, T. J.
, 2011
, “Simulated Start–Stop as a Rapid Aging Tool for Polymer Electrolyte Fuel Cell Electrodes
,” J. Power Sources
, 196
(13
), pp. 5564
–5572
.10.1016/j.jpowsour.2011.01.04417.
Moçotéguy
, P.
, Ludwig
, B.
, Scholta
, J.
, Nedellec
, Y.
, Jones
, D. J.
, and Rozière
, J.
, 2010
, “Long-Term Testing in Dynamic Mode of HT-PEMFC H3PO4/PBI Celtec-P Based Membrane Electrode Assemblies for Micro-CHP Applications
,” Fuel Cells
, 10
(2
), pp. 299
–311
.10.1002/fuce.20090015318.
Andreasen
, S. J.
, Vang
, J. R.
, and Kær
, S. K.
, 2011
, “High Temperature PEM Fuel Cell Performance Characterisation With CO and CO2 Using Electrochemical Impedance Spectroscopy
,” Int. J. Hydrogen Energy
, 36
(16
), pp. 9815
–9830
.10.1016/j.ijhydene.2011.04.07619.
Wagner
, N.
, and Gülzow
, E.
, 2004
, “Change of Electrochemical Impedance Spectra (EIS) With Time During CO-Poisoning of the Pt-Anode in a Membrane Fuel Cell
,” J. Power Sources
, 127
(1–2
), pp. 341
–347
.10.1016/j.jpowsour.2003.09.03120.
Wang
, C.-P.
, Chu
, H.-S.
, Yan
, Y.-Y.
, and Hsueh
, K.-L.
, 2007
, “Transient Evolution of Carbon Monoxide Poisoning Effect of PBI Membrane Fuel Cells
,” J. Power Sources
, 170
(2
), pp. 235
–241
.10.1016/j.jpowsour.2007.03.07021.
Yan
, W.-M.
, Chu
, H.-S.
, Lu
, M.-X.
, Weng
, F.-B.
, Jung
, G.-B.
, and Lee
, C.-Y.
, 2009
, “Degradation of Proton Exchange Membrane Fuel Cells Due to CO and CO2 Poisoning
,” J. Power Sources
, 188
(1
), pp. 141
–147
.10.1016/j.jpowsour.2008.11.10722.
Spendelow
, J. S.
, Babu
, P. K.
, and Wieckowski
, A.
, 2005
, “Electrocatalytic Oxidation of Carbon Monoxide and Methanol on Platinum Surfaces Decorated With Ruthenium
,” Curr. Opin. Solid State Mater. Sci.
, 9
(1–2
), pp. 37
–48
.10.1016/j.cossms.2006.02.00923.
Simon Araya
, S.
, Juhl Andreasen
, S.
, Venstrup Nielsen
, H.
, and Knudsen Kær
, S.
, 2012
, “Investigating the Effects of Methanol–Water Vapor Mixture on a PBI-Based High Temperature PEM Fuel Cell
,” Int. J. Hydrogen Energy
, 37
(23
), pp. 18231
–18242
.10.1016/j.ijhydene.2012.09.00924.
JRC-IE, 2010
, “Testing the Voltage and Power as Function of Current Density—Polarisation Curve for a PEFC Single Cell
,” Test Module PEFC SC 5-2, European Commission, Joint Research Centre, Institute for Energy and Transport, Petten, The Netherlands, http://iet.jrc.ec.europa.eu/fuel-cells/sites/fuel-cells/files/files/documents/Polarisation_Curve_TestProcedure_ST_5-3.pdf25.
Yuan
, X.
, Wang
, H.
, Colin Sun
, J.
, and Zhang
, J.
, 2007
, “AC Impedance Technique in PEM Fuel Cell Diagnosis—A Review
,” Int. J. Hydrogen Energy
, 32
(17
), pp. 4365
–4380
.10.1016/j.ijhydene.2007.05.03626.
Boaventura
, M.
, and Mendes
, A.
, 2010
, “Activation Procedures Characterization of MEA Based on Phosphoric Acid Doped PBI Membranes
,” Int. J. Hydrogen Energy
, 35
(20
), pp. 11649
–11660
.10.1016/j.ijhydene.2010.03.13727.
Galbiati
, S.
, Baricci
, A.
, Casalegno
, A.
, Carcassola
, G.
, and Marchesi
, R.
, 2012
, “On the Activation of Polybenzimidazole-Based Membrane Electrode Assemblies Doped With Phosphoric Acid
,” Int. J. Hydrogen Energy
, 37
(19
), pp. 14475
–14481
.10.1016/j.ijhydene.2012.07.03228.
Zhai
, Y.
, Zhang
, H.
, Liu
, G.
, Hu
, J.
, and Yi
, B.
, 2007
, “Degradation Study on MEA in H3PO4/PBI High-Temperature PEMFC Life Test
,” J. Electrochem. Soc.
, 154
(1
), pp. B72
–B76
.10.1149/1.237268729.
Modestov
, A. D.
, Tarasevich
, M. R.
, Filimonov
, V. Y.
, and Zagudaeva
, N. M.
, 2009
, “Degradation of High Temperature MEA With PBI-H3PO4 Membrane in a Life Test
,” Electrochim. Acta
, 54
(27
), pp. 7121
–7127
.10.1016/j.electacta.2009.07.03130.
Hu
, J.
, Zhang
, H.
, Zhai
, Y.
, Liu
, G.
, and Yi
, B.
, 2006
, “500 h Continuous Aging Life Test on PBI/H3PO4 High-Temperature PEMFC
,” Int. J. Hydrogen Energy
, 31
(13
), pp. 1855
–1862
.10.1016/j.ijhydene.2006.05.00131.
Neyerlin
, K. C.
, Gasteiger
, H. A.
, Mittelsteadt
, C. K.
, Jorne
, J.
, and Gu
, W.
, 2005
, “Effect of Relative Humidity on Oxygen Reduction Kinetics in a PEMFC
,” J. Electrochem. Soc.
, 152
(6
), pp. A1073
–A1080
.10.1149/1.189736832.
Yu
, Y.
, Li
, H.
, Wang
, H.
, Yuan
, X.-Z.
, Wang
, G.
, and Pan
, M.
, 2012
, “A Review on Performance Degradation of Proton Exchange Membrane Fuel Cells During Startup and Shutdown Processes: Causes, Consequences, and Mitigation Strategies
,” J. Power Sources
, 205
, pp. 10
–23
.10.1016/j.jpowsour.2012.01.05933.
Kim
, J.-R.
, Yi
, J. S.
, and Song
, T.-W.
, 2012
, “Investigation of Degradation Mechanisms of a High-Temperature Polymer-Electrolyte-Membrane Fuel Cell Stack by Electrochemical Impedance Spectroscopy
,” J. Power Sources
, 220
, pp. 54
–64
.10.1016/j.jpowsour.2012.07.12934.
Mamlouk
, M.
, and Scott
, K.
, 2011
, “Analysis of High Temperature Polymer Electrolyte Membrane Fuel Cell Electrodes Using Electrochemical Impedance Spectroscopy
,” Electrochim. Acta
, 56
(16
), pp. 5493
–5512
.10.1016/j.electacta.2011.03.05635.
Jespersen
, J. L.
, Schaltz
, E.
, and Kær
, S. K.
, 2009
, “Electrochemical Characterization of a Polybenzimidazole-Based High Temperature Proton Exchange Membrane Unit Cell
,” J. Power Sources
, 191
(2
), pp. 289
–296
.10.1016/j.jpowsour.2009.02.025Copyright © 2015 by ASME
You do not currently have access to this content.
