1 |
WU J F, YUAN X Z, MARTIN J J, et al. A review of PEM fuel cell durability: degradation mechanisms and mitigation strategies[J]. Journal of Power Sources, 2008, 184(1): 104-119.
|
2 |
CHEN H C, PEI P C, SONG M C. Lifetime prediction and the economic lifetime of proton exchange membrane fuel cells[J]. Applied Energy, 2015, 142: 154-163.
|
3 |
DU Z M, LIU C M, ZHAI J X, et al. A review of hydrogen purification technologies for fuel cell vehicles[J]. Catalysts, 2021, 11(3): 393.
|
4 |
LISZKA M, MALIK T, MANFRIDA G. Energy and exergy analysis of hydrogen-oriented coal gasification with CO2 capture[J]. Energy, 2012, 45(1): 142-150.
|
5 |
MARTÍNEZ I, ROMANO M C, CHIESA P, et al. Hydrogen production through sorption enhanced steam reforming of natural gas: thermodynamic plant assessment[J]. International Journal of Hydrogen Energy, 2013, 38(35): 15180-15199.
|
6 |
CHUGH S, MEENAKSHI S, SONKAR K, et al. Performance evaluation of PEM fuel cell stack on hydrogen produced in the oil refinery[J]. International Journal of Hydrogen Energy, 2020, 45(8): 5491-5500.
|
7 |
CHENG X, SHI Z, GLASS N, et al. A review of PEM hydrogen fuel cell contamination: impacts, mechanisms, and mitigation[J]. Journal of Power Sources, 2007, 165(2): 739-756.
|
8 |
ZAMEL N, LI X G. Effect of contaminants on polymer electrolyte membrane fuel cells[J]. Progress in Energy and Combustion Science, 2011, 37(3): 292-329.
|
9 |
SHABANI B, HAFTTANANIAN M, KHAMANI S, et al. Poisoning of proton exchange membrane fuel cells by contaminants and impurities: review of mechanisms, effects, and mitigation strategies[J]. Journal of Power Sources, 2019, 427: 21-48.
|
10 |
DURST J, SIEBEL A, SIMON C, et al. New insights into the electrochemical hydrogen oxidation and evolution reaction mechanism[J]. Energy Environ. Sci., 2014, 7(7): 2255-2260.
|
11 |
ROSS P N, STONEHART P. Selective poisoning of H2-D2 equilibration on transition metals by carbon monoxide[J]. Journal of Catalysis, 1974, 35(3): 391-400.
|
12 |
IGARASHI H, FUJINO T, WATANABE M. Hydrogen electro-oxidation on platinum catalysts in the presence of trace carbon monoxide[J]. Journal of Electroanalytical Chemistry, 1995, 391(1/2): 119-123.
|
13 |
OETJEN H F, SCHMIDT V M, STIMMING U, et al. Performance data of a proton exchange membrane fuel cell using H2 / CO as fuel gas[J]. Journal of the Electrochemical Society, 1996, 143(12): 3838-3842.
|
14 |
CIUREANU M, ROBERGE R. Electrochemical impedance study of PEM fuel cells. experimental diagnostics and modeling of air cathodes[J]. The Journal of Physical Chemistry B, 2001, 105(17): 3531-3539.
|
15 |
MURTHY A M, ESAYIAN M, HOBSON A, et al. Performance of a polymer electrolyte membrane fuel cell exposed to transient CO concentrations[J]. Journal of the Electrochemical Society, 2001, 148(10): A1141.
|
16 |
BECKER H, BACQUART T, PERKINS M, et al. Operando characterisation of the impact of carbon monoxide on PEMFC performance using isotopic labelling and gas analysis[J]. Journal of Power Sources Advances, 2020, 6: 100036.
|
17 |
MATSUDA Y, SHIMIZU T, HASHIMASA Y. Effect of carbon monoxide on polymer electrolyte fuel cell performance with a hydrogen circulation system[J]. Journal of the Electrochemical Society, 2020, 167(4): 044509.
|
18 |
BERNASEK S L, SOMORJAI G A. Molecular beam study of the mechanism of catalyzed hydrogen-deuterium exchange on platinum single crystal surfaces[J]. The Journal of Chemical Physics, 1975, 62(8): 3149-3161.
|
19 |
MONTANO M, BRATLIE K, SALMERON M, et al. Hydrogen and deuterium exchange on Pt(111) and its poisoning by carbon monoxide studied by surface sensitive high-pressure techniques[J]. Journal of the American Chemical Society, 2006, 128(40): 13229-13234.
|
20 |
ZHANG J Z, HONGSIRIKARN K, GOODWIN J G. The effect of low concentrations of CO on H2 adsorption and activation on Pt/C: Part 2—In the presence of H2O vapor[J]. Journal of Power Sources, 2011, 196(15): 6186-6195.
|
21 |
BENDER G, ANGELO M, BETHUNE K, et al. Quantitative analysis of the performance impact of low-level carbon monoxide exposure in proton exchange membrane fuel cells[J]. Journal of Power Sources, 2013, 228: 159-169.
|
22 |
ZAMEL N, LI X G. Transient analysis of carbon monoxide poisoning and oxygen bleeding in a PEM fuel cell anode catalyst layer[J]. International Journal of Hydrogen Energy, 2008, 33(4): 1335-1344.
|
23 |
PETUKHOV A V, AKEMANN W, FRIEDRICH K A, et al. Kinetics of electrooxidation of a CO monolayer at the platinum/electrolyte interface[J]. Surface Science, 1998, 402/403/404: 182-186.
|
24 |
WANG Q, WANG G X, TAO H L, et al. Highly CO tolerant PtRu/PtNi/C catalyst for polymer electrolyte membrane fuel cell[J]. RSC Advances, 2017, 7(14): 8453-8459.
|
25 |
BORTOLOTI F, GARCIA A C, ANGELO A C D. Electronic effect in intermetallic electrocatalysts with low susceptibility to CO poisoning during hydrogen oxidation[J]. International Journal of Hydrogen Energy, 2015, 40(34): 10816-10824.
|
26 |
HU J E, LIU Z F, EICHHORN B W, et al. CO tolerance of nano-architectured Pt-Mo anode electrocatalysts for PEM fuel cells[J]. International Journal of Hydrogen Energy, 2012, 37(15): 11268-11275.
|
27 |
DAI Y, LIU Y W, CHEN S L. Pt-W bimetallic alloys as CO-tolerant PEMFC anode catalysts[J]. Electrochimica Acta, 2013, 89: 744-748.
|
28 |
MATHIEU M V, PRIMET M. Sulfurization and regeneration of platinum[J]. Applied Catalysis, 1984, 9(3): 361-370.
|
29 |
MOHTADI R, LEE W K, COWAN S, et al. Effects of hydrogen sulfide on the performance of a PEMFC[J]. Electrochemical and Solid-State Letters, 2003, 6(12): A272.
|
30 |
LOUČKA T. The formation and reduction of an oxide layer on a platinum electrode partially covered with adsorbed sulphur[J]. Journal of Electroanalytical Chemistry and Interfacial Electrochemistry, 1973, 44(2): 221-227.
|
31 |
WANG Y R, YAN H Q, WANG E F. The electrochemical oxidation and the quantitative determination of hydrogen sulfide on a solid polymer electrolyte-based system[J]. Journal of Electroanalytical Chemistry, 2001, 497(1/2): 163-167.
|
32 |
MOHTADI R, LEE W K, VAN ZEE J W. The effect of temperature on the adsorption rate of hydrogen sulfide on Pt anodes in a PEMFC[J]. Applied Catalysis B: Environmental, 2005, 56(1/2): 37-42.
|
33 |
URDAMPILLETA I, URIBE F, ROCKWARD T, et al. PEMFC poisoning with H2S: dependence on operating conditions[J]. ECS Transactions, 2019, 11(1): 831-842.
|
34 |
KAKATI B K, KUCERNAK A R J. Gas phase recovery of hydrogen sulfide contaminated polymer electrolyte membrane fuel cells[J]. Journal of Power Sources, 2014, 252: 317-326.
|
35 |
FRANCK-LACAZE L, BONNET C, BESSE S, et al. Effects of ozone on the performance of a polymer electrolyte membrane fuel cell[J]. Fuel Cells, 2009, 9(5): 562-569.
|
36 |
LOPES T, PAGANIN V A, GONZALEZ E R. Hydrogen sulfide tolerance of palladium-copper catalysts for PEM fuel cell anode applications[J]. International Journal of Hydrogen Energy, 2011, 36(21): 13703-13707.
|
37 |
URIBE F A, GOTTESFELD S, ZAWODZINSKI T A. Effect of ammonia as potential fuel impurity on proton exchange membrane fuel cell performance[J]. Journal of the Electrochemical Society, 2002, 149(3): A293.
|
38 |
HALSEID R, VIE P J S, TUNOLD R. Effect of ammonia on the performance of polymer electrolyte membrane fuel cells[J]. Journal of Power Sources, 2006, 154(2): 343-350.
|
39 |
HONGSIRIKARN K, GOODWIN J G, GREENWAY S, et al. Influence of ammonia on the conductivity of Nafion membranes[J]. Journal of Power Sources, 2010, 195(1): 30-38.
|
40 |
HONGSIRIKARN K, NAPAPRUEKCHART T, MO X H, et al. Effect of ammonium ion distribution on Nafion® conductivity[J]. Journal of Power Sources, 2011, 196(2): 644-651.
|
41 |
JAMES G GOODWIN J, COLON-MERCADO H, HONGSIRIKARN K, et al. Final technical report: effects of impurities on fuel cell performance and durability[R]. Office of Scientific and Technical Information (OSTI), 2011.
|
42 |
GOMEZ Y A, OYARCE A, LINDBERGH G, et al. Ammonia contamination of a proton exchange membrane fuel cell[J]. Journal of the Electrochemical Society, 2018, 165(3): F189-F197.
|
43 |
TERLIP D TERLIP D. Hydrogen contaminant detector task : requirements document and market survey[R]. National Renewable Energy Laboratory, 2015.
|
44 |
MATSUDA Y, SHIMIZU T, MITSUSHIMA S. Adsorption behavior of low concentration carbon monoxide on polymer electrolyte fuel cell anodes for automotive applications[J]. Journal of Power Sources, 2016, 318: 1-8.
|
45 |
CHEN C Y, CHEN C C, HSU S W, et al. Behavior of a proton exchange membrane fuel cell in reformate gas[J]. Energy Procedia, 2012, 29: 64-71.
|
46 |
SHI W Y, YI B L, HOU M, et al. The effect of H2S and CO mixtures on PEMFC performance[J]. International Journal of Hydrogen Energy, 2007, 32(17): 4412-4417.
|
47 |
SHI W Y, YI B L, HOU M, et al. Hydrogen sulfide poisoning and recovery of PEMFC Pt-anodes[J]. Journal of Power Sources, 2007, 165(2): 814-818.
|
48 |
SHI Z, SONG D T, ZHANG J J, et al. Transient analysis of hydrogen sulfide contamination on the performance of a PEM fuel cell[J]. Journal of the Electrochemical Society, 2007, 154(7): B609.
|
49 |
GARZON F, LOPES T, ROCKWARD T, et al. The impact of impurities on long-term PEMFC performance[J]. ECS Transactions, 2019, 25(1): 1575-1583.
|
50 |
LOPES T, PAGANIN V A, GONZALEZ E R. The effects of hydrogen sulfide on the polymer electrolyte membrane fuel cell anode catalyst: H2S-Pt/C interaction products[J]. Journal of Power Sources, 2011, 196(15): 6256-6263.
|
51 |
JEAN S P. PEMFC contaminant tolerance limit—CO in H2[J]. Electrochimica Acta, 2010, 55(13): 4208-4211.
|