Optimisation of Metallic Interconnects for Hydrogen Production by High Temperature Water Vapour Electrolysis

Ardigò, M.R.; Parry, Valérie; Popa, Iolanda Valentina; Chevalier, Sébastien; Chandra-ambhorn, Walairat; Phakpeetinan, P.; Wouters, Y.

doi:10.4028/www.scientific.net/ddf.323-325.239

Cited by 13 publications

(3 citation statements)

References 19 publications

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“…For isothermal ageing tests, the samples were placed in a horizontal furnace for 100h. ASR measurements were performed in-situ during 100 hours by using a 4-point set up (5,15). Prior to conductivity measurements a pre-oxidation of 100 hours at 800°C in 95%O 2 -5%H 2 O is performed before the application of a Pt paste, necessary to ensure the good electrical contact during the measuring.…”

Section: Methodsmentioning

confidence: 99%

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Effect of Coatings on a Commercial Stainless Steel for SOEC Interconnect Application in Anode Atmosphere

et al. 2013

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The high temperature steam electrolysis (HTE) represents one of the most promising technologies for mass hydrogen production. A commercial K41X steel (AISI441) containing 18 wt. % of chromium was tested as interconnect for solid oxide electrolyser cells (SOEC). In a previous paper, it was shown that the uncoated alloy is not suitable for SOEC interconnect application at 800°C in O 2 -H 2 O atmosphere. It was also proved that the application of a LaNi 0.6 Fe 0.4 O 3-δ coating on the surface by physical vapour deposition process improves the alloy electrical behaviour and reduces chromium species evaporation. For this study, the same coating was deposited on the alloy surface by screen-printing process. Moreover, two spinel-type oxides, Co 2 MnO 4 and Co 3 O 4 , deposited by physical vapour deposition process, were also tested in O 2 -H 2 O atmosphere at 800°C. The electrical conductivity did not present any improvement, but the Cr species volatility was reduced, especially with the LaNi 0.6 Fe 0.4 O 3-δ coating.

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Section: Methodsmentioning

confidence: 99%

“…In previous studies, the high temperature corrosion behaviour and the electrical conductivity of the K41X (AISI 441) were investigated in both anode (O 2 -H 2 O) and cathode (H 2 -H 2 O) atmosphere at 800°C (5,6). Moreover, chromium evaporation measurements were performed in anode atmosphere.…”

Section: Introductionmentioning

confidence: 99%

Effect of Coatings on a Commercial Stainless Steel for SOEC Interconnect Application in Anode Atmosphere

et al. 2013

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“…Water vapour is often present in the mixtures of the gaseous environments in which refractory alloys work, e.g. super-heater and re-heater tubes in supercritical units [7] or interconnects for hydrogen production [8]. These refractory alloys are frequently stainless steels [9] or nickel-based superalloys [10].…”

Section: Introductionmentioning

confidence: 99%

Surface degradation of three Cr-containing cobalt-based alloys exposed to pure water vapour at 900°C

Berthod

Léglise

Aranda

et al. 2020

Corrosion Engineering, Science and Technology

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Three cast cobalt-based alloys containing or not chromium carbides and tantalum carbides were exposed at 900°C to 100% water vapour for 46 or 100 h. The oxidised samples were characterised by XRD, SEM and EDS. Chromia was the main oxide formed in all cases. Spinel oxide appeared on the carbide-free alloy and NiO was also detected on the TaC-containing alloy. Chromia was the single oxide formed on the alloy containing chromium carbides. The scales were thin and the subsurfaces and the bulks were slightly affected by oxidation or thermal exposure. All alloys demonstrated remarkable oxidation resistance but oxide spallation, enhanced maybe by the low thickness of the scales, by the porosities induced by chromia volatilisation, as well as by the CrTaO 4 complex oxide formed at the interface in the case of the TaC-containing alloy, is a critical problem to solve. The Co-10Ni-30Cr-0.5C was the best of the three alloys.

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Effect of Water Vapor on the Oxidation Mechanisms of a Commercial Stainless Steel for Interconnect Application in High Temperature Water Vapor Electrolysis

et al. 2012

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Optimisation of Metallic Interconnects for Hydrogen Production by High Temperature Water Vapour Electrolysis

Cited by 13 publications

References 19 publications

Effect of Coatings on a Commercial Stainless Steel for SOEC Interconnect Application in Anode Atmosphere

Effect of Coatings on a Commercial Stainless Steel for SOEC Interconnect Application in Anode Atmosphere

Surface degradation of three Cr-containing cobalt-based alloys exposed to pure water vapour at 900°C

Effect of Water Vapor on the Oxidation Mechanisms of a Commercial Stainless Steel for Interconnect Application in High Temperature Water Vapor Electrolysis

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