Performance of stainless steel interconnects with (Mn,Co)3O4-Based coating for solid oxide electrolysis

Date Published
07/2022
Publication Type
Journal Article
Authors
DOI
10.1016/j.ijhydene.2022.05.206
Abstract

Mixed transition-metal oxide coatings are commonly applied to stainless steel interconnects for solid oxide cell stacks. Such coatings reduce oxidation and Cr evaporation rates, leading to improved degradation rate and stack lifetime. Here, the ChromLok™ MCO-based composition (Mn,Co)3O4 is applied to Crofer 22 APU stainless steel and evaluated specifically for application in solid oxide electrolyzer stacks operating around 800 °C and utilizing oxygen-ion-conducting solid oxide cells. The MCO coating is found to decrease the stainless steel oxidation rate by about one order of magnitude, and decrease the Cr evaporation rate by fourfold. The coating also dramatically lowers the rate of area-specific resistance increase for stainless steel coupons oxidized for 500 h with constant current applied, from 33 mΩ∗cm2 kh−1 for an uncoated coupon to less than 4 mΩ∗cm2 kh−1 for coated coupons. The coating is demonstrated on full-scale interconnects for single-cells, where the coating dramatically reduces degradation rate, and for a stack, which displays stable operation for 700 h.

Journal
International Journal of Hydrogen Energy
Volume
47
Year of Publication
2022
Issue
58
Pagination
24279 - 24286
ISSN Number
03603199
URL
Short Title
International Journal of Hydrogen Energy
Organizations
Research Areas
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