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Effect of scaling-up on the performance and degradation of long-term operated electrolyte supported solid oxide cell, stack and module in electrolysis mode

Aline Léon, Alessandro Micero, Bastian Ludwig, Annabelle Brisse

2021Journal of Power Sources54 citationsDOIOpen Access PDF

Abstract

The scale-up from single cell, to stack and integrated stack module induces an increased degradation that needs to be assessed for improving the performance and the lifetime of the high-temperature electrolyzer system. Within this work, the degradation rate of a 30-cell stack and a 90-cell module (based on similar 3YSZ electrolyte supported solid oxide cell) is evaluated with operation time of 4,224 h (−0.5 Acm−2) and 2,200 h (from −0.5 to – 0.3 Acm−2), respectively. The voltage degradation rate of the 30-cell stack is 10.5 mV/kh (0.8%/kh referring to the thermoneutral voltage of 1.3 V) including the temperature correction factor for an increase of 2 °C/kh. It is at present/currently the lowest degradation value reported for a stack of 30 electrolyte supported cells considering the thermal factor correction. This implies an increase of 5.5 mV/kh for the stack compared to the single cell. Along the steady-state phase two dynamic phases of 8,500 and 7,500 ON/OFF cycles were performed every 2 min. It has been shown that these significant load cycles do not induce additional degradation. Moving to the 90-cell module, irreversible damage occurred due to incidences related to the balance of plant; based on their analysis, propositions are made to counteract them.

Topics & Concepts

Stack (abstract data type)ElectrolyteDegradation (telecommunications)ElectrolysisOxideMaterials scienceElectrolytic cellVoltageChemistryAnalytical Chemistry (journal)Electrical engineeringElectrodeChromatographyComputer scienceEngineeringMetallurgyProgramming languagePhysical chemistryAdvancements in Solid Oxide Fuel CellsAdvanced battery technologies researchChemical Looping and Thermochemical Processes
Effect of scaling-up on the performance and degradation of long-term operated electrolyte supported solid oxide cell, stack and module in electrolysis mode | Litcius