화학공학소재연구정보센터
International Journal of Hydrogen Energy, Vol.43, No.17, 8179-8189, 2018
Modelling of anode delamination in solid oxide electrolysis cell and analysis of its effects on electrochemical performance
Degradation of a solid oxide electrolysis cell (SOEC) during long-term operation remains to be the key obstacle to their massive production and commercialization. One of degradation processes within SOEC is anode delamination. The anode of SOEC splits at the interface with solid electrolyte due to elevated pressure of oxygen that is produced by electrochemical reactions. The main assumption that anode delamination starts at the fuel inlet is based on post-mortem analysis of SOEC. This paper addresses numerical modelling of a single, electrolyte supported, SOEC. The anode delamination is modelled by implementing the modifications of SOEC's geometry. A brief overview of the model is also given. Verification of the implemented model relies on the measurement data from literature. The simulation results show that increasing the area of delaminated anode (A(delaminated)) increases the operating voltage of the SOEC if a constant electrolysis current is applied. This strongly influences the conversion efficiency (eta) of the SOEC. Indeed, if linear growth of A(delaminated) over time is assumed, the eta of SOEC degrades very fast at the beginning of SOEC's operation. The presented model also helps analyze the hot spots of current density, where high pressure of oxygen appears. (C) 2018 Hydrogen Energy Publications LLC. Published by Elsevier Ltd. All rights reserved.