Numerical Study of Solid Oxide Fuel Cell Contacting Mechanics

Abstract: Assembly of a planar solid oxide fuel cell (SOFC) or solid electrolyzer (SOE) stack involves the lamination of cells and interconnect plates under an applied load. In most designs a pattern of ribs on the interconnector makes contact with a porous ceramic current collector layer on the air side. These localized contacts are regions of increased stress on the cells and can cause damage if the stresses become too large. In this paper the mechanical response of an anode‐supported cell to localized loads from inte… Show more

“…So far, modeling efforts regarding the impact of electrolyte thickness on electrochemical performance have been relatively sparse, as most works focus on the thermo-mechanical properties of the device [13,14]. A study by Park et al [15] involved a continuous-electrode, cell-scale model of an SOFC unit cell, including cases with electrolyte thickness ranging from 80 µm to 100 µm.…”

Thin Solid Film Electrolyte and Its Impact on Electrode Polarization in Solid Oxide Fuel Cells Studied by Three-Dimensional Microstructure-Scale Numerical Simulation

“…So far, modeling efforts regarding the impact of electrolyte thickness on electrochemical performance have been relatively sparse, as most works focus on the thermo-mechanical properties of the device [13,14]. A study by Park et al [15] involved a continuous-electrode, cell-scale model of an SOFC unit cell, including cases with electrolyte thickness ranging from 80 µm to 100 µm.…”

Thin Solid Film Electrolyte and Its Impact on Electrode Polarization in Solid Oxide Fuel Cells Studied by Three-Dimensional Microstructure-Scale Numerical Simulation

Inkjet printing additively manufactured multilayer SOFCs using high quality ceramic inks for performance enhancement

Thermal stress and contact analysis utilizing tested temperature data in a kW-class external-manifold solid oxide fuel cell stack