Solid oxide cells are an exciting technology for energy conversion. Fuel cells, based on solid
oxide technology, convert hydrogen or hydrogen-rich fuels into electrical energy, with …

This article reviews the general features of the multiscale structures in particle–fluid systems
and the characterization, modeling, and simulation methods for these systems. The …

Abstract The Solid Oxide Fuel Cells (SOFCs) anode materials are catalytically active for
Direct Internal Reforming (DIR) thus avoiding the need of external reformer. However …

This paper presents a model-based investigation to handle the fundamental issues for the
design of co-electrolysis based power-to-methane at the levels of both the stack and system …

A planar SOFC stack is an integral but basic power generation unit with physical conditions
completely different from that of a laboratory button cell. The ability to reliably predict the …

Abstract Protonic Ceramic Fuel Cells (PCFCs) are promising power sources operating at an
intermediate temperature. Although plenty of experimental studies focusing on novel …

A detailed three-dimensional model of solid oxide fuel cell (SOFC) is established to explore
its performance under special requirements in the aviation SOFC-gas turbine hybrid system …

Ethylene is a vital chemical worldwide but its production is very energy-intensive with high
CO 2 emissions. C 2 H 6-fueled proton ceramic fuel cells (PCFCs) are promising …

Mitigating degradation is essential for extending the lifetime of solid oxide electrochemical
cells (SOCs). The conditions leading to degradation, eg overpotentials, gas partial …

Small scale particles/pores from micrometers and down to nanometers often occur in multi-
functional porous electrodes in fuel cells, to enhance the catalytic reaction activities and …