Oxygen chemical potential profile in a solid oxide fuel cell and simulation of electrochemical performance

## Abstract The electrochemical performance of La~2~NiO~4~‐Ce~0.8~Sm~0.2~O~1.9~ composite cathode material with Ce~0.8~Sm~0.2~O~1.9~ electrolyte and Ni‐Ce~0.8~Sm~0.2~O~1.9~ anode has been studied. Powders of La~2~NiO~4~ were prepared by a nitrate‐citrate route whereas commercial Ce~0.8~Sm~0.2~O~1.9

## Abstract The electrode performances of the alternative oxides: La~0.05~Ca~0.95~Cr~0.05~Ti~0.95~O~3‐δ~‐8YSZ and Ce~0.8~TM~0.2~O~2‐δ~(TM=Mn, Co) for the direct electrochemical oxidation of methane are investigated to assess their potential as anode materials for efficient methane conversion in a S

The practicability of using a substoichiometric mixture of air and methane to feed the anode compaflnmat of a solid oxide electrochemical reactor has been tested at laboratory level tlwougb the operation ofa 150W tubular stack. Fuel is partially oxidized to synthesis gas as an alternative to steam r

A novel design of cone-shaped tubular segmented-in-series solid oxide fuel cell (SOFC) stack is presented in this paper. The cone-shaped tubular anode substrates are fabricated by slip casting technique and the yttria-stabilized zirconia (YSZ) electrolyte films are deposited onto the anode tubes by