Electrochemical study of natural gas fueled electrodes for low temperature solid oxide fuel cell

Fuel cell is undoubtedly widespread energy conversion technology, which can convert fuel (biogas) energy into electricity. Solid oxide fuel cell (SOFC) is one of the best choices among the fuel cells family due to high efficiency and fuel flexibility. In this study, zinc-based nanostructured Mn0.20FexZn0.80-xOd electrode materials were successfully developed by solid state reaction. The proposed materials have been characterized by XRD and SEM. The electrical conductivities have been examined by four-probe DC method in the temperature range of 300600 degrees C, the maximum values were recorded and found to be 12.019 and 5.106 S/cm at natural gas and air atmosphere, respectively. The electrochemical performance has been measured employing NK-SDC electrolyte material and their current density versus voltage and current density versus power density (I-V and I-P characteristics) have been drawn. The maximum power density was found to be 170 mW/cm(2) using natural gas as a bio-fuel over a temperature of 600 degrees C.