Journal of Power Sources, Vol.374, 92-96, 2018
Millimeter-wave irradiation heating for operation of doped CeO2 electrolyte-supported single solid oxide fuel cell
High operation temperature of solid oxide fuel cell (SOFC) results in high cell and operation cost, time consuming and fast cell degradation. Developing high performance SOFC that operates at lower temperature is required. Here we demonstrate 24 GHz microwave as a rapid heating source to replace conventional heating method for SOFC operation using 20 mol% Sm doped CeO2 electrolyte-supported single cell. The tested cell shows improvement of 62% in maximum power density at 630 degrees C under microwave heating. This improvement governs by bulk conductivity of the electrolyte. Investigation of ionic transference number reveals that the value is unchanged under microwave irradiation, confirming the charge carrier is dominated by oxygen ion species. This work shows a potential new concept of high performance as well as cost and energy effective SOFC.
Keywords:Solid oxide fuel cell;Millimeter-wave irradiation heating;Microwave energy;Cell performance;Doped CeO2