One-chamber solid oxide fuel cell constructed from a YSZ electrolyte with a Ni anode and LSM cathode

Abstract

An excellent SOFC performance in a mixture of methane and air is achieved by constructing a one-chamber cell from a YSZ solid electrolyte with a 25 wt.% Ce 0.8Gd 0.2O 1.9 (GDC)-added Ni anode and 15 wt.% MnO 2-added La 0.8Sr 0.2MnO 3 (LSM) cathode, which are deposited on opposite surfaces (A-type cell) or the same face (B-type cell) of the solid electrolyte. Experiments are carried out in a mixture of methane and air having a volume ratio of methane to oxygen of 1/1 at a flow rate of 300 ml min −1 (methane 52 ml min −1; oxygen 52 ml min −1; nitrogen 196 ml min −1) and at an operating temperature of 950°C. The A-type cell shows an increasing power density with decreasing thickness of the solid electrolyte. The maximum power density is 204 mW cm −2 at a solid electrolyte thickness of 0.3 mm. The B-type cell shows an increasing power density with decreasing gap between the two electrodes. The maximum power density is 102 mW cm −2 for a gap between the two electrodes of 1 mm. The working mechanism of the one-chamber SOFC and the addition effects of GDC and MnO 2 are studied using a two-chamber cell which permits independent evaluations of the Ni- and LSM-based electrodes.