Sulfur trioxide electrolysis studies: Implications for the sulfur–iodine thermochemical cycle for hydrogen production

In this paper we describe our efforts to develop a sulfur trioxide (SO3) electrolyzer that could lower the temperature of the SO3 decomposition step in the sulfur–iodine and hybrid sulfur thermochemical cycles. The objective is to develop an alternative to the standard process of converting SO3 to SO2, which is thermal decomposition at 830 °C and above. Thermodynamic calculations show that high SO3 conversions can be obtained at 590 °C if oxygen is removed during the SO3 decomposition stage. One way of achieving oxygen removal during SO3 decomposition is electrolysis, if suitable electrode and electrolyte materials can be found. Active oxygen electrode materials are already developed and we have demonstrated suitability of a thin doped-zirconia electrolyte in this study. The main difficulty came in the development of an active and stable SO3 electrode. Using Ga–V–O/NbB2/Au electrodes we demonstrated high catalytic activity, but could not achieve acceptable electrochemical performance.