Hydrogen production in single-chamber microbial electrolysis cell under high applied voltages.

Abstract

The aim of this study was to investigate the performance of single-chamber MEC under applied voltages higher than that for water electrolysis. With different acetate concentrations (1.0-2.0g/L), the MEC was tested under applied voltages from 0.8 to 2.2V within 2600h (54cycles). Results showed that the MEC was stably operated for the first time within 20cycles under 2.0 and 2.2V, compared with the control MEC with significant water electrolysis. The maximum current density reached 27.8±1.4A/m2 under 2.0V, which was about three times as that under 0.8V. The anode potential in the MEC could be kept at 0.832±0.110V (vs. Ag/AgCl) under 2.2V, thus without water electrolysis in the MEC. High applied voltage of 1.6V combined with alkaline solution (pH=11.2) could result in high hydrogen production and high current density. The maximum current density of MEC at 1.6V and pH=11.2 reached 42.0±10.0A/m2, which was 1.85 times as that at 1.6V and pH=7.0. The average hydrogen content reached 97.2% of the total biogas throughout all the cycles, indicating that the methanogenesis was successfully inhibited in the MEC at 1.6V and pH=11.2. With high hydrogen production rate and current density, the size and investment of MEC could be significantly reduced under high applied voltages. Our results should be useful for extending the range of applied voltages in the MEC.