A 20 L electrochemical continuous stirred-tank reactor for high rate microbial electrosynthesis of methane from CO2

Microbial electrosynthesis (MES) is a promising technology for CO2 utilization and renewable electricity storage. The practical application of MES requires high current density and scalable reactor design. Here, we reported a novel 20 L electrochemical continuous stirred-tank reactor (E-CSTR) for methane production from CO2. The E-CSTR was constructed by inserting a tubular electrochemical cell into a CSTR. At 4 A (119.94 A.m(-2)), the average and maximum methane production rates achieved in the reactor were 317.84 L.m(-2).d(-1) (0.53 L.L-1.d(-1)) and 407.8 L.m(-2).d(-1) (0.68 L.L-1.d(-1)), respectively, and the average coulombic efficiency was about 98%. The reactor outperformed most reported MES reactors. Increasing the current to 6 A resulted in a deteri-oration of the performance because O-2 across the membrane changed the microbial community composition. However, the reactor quickly recovered when the current was switched back to 4 A, which indicated the excellent robustness of the reactor. These results demonstrated that the E-CSTR holds great potential for scaling up and practical application.

Automated summary

A novel 20 L electrochemical continuous stirred-tank reactor (E-CSTR) was reported for methane production from CO2. The reactor showed high methane production rates, coulombic efficiency, and excellent robustness, indicating great potential for scaling up and practical application.