High-Performance Biogas Upgrading Using a Biotrickling Filter and Hydrogenotrophic Methanogens.

This research reports the development of a biotrickling filter (BTF) to upgrade biogas, which is achieved by adding H₂ to reduce CO₂. H₂ and CO₂ (80:20% vol.) were fed to a bench-scale BTF packed with polyurethane foam (PUF) and inoculated with hydrogenotrophic methanogens. Maximum CH₄ production rates recorded were as high as 38 m³_CH4 m^-3_reactor day^-1, which is 5-30 times faster than earlier reports with other kinds of bioreactors. The high rates were attributed to the efficient mass transfer and high density of methanogens in the BTF. The removal efficiencies for H₂ and CO₂ were 83 and 96%, respectively. 5-Cyano-2,3-ditolyl tetrazolium chloride/DAPI staining revealed that 67% of cells were alive near the gas entrance port, while only 8.3% were alive at the exit. Furthermore, DNA sequencing showed that only 27% of the biomass was composed of Euryarchaeota, the phylum which includes methanogens. These two observations suggest that optimizing the methanogen density and activity could possibly reach even higher biogas upgrading rates.

Duke Scholars

Author Marc Deshusses Civil and Environmental Engineering