Effects of filler voidage on pressure drop and microbial community evolution in fungal bio-trickling filters

“…Relevant research would expect the introduction of specific microbial species capable of degrading the targeted recalcitrant organic pollutants. Recently, increasing attention has been paid to investigating microbial evolution in BTF 14‐18 . Microorganisms with a relatively complex community structure inoculated from acclimated activated sludge have been applied to BTF reactors.…”

“…Recently, increasing attention has been paid to investigating microbial evolution in BTF. [14][15][16][17][18] Microorganisms with a relatively complex community structure inoculated from acclimated activated sludge have been applied to BTF reactors. While this strategy can increase the volume load, BTF biofilms may proliferate, resulting in biomass accumulation and BTF collapse for immediate treatment of VOCs.…”

Synergistic degradation performance of UV/TiO₂ photocatalysis and biotrickling filtration inoculated with Aspergillus sp. S1 for gaseous m‐xylene

“…Relevant research would expect the introduction of specific microbial species capable of degrading the targeted recalcitrant organic pollutants. Recently, increasing attention has been paid to investigating microbial evolution in BTF 14‐18 . Microorganisms with a relatively complex community structure inoculated from acclimated activated sludge have been applied to BTF reactors.…”

“…Recently, increasing attention has been paid to investigating microbial evolution in BTF. [14][15][16][17][18] Microorganisms with a relatively complex community structure inoculated from acclimated activated sludge have been applied to BTF reactors. While this strategy can increase the volume load, BTF biofilms may proliferate, resulting in biomass accumulation and BTF collapse for immediate treatment of VOCs.…”

Synergistic degradation performance of UV/TiO₂ photocatalysis and biotrickling filtration inoculated with Aspergillus sp. S1 for gaseous m‐xylene

“…[11][12][13] In the research on the removal of VOCs under the bio-lter (BF) treatment, there are numerous reports about the removal rate, as well as the inuence of process parameters such as inlet, gas ow, microbes and pressure drop. [14][15][16] However, in the process of domestic waste treatment, the types and quantities of VOCs produced at different processing stages have a great inuence on the treatment effect of the BF, but there are few relevant studies.…”

Succession of the microbial community during the process of mechanical and biological pretreatment coupled with a bio-filter for removal of VOCs derived from domestic waste: a field study

Effect of commutation on pressure drop and microbial diversity in a horizontal biotrickling filter for toluene removal