Analysis of the rate-limiting step of an anaerobic biotrickling filter removing TCE vapors

“…Concerning reactor hydrodynamics, no flooding conditions were observed since gas phase and liquid phase flowed co‐currently during variable TLV experiments. Similar observations were also made by other authors for a co‐current BTF for TCE removal . ORP profiles from 150 mV to −100 mV in the variable TLV experiment also indicated that TDS did not accumulate in the liquid phase.…”

“…A co‐current configuration implies a favorable O 2 /H 2 S concentration ratio at the reactor inlet. Though some studies have focused on the effect of TLV and gas supply of BTF on co‐current configuration for removing different contaminants such as xylene and trichloroethene (TCE) vapors, few studies have analyzed the effect of these variables on BTF performance during H 2 S desulfurization operated in co‐current flow.…”

Influence of trickling liquid velocity and flow pattern in the improvement of oxygen transport in aerobic biotrickling filters for biogas desulfurization

“…Concerning reactor hydrodynamics, no flooding conditions were observed since gas phase and liquid phase flowed co‐currently during variable TLV experiments. Similar observations were also made by other authors for a co‐current BTF for TCE removal . ORP profiles from 150 mV to −100 mV in the variable TLV experiment also indicated that TDS did not accumulate in the liquid phase.…”

“…A co‐current configuration implies a favorable O 2 /H 2 S concentration ratio at the reactor inlet. Though some studies have focused on the effect of TLV and gas supply of BTF on co‐current configuration for removing different contaminants such as xylene and trichloroethene (TCE) vapors, few studies have analyzed the effect of these variables on BTF performance during H 2 S desulfurization operated in co‐current flow.…”

Influence of trickling liquid velocity and flow pattern in the improvement of oxygen transport in aerobic biotrickling filters for biogas desulfurization

“…For example, toluene-degrading bacterium Pseudomonas putida [23], P. putida (MTCC 102) [24], trichloroethene treating bacterium Dehalococcoides sp. [25] and monochlorobenzene-oxidizing microorganism Acinetobacter calcoaceticus [26], and so on have been isolated for VOCs treatment. However, compared with the microorganisms for treatment VOCs, the species isolated for biodegradation VOSCs are very little [5].…”

Comparison of the removal of ethanethiol in twin-biotrickling filters inoculated with strain RG-1 and B350 mixed microorganisms

“…Among all the biological technologies, biofiltration is regarded as a mature technique to purify waste gases polluted with large volumes and low concentrations of VOCs (Sakuma et al 2008;Bordel et al 2008;Park et al 2009;Popat and Deshusses 2010). Efficient removal of, for example, aromatics, chlorinated hydrocarbons, organic sulfur compounds, and other VOCs had been reported in many lab-scale biofilters (Sempere et al 2008;Giri et al 2010;Chen et al 2010;Rene et al 2010).…”

Modeling of kinetics approach on the removal in methyl ethyl ketone using pressmud based biofilter systems