Start-up and performance characteristics of a trickle bed reactor degrading toluene

Start-up and performance characteristics of a trickle bed reactor degrading toluene

The objective of this work was to evaluate toluene degradation in a trickle bed reactor when the loading was carried out by changing the air flow rate. The biofiltration system was inoculated with a mixed microbial population, adapted to degradation of hydrophobic compounds. Polypropylene high flow...

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Veröffentlicht in:Brazilian archives of biology and technology 2007-09, Vol.50 (5), p.871-877
Hauptverfasser: Misiaczek, Ondrej(Institute of Chemical Technology Department of Fermentation Chemistry and Bioengineering), Paca, Jan(Institute of Chemical Technology Department of Fermentation Chemistry and Bioengineering), Halecký, Martin(Institute of Chemical Technology Department of Fermentation Chemistry and Bioengineering), Gerrard, Andrew Mark(University of Teesside), Sobotka, Miroslav(Institute of Microbilology Academy of Sciences), Soccol, Carlos Riccardo(Universidade Federal do Paraná Centro Politécnico)
Format: Artikel
Sprache:eng
Schlagworte:
air flow rate loading
Biotrickling filter
constructed mixed population
toluene
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Zusammenfassung:The objective of this work was to evaluate toluene degradation in a trickle bed reactor when the loading was carried out by changing the air flow rate. The biofiltration system was inoculated with a mixed microbial population, adapted to degradation of hydrophobic compounds. Polypropylene high flow rings were used as a packing material. The system was operated for a period of 50 days at empty bed residence times ranging from 106s to 13s and with a constant inlet concentration of toluene of 100 mg.m-3. The reactor showed high removal efficiency at higher contact times and increasing elimination capacity with higher air-flow rates. The highest EC value reached was 9.8 gC.m-3.h-1 at EBRT = 13s. During the experiment, the consumption of NaOH solution was also measured. No significant variation of this value was found and an average value of 3.84 mmol of NaOH per gram of consumed carbon was recorded.
ISSN:1516-8913
1516-8913
1678-4324
DOI:10.1590/S1516-89132007000500015