• Title of article

    Bio-Scrubber Performance Equipped with Airlift Parallel Bioreactors (APB’s) for BTX Biodegradation by Wastewater Sludge

  • Author/Authors

    Nayyeri ، Hamed Department of Chemical Engineering - Islamic Azad University, Arak Branch , Mazaheri ، Hossein Department of Chemical Engineering - Islamic Azad University, Arak Branch , Hassani Joshaghani ، Ali Department of Chemical Engineering - Islamic Azad University, Arak Branch , Ghanavati ، Hossein Microbial Biotechnology Department - Agricultural Biotechnology Research Institute of Iran (ABRII) - Agricultural Research, Extension, and Education Organization (AREEO)

  • From page
    3076
  • To page
    3096
  • Abstract
    A new approach in this work was the biodegradation of Benzene, Toluene, and Xylene (BTX) using Airlift Parallel Bioreactors (APB’s) connected to the Plexiglas Bio-Scrubber (PBS) Modulated with Polyurethane Foam (MPF) as modified sort in the use of mineral pumice as a porous filler Lava rock media. The aeration bioreactors were set up with a microbial consortium of refinery Sludge Effluent Sewer (SES) treatment and nutrient solution. The performance of PBS for BTX removing by APB’s filled with Activated Sludge Effluent Sewer (ASES) in the range of inlet BTX concentrations from 180.7 to 881.8 ppmv in different air pollutions flow rates was tried for two rates: 2.5 3.5 L/min  at 30 days Mean Residence Time Distribution (MRTD) for each treatment. The results showed that at inlet pollutant concentrations of [B] = 180.7 ppmv, [T] = 327.4 ppmv [X] = 297.5 ppmv, the removal efficiency in flow rate 2.5 lit/min was 90.7, 88, and 83.6(%) for benzene, toluene, and xylene, respectively. The amount of removal in flow rate 2.5 lit/min was better than the removal efficiency of 3.5 lit/min due to lower pollution concentration.
  • Keywords
    Biodegradation , bio , scrubber , mineral pumice , Microbial consortium , sludge effluent sewer
  • Journal title
    Iranian Journal of Chemistry and Chemical Engineering (IJCCE)
  • Journal title
    Iranian Journal of Chemistry and Chemical Engineering (IJCCE)
  • Record number

    2768148