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Related Experiment Video

Updated: Jul 3, 2026

Development of Sulfidogenic Sludge from Marine Sediments and Trichloroethylene Reduction in an Upflow Anaerobic Sludge Blanket Reactor
15:19

Development of Sulfidogenic Sludge from Marine Sediments and Trichloroethylene Reduction in an Upflow Anaerobic Sludge Blanket Reactor

Published on: October 15, 2015

Toluene removal biofilter modeling.

Gui Qin Li1, Alex De Visscher

  • 1Department of Chemical and Petroleum Engineering and Centre for Environmental Engineering Research and Education, Schulich School of Engineering, University of Calgary, Calgary, Alberta, Canada.

Journal of the Air & Waste Management Association (1995)
|August 5, 2008
PubMed
Summary
This summary is machine-generated.

Biofiltration models simulate toluene removal from air. Modified models show maximum activity varies with biofilter height, indicating conventional biofilters struggle with low indoor air pollutant concentrations.

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Area of Science:

  • Environmental Engineering
  • Biotechnology
  • Air Pollution Control

Background:

  • Biofiltration is a key technology for removing volatile organic compounds (VOCs) from air.
  • Toluene is a common indoor air pollutant requiring effective removal strategies.
  • Existing models need refinement to accurately predict biofilter performance under various conditions.

Purpose of the Study:

  • To adapt and validate simulation models for biofiltration of toluene-contaminated air.
  • To investigate the impact of substrate inhibition and airflow rates on biofilter performance.
  • To determine the minimum pollutant concentration treatable by biofiltration.

Main Methods:

  • Simulation modeling based on De Visscher and Van Cleemput's methane oxidation model.
  • Incorporation of Haldane kinetics to account for substrate inhibition.
  • Analysis of biofilter performance at constant and varying airflow rates.

Main Results:

  • Toluene oxidizing activity (Vmax) is not constant along the biofilter height.
  • Modified De Visscher and Van Cleemput model with Haldane kinetics accurately describes biofiltration performance.
  • Equations for zero Vmax predict minimum concentration requirements for biofiltration.

Conclusions:

  • The modified model offers a robust description of toluene biofiltration.
  • Conventional biofilters may be unsuitable for removing low concentrations of indoor air pollutants.
  • Further research is needed to optimize biofilters for indoor air quality applications.