705
Views
11
CrossRef citations to date
0
Altmetric
Technical Paper

Biofilm Growth-Percolation Models and Channeling in Biofilter Clogging

, &
Pages 882-892 | Published online: 29 Feb 2012

References

  • Barton, J.W.; Klasson, K.T.; Davison, B.H. Extended Operation and Control of Biomass Overgrowth in Biofilters Designed for VOC Removal. In Proceedings of A&WMA’s 90th Annual Meeting & Exhibition; A&WMA: Pittsburgh, PA, 1997; Paper 97-WA71A.06.
  • Hodge, D.S. Ph.D. Dissertation, University of Southern California, December 1993.
  • Van Lith C.; Ottengraf, S.P.P.; Diks, R.M.M. The Control of Clogging in a Biotrickling Filter. In Proceedings of the Biological Waste Gas Cleaning International Symposium; Maastricht, the Netherlands: VDI BERICHTE NR, 1994.
  • Weber F.J.; Hartmans, S. Toluene Degradation in a Trickle Bed Reactor-Prevention of Clogging. In Proceedings of the Biological Waste Cleaning International Symposium, March 9–11, 1994; VDI BERICHTE NR, 1994.
  • Torkian, A.; Dehghanzadeh, R.; Koutsky, B. Performance Evaluation of Biofilters in Treating Waste Gas-Streams Contaminated with Aromatic VOCs. In Proceedings of the 2002 Conference on Biofiltration, Reynolds, F.E., Ed.; The Reynolds Group: Tustin, CA, 2002.
  • Devinny, J.S.; Deshusses, M.A.; Webster, T.S. Biofiltration for Air Pollution Control; Lewis: London, U.K., 1999.
  • Ergas, S.J.; Schroeder, E.D.; Chang, D.P.Y.C; Scow, K.M. Spatial Ditribution of Microbial Populations in Biofilters. In Proceedings of A&WMA’s 87th Annual Meeting & Exhibition, A&WMA: Pittsburgh, PA, 1994; Paper 94-RP115B.01.
  • Medina, V.F.; Webster, T.; Ramaratnam, M.; Devinny, J.S. Treatment of Gasoline Residuals by Granular Activated Carbon Based Biological Filtration; J. Environ. Sci. Health Part A Environ. Sci. Eng. 1995, 30, 407–412.
  • Spencer, R.; Alix, C. Biofilter Design Care and Feeding; BioCycle 2003, 44, 45–50.
  • Morgan-Sagastume, F.; Sleep, B.E.; Grant, A.D. Effects of Biomass Growth on Gas Pressure Drop in Biofilters; J. Environ. Eng. 2001, 127, 388–397.
  • Sorial, G.A.; Smith, F.L.; Suidan, M.T.; Biswas, P.; Brenner, R.C. Evaluation of the Performance of Trickle Bed Biofilters—Impact of Periodic Removal of Accumulated Biomass. In Proceedings of A&WMA’s 87th Annual Meeting & Exhibition, A&WMA: Pittsburgh, PA, 1994; Paper 94-RP115B.07.
  • Alonso, C.; Suidan, M.T.; Sorial, G.A.; Smith, F.L.; Biswas, P.; Smith, P.J.; Brenner, R.C. Gas Treatment in Trickle-Bed Biofilters: Biomass, How Much Is Enough?; Biotechnol. Bioeng. 1997, 54, 583–594.
  • Song, J.; Kinney, K.A. A Model to Predict Long-Term Performance of Vapor-Phase Bioreactors: a Cellular Automaton Approach; Environ. Sci. Technol. 2002, 36, 2498–2507.
  • Yortsos, Y.C.; Sharma, M. Application of Percolation Theory to Non-catalytic Gas-Solid Reactions; AlChE J. 1986, 32, 46–55.
  • Taylor, S.W.; Milly, P.C.D., Jaffé, P.R. Biofilm Growth and the Related Changes in the Physical Properties of a Porous Medium 1. Experimental Investigations; Water Resour. Res. 1990, 6, 2153–2159.
  • Vandevivere, P.P.; Baveye, D.; de Lozada, S.; DeLeo, P. Microbial Clogging of Saturated Soils and Aquifer Materials: Evaluation of Mathematical Models; Water Resour. Res. 1995, 31, 2173–2180.
  • Clement, T.P.; Hooker, B.S.; Skeen, R.S. Macroscopic Models for Predicting Changes in Saturated Porous Media Properties Caused by Microbial Growth; J. Ground Water 1996, 34, 934–942.
  • Loehle, C.; Johnson, P. A Framework for Modeling Microbial Transport and Dynamics in the Subsurface; Ecol. Model. 1994, 73, 31–49.
  • Suchomel, B.J.; Chen, B.M.; Allen, M.B. Network Model of Flow, Transport and Biofilm Effects in Porous Media; Trans. Porous Med. 1998, 30, 1–23.
  • Kim, D.S.; Fogler, H.S. Biomass Evolution in Porous Media and Its Effects on Permeability under Starvation Conditions; Biotech. Bioeng. 2000, 69, 47–56.
  • Dupin, H.J.; McCarty, P.L. Impact of Colony Morphologies and Dis-infection on Biological Clogging in Porous Media; Environ. Sci. Technol. 2000, 34, 1513–1520.
  • Thullner, M.; Zeyer, J.; Wolfgang, K. Influence of Microbial Growth on Hydraulic Properties of Pore Networks; Trans. Porous Med. 2002, 9, 99–122.
  • Schwarz, B.C.E.; Nukunya, T.; Devinny, J.S.; Tsostis, T.T. A Pore Network Model of Biofilter Clogging. In Proceedings of the 2000 Conference on Biofiltration, Reynolds, F.E., Ed.; The Reynolds Group: Tustin, CA, 2000.
  • Schwarz, B.C.E., Devinny, J.S.; Tsotsis, T.T. A Biofilter Network Model—Importance of the Pore Structure and Other Large Scale Heterogeneities; Chem. Eng. Sci. 2001, 56, 475–483.
  • Nukunya, T.; Tsotsis, T.T.; Devinny, J.S. Application of Pore Network Model to a Lava Rock Biofilter Treating Ethanol. In Proceedings of the 2002 Conference on Biofiltration, Reynolds, F.E., Ed.; The Reynolds Group: Tustin, CA, 2002.
  • Nukunya, T.; Devinny, J.S.; Tsotsis, T.T. Application of a Pore Network Model to a Biofilter Treating Ethanol Vapor; Chem. Eng. Sci. 2005, 60, 665–675.
  • Shariati, M.; Lu, C.; Devinny, J.S.; Yortsos, Y. Application of Percolation Theory to Biofilm Accumulation and Head Loss in Biofilters. In Proceedings of the 2000 Conference on Biofiltration, Reynolds, F.E., Ed.; The Reynolds Group: Tustin, CA, 2000.
  • Ozis, F.; Yortsos, Y.; Devinny, J.S. Numerical Percolation Model for Describing Biomass Clogging in Biofilters. In Proceedings of the 2002 Conference on Biofiltration, Reynolds, F.E., Ed.; The Reynolds Group: Tustin, CA, 2002.
  • Yortsos, Y.; Shankar, K. Asymptotic Analysis of Pore Closure Reactions; Ind. Eng. Chem. Fundam. 1984, 23, 132–137.
  • Kirkpatrick, S. Percolation and Conduction; Rev. Mod. Phys. 1973, 45, 574–588.
  • Noguera, D.R.; Pizarro, G.; Stahl, D.A.; Rittmann, B.E. Simulation of MultiSpecies Biofilm Development in Three Dimensions; Water Sci. Technol. 1999, 397, 123–130.
  • Picioreanu, C.; Van Loosdrecht, M.C.M., Heijnen, J.J. Mathematical Modelling of Biofilm Structure with a Hybrid Differential-Discrete Cellular Automaton Approach; Biotechnol. Bioeng. 1998, 58, 101–116.
  • Pizarro, G.; Griffeath, D.; Noguera, D.R. Quantitative Cellular Automaton Model for Biofilms; J. Env. Eng. 2001, 127, 782–789.
  • Nukunya, T. Ph.D. Dissertation, University of Southern California, May 2004.
  • Nolan, G.T.; Kavanagh, P.E. The Size Distribution of Interstices in Random Packings of Spheres; Powder Tech. 1994, 78, 231–238.
  • Ronault, Y.; Assouline, S. A Probabilistic Approach towards Modeling the Relationships between Particle and Pore Size Distribution: Multi-Component Packed Sphere Case; Powder Tech. 1998, 96, 33–41.
  • Chan, S.K.; Ng, K.M. Geometrical Characteristics of the Pore Space in a Random Packing of Equal Spheres; Powder Tech. 1998, 54, 147–155.
  • Aberg, B. Void Ratio of Non-Cohesive Soils and Similar Materials; J. Geotech. Eng. 1992, 118, 1315–1334.
  • Aberg, B. Void Sizes in Granular Soils; J. Geotech. Eng. 1996, 122, 236–239.
  • Ozis, F.; Bina, A.; Devinny, J.S. Application of a Percolation-Biofilm Growth Model to Biofilters with a Known Packing Particle Size Distribution; In Proceedings of the 2004 Conference on Biofiltration, Reynolds, F.E., Ed.; The Reynolds Group: Tustin, CA, 2004.
  • Shuler, M.L.; Kargi, F. Bioprocess Engineering, 2nd ed. Prentice Hall PTR: Upper Saddle River, NJ, 2001.
  • Williamson, K.; McCarty, P.L. A Model of Substrate Utilization by Bacterial Films; J. Water Pollut. Control Fed. 1976, 48, 9–24.
  • Shareefdeen, Z.; Baltzis, B.C.; Oh, Y.-S.; Bartha, R. Biofiltration of Methanol Vapor; Biotechnol. Bioeng. 1993, 41, 512–524.
  • Crueger, W.; Crueger, A. Biotechnology: a Textbook of Industrial Micro-biology; Sinauer Associates: Sunderland, MA, 1990.
  • Christen, P.; Domenech, F.; Michelena, G.; Auria, R.; Revah, S. Biofiltration of Volatile Ethanol Using Sugar Cane Bagasse Inoculated with Candida Utilis; J. Haz. Mat. 2002, 89, 253–265.
  • Pérez, W.T.; Domenech, F.M.; Roger, P.; Christen, P. Effect of Mineral Salts Addition on the Behavior of an Ethanol Biofilter; Environ. Tech. 2002, 23, 981–989.

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.