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Water Sci Technol


Title:Biofilm growth and hydrodynamic behaviour in the biological plate tower (BPT) with and without hanging biomass (BPT-HB)
Author(s):Peixoto JM; Pinto JC;
Address:"Department of Biological Engineering, University of Minho, BRAGA, Portugal. jmp@deb.uminho.pt"
Journal Title:Water Sci Technol
Year:2012
Volume:66
Issue:8
Page Number:1678 - 1683
DOI: 10.2166/wst.2012.368
ISSN/ISBN:0273-1223 (Print) 0273-1223 (Linking)
Abstract:"Deodorization and volatile organic compound abatement from polluted air streams can be accomplished with the biological plate tower (BPT), which has proved to be a reliable alternative to biofilters and biotrickling filters. Unlike those, the BPT is a non-clogging device, with constant active surface, and steady performance, making it ideal for scale-up and modelling. The initial BPT design needed improvement for better performance. The cylindrical body (circular plates) was replaced by a rectangular cuboid (rectangular plates). Holes in the plates did augment the amount of active biomass (hanging from the holes and under the plates), without reducing the transfer of toluene from the gaseous to the liquid phase. The diminished distance between plates was well tolerated in co-current flow, allowing much higher quantities of biomass in the same reactor volume. With 18 and 14 mm spacing between adjacent plates, the BPT, with and without holes, was tested for flooding, holdup and pressure drop. Several gas and liquid flows were tested, both in co-current and counter-current. In hydrodynamic terms, the BPT-HB with co-current flow was clearly the best option. Higher stability with higher flow rates, and lower pressure drops were observed. The inoculum was obtained from wastewater plant activated sludge (petrochemical industry)"
Keywords:*Biofilms Biomass Hydrodynamics;
Notes:"MedlinePeixoto, Joao Monteiro Pinto, Joao Carlos Ribeiro eng England 2012/08/22 Water Sci Technol. 2012; 66(8):1678-83. doi: 10.2166/wst.2012.368"

 
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