Feasibility of treating swine manure in an anaerobic sequencing batch biofilm reactor with mechanical stirring
Abstract
Anaerobic sequencing batch reactors containing granular or flocculent biomass have been employed successfully in the treatment of piggery wastewater. However, the studies in which these reactors were employed did not focus specifically on accelerating the hydrolysis step, even though the degradation of this chemical oxygen demand (COD) fraction is likely to be the limiting step in many investigations of this type of wastewater. The mechanically stirred anaerobic sequencing batch biofilm reactor offers an alternative for hastening the hydrolysis step, because mechanical agitation can help to speed up the reduction of particle sizes in the fraction of particulate organic matter. In the present study, a 4.5-L reactor was operated at 30°C, with biomass immobilized on cubic polyurethane foam matrices (1 cm of side) and mechanical stirring provided by three flat-blade turbines (6 cm) at agitation rates varying from 0 to 500 rpm. The reactor was operated to treat diluted swine waste, and mechanical stirring efficiently improved degradation of the suspended COD. The operational data indicate that the reactor remained stable during the testing period. After 2 h of operation at 500 rpm, the suspended COD decreased by about 65% (from 1500 to 380 mg/L). Apparent kinetic constants were also calculated by modified first-order expressions. Copyright © 2005 by Humana Press Inc. All rights of any nature whatsoever reserved.
- Anaerobic sequencing batch biofilm reactor
- Anaerobic sequencing batch reactor
- Mechanical stirring
- Piggery wastewater
- Solids removal
- Swine manure
- Animals
- Bacteria, Anaerobic
- Biofilms
- Bioreactors
- Feasibility Studies
- Kinetics
- Manure
- Mechanics
- Rheology
- Swine
- Time Factors
- Waste Disposal, Fluid
- Sus scrofa
- Biomass
- Chemical oxygen demand
- Hydrolysis
- Particle size analysis
- Polyurethanes
- Wastewater
- polyurethan foam
- Kinetic constants
- Polyurethane foam matrices
- article
- batch reactor
- biofilm reactor
- biomass
- calculation
- degradation
- kinetics
- manure
- swine
- anaerobic bacterium
- animal
- biofilm
- bioreactor
- feasibility study
- flow kinetics
- growth, development and aging
- instrumentation
- mechanics
- methodology
- microbiology
- physiology
- sewage
- time
URI
https://www.scopus.com/inward/record.uri?eid=2-s2.0-20344386727&doi=10.1385%2fABAB%3a120%3a2%3a109&partnerID=40&md5=610ff5d7c1ae533d9c8d07d17ae382d6https://repositorio.maua.br/handle/MAUA/1151
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