Fluid hydrodynamics in submerged and sidestream membrane bioreactors

Fluid hydrodynamics in submerged and sidestream membrane bioreactors

As with all membrane processes, turbulence, as promoted by aeration in submerged membrane bioreactors (MBRs) or pumping in sidestream (SS) systems to produce somewhat higher effective cross-flow velocities, increases mass transfer and reduces fouling. This is manifested in an elevated critical flux,...

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Veröffentlicht in:Water science and technology 2003-01, Vol.48 (3), p.113-119
Hauptverfasser: LE-CLECH, P, ALVAREZ-VAZQUEZ, H, JEFFERSON, B, JUDD, S
Format: Artikel
Sprache:eng
Schlagworte:
Aeration
Aerodynamics
Biological and medical sciences
Bioreactors
Biotechnology
Cross flow
Environmental Monitoring
Flow velocity
Fluid dynamics
Fluid flow
Fluid mechanics
Fouling
Fundamental and applied biological sciences. Psychology
Gases
Hydrodynamics
Mass transfer
Membrane processes
Membranes
Membranes, Artificial
Methods. Procedures. Technologies
Models, Theoretical
Rheological properties
Sewage - chemistry
Sludge
System effectiveness
Turbulence
Various methods and equipments
Water Movements
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Zusammenfassung:As with all membrane processes, turbulence, as promoted by aeration in submerged membrane bioreactors (MBRs) or pumping in sidestream (SS) systems to produce somewhat higher effective cross-flow velocities, increases mass transfer and reduces fouling. This is manifested in an elevated critical flux, the flux at which the membrane permeability is sustained. However, the non-Newtonian nature of the sludge makes precise rheological characterisation difficult. In this study, a calculation of the appropriate hydrodynamics parameters for a SS MBR configuration is presented. Optimisation of the aeration in a submerged MBR system has been attained by defining the minimum air velocity required for Taylor bubble formation.
ISSN:0273-1223
1996-9732
DOI:10.2166/wst.2003.0176