Experimental study on application of the boundary layer theory for estimating steady aeration intensity of precoated dynamic membrane bioreactors

Desalination

Volumn 230, Issue 1-3, 2008, Pages 100-112

  Mao sheng, Ye ^a   Han min, Zhang ^a   Feng lin, Yang ^a  

^a DALIAN UNIVERSITY OF TECHNOLOGY   (China)

Author keywords

Aeration intensity; Boundary layer; Flat membrane; Precoated dynamic membrane

Indexed keywords

ACTIVATED CARBON TREATMENT; AERODYNAMICS; BIOREACTORS; BOUNDARY LAYERS; CHEMICAL OXYGEN DEMAND; CHEMICAL REACTORS; DRAG REDUCTION; EFFLUENTS; FLUID DYNAMICS; FLUID MECHANICS; HYDRODYNAMICS; INDUSTRIAL CHEMICALS; LAMINAR FLOW; MEMBRANES; METEOROLOGY; NEWTONIAN LIQUIDS; NONMETALS; OXYGEN; OXYGEN SUPPLY; REMOVAL; RHEOLOGY; WASTEWATER RECLAMATION; WASTEWATER TREATMENT; WATER AERATION; WATER TREATMENT;

ACTIVATED SLUDGES; AERATION INTENSITY; BOUNDARY LAYER; BOUNDARY-LAYER THEORY; DYNAMIC MEMBRANES; EXPERIMENTAL STUDIES; FILTER CLOTHS; FLAT MEMBRANE; FLAT MEMBRANES; FORMATION PROCESSES; MEMBRANE BIOREACTOR; MUNICIPAL WASTEWATERS; NEWTONIAN; NEWTONIAN FLUIDS; POWDER-ACTIVATED CARBON; PRECOATED DYNAMIC MEMBRANE; REMOVAL EFFICIENCIES; RHEOLOGICAL BEHAVIORS; TRANS-MEMBRANE PRESSURE; TREATMENT PERFORMANCE;

ACTIVATED CARBON;

ACTIVATED CARBON; ACTIVATED SLUDGE; AERATION; BIOREACTOR; BOUNDARY LAYER; CHEMICAL OXYGEN DEMAND; EXPERIMENTAL STUDY; HYDRODYNAMICS; LAMINAR FLOW; MEMBRANE; NEWTONIAN FLUID; RHEOLOGY; WASTEWATER; WATER TREATMENT;

EID: 48449104828     PISSN: 00119164     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.desal.2007.11.019     Document Type: Article

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