Fouling Identification for Nanofiltration Membrane and the Potential Reduction of Pollutants in the Leachate by Using Fe/Al/PAC Coagulation

The reduction in the fouling is an important way to maintain the steady operation for the nanofiltration (NF) process in leachate treatment. The fouling components from the real leachate treatment process were identified using a scanning electron microscope equipped with X-ray microanalysis (SEM-EDS...

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Bibliographic Details
Published in:Sustainability 2021-02, Vol.13 (3), p.1114
Main Authors: He, Chang-wei, Wang, Hui, Wang, Luo-chun, Lou, Zi-yang, Bai, Li, Zong, Hai-feng, Zhou, Zhen
Format: Article
Language:English
Subjects:
Aluminum
Aluminum chloride
Calcium
Cellulose acetate
Chemical oxygen demand
Chemical precipitation
Chloride
Coagulants
Coagulation
Colloids
Filtration
Flow rates
Flow velocity
Fluorescence
Fouling
Humic acids
Industrial plant emissions
Infrared analysis
Infrared spectroscopy
Inorganic matter
Leachates
Magnesium
Membrane separation
Membranes
Microfiltration
Microorganisms
Nanofiltration
Nanotechnology
Organic matter
Pollutants
Pollution control
Precipitates
Quality standards
Scanning electron microscopy
Sedimentation & deposition
Spectrum analysis
Three dimensional analysis
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Summary:The reduction in the fouling is an important way to maintain the steady operation for the nanofiltration (NF) process in leachate treatment. The fouling components from the real leachate treatment process were identified using a scanning electron microscope equipped with X-ray microanalysis (SEM-EDS), infrared spectroscopy (FTIR), atomic analysis and three-dimensional fluorescence (EEM) analysis, and the coagulation of Fe/Al/PAC was selected to reduce the potential pollutants in the leachate, to reduce the potential fouling. It was found that organic humic acid and calcium-magnesium precipitates were the main pollutants in NF fouling. The foulant layer was the result of the combination of organic matter, inorganic precipitation, colloids and microorganisms, and the colloids precipitation is more important, and should be removed in advance. PAC was found to be more efficiency to reduce the colloids and the inorganic matter, among the coagulants selection, with the chemical oxygen demand (COD) removal rate of 55.1%. The commercially available coagulant-poly aluminum chloride (PAC) was chosen as a coagulant. The removal rate of leachate reached 55.1%, and the flow rate through the membrane was increased by 35.8% under the optimum condition (pH was 5.0, PAC dosage was 100 mg/L, and the membrane pressure was 0.4 MPa). Through the pilot scale test, the effluent was connected to the microfiltration membrane and then to the nanofiltration membrane and the practical engineering application is feasible.
ISSN:2071-1050
2071-1050
DOI:10.3390/su13031114