Comparison of submerged coagulation and traditional coagulation on membrane fouling: Effect of active flocs

Coagulation in submerged ultrafiltration tank (sub-CUF) with continuous low aeration was compared with traditional coagulation by alum in flocculation system and subsequent ultrafiltration (CUF), for treating synthetic humic acid water. The transmembrane pressure (TMP) in sub-CUF was much lower comp...

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Bibliographic Details
Published in:Desalination 2013-01, Vol.309 (15), p.11-17
Main Authors: Yu, Wen-Zheng, Liu, Hui-Juan, Liu, Ting, Liu, Rui-Ping, Qu, Jiu-Hui
Format: Article
Language:English
Subjects:
Active flocs
aeration
Alum
Applied sciences
branches
Cakes
Chemical engineering
Coagulation
Density
desalination
Exact sciences and technology
flocculation
fouling
Fractal dimension
humic acids
Membrane fouling
Membrane separation (reverse osmosis, dialysis...)
Membranes
Pollution
Precipitates
scanning electron microscopes
Scanning electron microscopy
Tanks
ultrafiltration
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Summary:Coagulation in submerged ultrafiltration tank (sub-CUF) with continuous low aeration was compared with traditional coagulation by alum in flocculation system and subsequent ultrafiltration (CUF), for treating synthetic humic acid water. The transmembrane pressure (TMP) in sub-CUF was much lower comparing with the one in CUF. Humic acid was removed significantly by coagulation process in two membrane systems, but there was no difference of removal efficiency between these two membrane tanks. Active flocs formed in sub-CUF were significantly larger than those formed in CUF, and the frequency of small flocs was also lower than that in CUF. The coagulation process in jar test confirmed that continuous precipitate of alum can significantly increase the activity of flocs, causing dramatically higher growth ability of flocs. The fractal dimension of flocs formed in sub-CUF (2.53) was lower than that in CUF (2.65) as the continuous new coagulant activated the surface of flocs and increased the branches of flocs, which may induce lower density of cake layer. The image of scanning electron microscope (SEM) further confirmed that the density of cake layer on the sub-CUF membrane surface was lower than that by CUF. Therefore, the characteristic of flocs and cake layer, changed by continuous freshly formed hydroxide precipitate of alum by re-activating the inactive surface sites of aged flocs, caused lower increase of TMP development. ► The TMP development in sub-CUF was much lower compared with that in CUF. ► Continuous precipitate of alum caused dramatically higher growth ability of flocs. ► Flocs in sub-CUF were larger than those formed in CUF, and small flocs decreased. ► The fractal dimension of flocs formed in sub-CUF was lower than that in CUF. ► Fresh alum precipitate re-activated the aged flocs causing lower increase of TMP.
ISSN:0011-9164
1873-4464
DOI:10.1016/j.desal.2012.08.012