Towards a better hydraulic cleaning strategy for ultrafiltration membrane fouling by humic acid: Effect of backwash water composition

As a routine measurement to alleviate membrane fouling, hydraulic cleaning is of great significance for the steady operation of ultrafiltration(UF) systems in water treatment processes. In this work, a comparative study was performed to investigate the effects of the composition of backwash water on...

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Bibliographic Details
Published inJournal of environmental sciences (China) Vol. 43; no. 5; pp. 177 - 186
Main Authors Chang, Haiqing, Liang, Heng, Qu, Fangshu, Ma, Jun, Ren, Nanqi, Li, Guibai
Format Journal Article
LanguageEnglish
Published Netherlands Elsevier B.V 01.05.2016
Subjects
Backwash water composition
Humic acid
Humic Substances
Hydraulic cleaning
Membrane fouling
Membranes, Artificial
Ultrafiltration
Ultrafiltration - methods
Water Purification - methods
反冲洗水
水处理过程
液压
清洗性能
离子交换
组成
超滤膜
酸污染
Ultrafiltration
Backwash water composition
Membrane fouling
Humic acid
Hydraulic cleaning
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Summary:As a routine measurement to alleviate membrane fouling, hydraulic cleaning is of great significance for the steady operation of ultrafiltration(UF) systems in water treatment processes. In this work, a comparative study was performed to investigate the effects of the composition of backwash water on the hydraulic cleaning performance of UF membranes fouled by humic acid(HA). Various types of backwash water, including UF permeate, Milli-Q water, Na Cl solution, CaCl_2 solution and HA solution, were compared in terms of hydraulically irreversible fouling index, total surface tension and residual HA. The results indicated that Milli-Q water backwash was superior to UF permeate backwash in cleaning HA-fouled membranes, and the backwash water containing Na+or HA outperformed Milli-Q water in alleviating HA fouling. On the contrary, the presence of Ca~(2+) in backwash water significantly decreased the backwash efficiency. Moreover, Ca~(2+) played an important role in foulant removal, and the residual HA content closely related to the residual Ca~(2+) content.Mechanism analysis suggested that the backwash process may involve fouling layer swelling, ion exchange, electric double layer release and competitive complexation. Ion exchange and competitive complexation played significant roles in the efficient hydraulic cleaning associated with Na+and HA, respectively.
Bibliography:Ultrafiltration Membrane fouling Hydraulic cleaning Backwash water composition Humic acid
As a routine measurement to alleviate membrane fouling, hydraulic cleaning is of great significance for the steady operation of ultrafiltration(UF) systems in water treatment processes. In this work, a comparative study was performed to investigate the effects of the composition of backwash water on the hydraulic cleaning performance of UF membranes fouled by humic acid(HA). Various types of backwash water, including UF permeate, Milli-Q water, Na Cl solution, CaCl_2 solution and HA solution, were compared in terms of hydraulically irreversible fouling index, total surface tension and residual HA. The results indicated that Milli-Q water backwash was superior to UF permeate backwash in cleaning HA-fouled membranes, and the backwash water containing Na+or HA outperformed Milli-Q water in alleviating HA fouling. On the contrary, the presence of Ca~(2+) in backwash water significantly decreased the backwash efficiency. Moreover, Ca~(2+) played an important role in foulant removal, and the residual HA content closely related to the residual Ca~(2+) content.Mechanism analysis suggested that the backwash process may involve fouling layer swelling, ion exchange, electric double layer release and competitive complexation. Ion exchange and competitive complexation played significant roles in the efficient hydraulic cleaning associated with Na+and HA, respectively.
11-2629/X
ObjectType-Article-1
SourceType-Scholarly Journals-1
ObjectType-Feature-2
content type line 23
ISSN:1001-0742
1878-7320
DOI:10.1016/j.jes.2015.09.005