A B S T R A C TRecently, microfiltration (MF) and ultrafiltration (UF) are widely used for water treatment because of their advantages including small footprint, ease of operation, and high removal efficiency of bacteria and pathogenic protozoa. MF and UF membrane modules generally use hollow fibers that can be operated in either pressurized or submerged modes. In this study, we focused on comparison of pressurized and submerged membrane modules in terms of fouling rates. Synthetic feed waters were used for accelerated fouling tests. Labscale pressurized and submerged modules were fabricated using same UF fibers. In additions, a special module that allows the application of both positive and negative pressures was prepared. In the three systems (pressurized, submerged, and combined modules), the permeate flux was adjusted to be constant and the increase in transmembrane pressure was continuously monitored. Experimental results showed that the efficiency of the submerged module was better than that of the pressurized module. This may be attributed to the compaction of foulant layer due to the external pressure in the pressurized module. Accordingly, the fouling rate may depend on the ratio of external positive pressure to negative suction pressure in the combined module.
A B S T R A C THollow fiber ultrafiltration (UF) membranes have been widely employed for water treatment and pretreatment for seawater desalination. Nevertheless, there are challenges in design and optimization of hollow fiber modules because their efficiency depends on their geometric factors and filtration conditions. In this work, we focused on the analysis of submerged UF membranes for better understanding the correlation between hydrodynamic conditions and fouling phenomena. The local flux profiles were calculated based on the Hagen-Poiseuille equation. The results were compared with the experimental results of local fouling patterns, which were obtained based on an image analysis technique using a blue indigo solution. The experimental and theoretical results agreed qualitatively. The results in this study suggest that the methods demonstrated in this study can provide in-depth information such as local flux and pressure profiles, local foulant deposition, and the effect of fiber geometry and operation conditions.
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