Issue 5, 2013

A reverse membrane emulsification process based on a hierarchically porous monolith for high efficiency water–oil separation

Abstract

A hierarchically porous monolith with macro- and meso-pores was synthesized via a sol–gel and phase separation process. Due to the surface modification by organic silanes, the wettability of the silica material was effectively controlled. A series of hydrophobic porous silica monoliths (HPSM) were obtained. Using a “reverse membrane emulsification” process, the HPSM not only cleared oil away from water, but also broke the micro-emulsion efficiently, even when emulsion stabilizer was in the system. As the filtration layer, 1.0 g of HPSM could treat 944 mL of oil containing water or 667 mL of surfactant-stabilized micro-emulsion. HPSM materials could remove at maximum 96.5% of the oil in water and 100% surfactant in the micro-emulsion. In addition, the material could be reused through a simple treatment. The excellent separating effect was kept even after 8 times of regeneration. Special selectivity, easy operation and excellent recyclability make the material have great potential for practical application.

Graphical abstract: A reverse membrane emulsification process based on a hierarchically porous monolith for high efficiency water–oil separation

Supplementary files

Article information

Article type
Paper
Submitted
21 Aug 2012
Accepted
20 Nov 2012
First published
20 Nov 2012

J. Mater. Chem. A, 2013,1, 1701-1708

A reverse membrane emulsification process based on a hierarchically porous monolith for high efficiency water–oil separation

Y. Wang, S. Tao and Y. An, J. Mater. Chem. A, 2013, 1, 1701 DOI: 10.1039/C2TA00007E

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