Title |
Superhydrophilic Functionalization of Microfiltration Ceramic Membranes Enables Separation of Hydrocarbons from Frac and Produced Water
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Published in |
Scientific Reports, September 2017
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DOI | 10.1038/s41598-017-12499-w |
Pubmed ID | |
Authors |
Samuel J. Maguire-Boyle, Joseph E. Huseman, Thomas J. Ainscough, Darren L. Oatley-Radcliffe, Abdullah A. Alabdulkarem, Sattam Fahad Al-Mojil, Andrew R. Barron |
Abstract |
The environmental impact of shale oil and gas production by hydraulic fracturing (fracking) is of increasing concern. The biggest potential source of environmental contamination is flowback and produced water, which is highly contaminated with hydrocarbons, bacteria and particulates, meaning that traditional membranes are readily fouled. We show the chemical functionalisation of alumina ceramic microfiltration membranes (0.22 μm pore size) with cysteic acid creates a superhydrophilic surface, allowing for separation of hydrocarbons from frac and produced waters without fouling. The single pass rejection coefficients was >90% for all samples. The separation of hydrocarbons from water when the former have hydrodynamic diameters smaller than the pore size of the membrane is due to the zwitter ionically charged superhydrophilic pore surface. Membrane fouling is essentially eliminated, while a specific flux is obtained at a lower pressure (<2 bar) than that required achieving the same flux for the untreated membrane (4-8 bar). |
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United Kingdom | 5 | 71% |
Italy | 1 | 14% |
Unknown | 1 | 14% |
Demographic breakdown
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Scientists | 5 | 71% |
Members of the public | 2 | 29% |
Mendeley readers
Geographical breakdown
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Demographic breakdown
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Student > Master | 7 | 12% |
Student > Bachelor | 6 | 10% |
Researcher | 5 | 8% |
Student > Postgraduate | 4 | 7% |
Other | 14 | 24% |
Unknown | 12 | 20% |
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Chemical Engineering | 9 | 15% |
Environmental Science | 8 | 14% |
Chemistry | 6 | 10% |
Materials Science | 3 | 5% |
Other | 5 | 8% |
Unknown | 18 | 31% |