Surface-engineered sponges for recovery of crude oil microdroplets from wastewater

In the United States, the oil industry produces over 15 billion barrels of wastewater contaminated with crude oil microdroplets annually. Current methods are ineffective for the removal of these microdroplets at the variable pH conditions commonly found in wastewater. Here, an innovative surface-eng...

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Bibliographic Details
Published in:Nature sustainability 2020-02, Vol.3 (2), p.136-143
Main Authors: Cherukupally, Pavani, Sun, Wei, Wong, Annabelle P. Y., Williams, Daryl R., Ozin, Geoffrey A., Bilton, Amy M., Park, Chul B.
Format: Article
Language:English
Subjects:
101/28
14/19
14/3
45/29
639/638/11
639/638/455/957
639/638/898
704/172/169/896
704/172/4081
82/58
96/63
Crude oil
Earth and Environmental Science
Environment
Oil and gas industry
Oil pollution
Solvent extraction
Surface chemistry
Sustainable Development
Wastewater pollution
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Summary:In the United States, the oil industry produces over 15 billion barrels of wastewater contaminated with crude oil microdroplets annually. Current methods are ineffective for the removal of these microdroplets at the variable pH conditions commonly found in wastewater. Here, an innovative surface-engineered sponge (SEnS) that synergistically combines surface chemistry, charge and roughness, provides a solution to this problem. Over broad pH conditions, the SEnS rapidly adsorbed oil microdroplets with 95–99% removal efficiency, predominantly facilitated by Lifshitz–van der Waals forces. At the optimum pH, 92% of the oil was adsorbed within 10 min. The oil was subsequently recovered by solvent extraction under ambient conditions, and the cleaned SEnS was reused for oil microdroplets adsorption ten times. The combined efficacy and reusability can enable large-scale removal and recovery of crude oil microdroplets from wastewater. Current methods to remove oil microdroplets from wastewater are ineffective at the variable pH conditions commonly found in wastewater. This study presents a surface-engineered sponge that synergistically combines surface chemistry, charge and roughness, providing a solution to this problem.
ISSN:2398-9629
2398-9629
DOI:10.1038/s41893-019-0446-4