Journal of Industrial and Engineering Chemistry, Vol.74, 208-215, June, 2019
Dual-channel separation system based on platanus fruit-like Ni@Ni(OH)2 hierarchical architecture for fast, efficient and continuous light/heavy oil.water separation
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Realization of fast, efficient and continuous oil?water separation is of great significance for solving the problem of oil pollution. We present here a facile hydrothermal strategy to synthesize a superhydrophilic platanus fruit-like Ni@Ni(OH)2 hierarchical architecture (SI-PFHA). Additionally, superhydrophobic platanus fruit-like Ni@Ni(OH)2 hierarchical architecture (SO-PFHA) is obtained through stearic acid modification of SI-PFHA. Dual-channel separation system is integrated based on two superwetting membranes. Such separation system is competent for continuous light/heavy oil?water separation with high flux and high separation efficiency. Importantly, outstanding durability and reusability make this separation system a promising strategy for practical application in remediation of oily wastewater.
Keywords:Dual-channel separation system;Nickel hydroxide;Superhydrophilic/underwater;superoleophobic;Superhydrophobic;Oil.water separation
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