Barrel‐Shaped Oil Skimmer Designed for Collection of Oil from Spills

Superhydrophobic–superoleophilic (SS) materials have the prospect to be used in oil‐spill cleanup as treated felts because of their complete oil‐absorbing and water‐repelling properties. The main issues affecting the practical application of the SS materials are the low volume‐based absorption capac...

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Veröffentlicht in:	Advanced materials interfaces 2015-10, Vol.2 (15), p.np-n/a
Hauptverfasser:	Song, Jinlong, Lu, Yao, Luo, Jie, Huang, Shuai, Wang, Long, Xu, Wenji, Parkin, Ivan P.
Format:	Artikel
Sprache:	eng
Schlagworte:	Cleaning Copper Devices Environmental cleanup Foams Mechanical handling oil skimmer Oil spills oil‐spill cleanup oil–water separation Separation Stearic acid Storage stability superhydrophobic copper foams
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container_title	Advanced materials interfaces
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creator	Song, Jinlong Lu, Yao Luo, Jie Huang, Shuai Wang, Long Xu, Wenji Parkin, Ivan P.
description	Superhydrophobic–superoleophilic (SS) materials have the prospect to be used in oil‐spill cleanup as treated felts because of their complete oil‐absorbing and water‐repelling properties. The main issues affecting the practical application of the SS materials are the low volume‐based absorption capacity (resulting in a high cost), the requirement for mechanical handling (squeeze out the oil) for recycling, and low storage stability of the collected oil. In this study, a barrel‐shaped oil skimmer mainly composed of an SS Cu foam and a glass barrel is developed as a potential step‐change device to enable separation of oil and water. The SS Cu active component is fabricated by chemical etching and stearic acid modification. The demonstrator oil skimmer quickly and selectively absorbs and collects a variety of oils from a polluted water surface, showing a high separation efficiency and volume‐based absorption capacity. The device can be easily scaled up. In addition to the high absorption capacity, the as‐prepared oil skimmer filters and collects the floating oil into the barrel, removing the traditional mechanical handling. Moreover, the as‐prepared oil skimmer also shows good storage stability; no oil escapes from the skimmer under harsh conditions. The findings presented in this study facilitate a novel, simple, and low‐cost approach for oil‐spill cleanup. A barrel‐shaped oil skimmer composed of a superhydrophobic–superoleophilic Cu foam and a glass barrel is developed to separate oil and water. The device has a high absorption capacity and good storage stability; no oil escapes from the skimmer under harsh conditions.
doi_str_mv	10.1002/admi.201500350
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The main issues affecting the practical application of the SS materials are the low volume‐based absorption capacity (resulting in a high cost), the requirement for mechanical handling (squeeze out the oil) for recycling, and low storage stability of the collected oil. In this study, a barrel‐shaped oil skimmer mainly composed of an SS Cu foam and a glass barrel is developed as a potential step‐change device to enable separation of oil and water. The SS Cu active component is fabricated by chemical etching and stearic acid modification. The demonstrator oil skimmer quickly and selectively absorbs and collects a variety of oils from a polluted water surface, showing a high separation efficiency and volume‐based absorption capacity. The device can be easily scaled up. In addition to the high absorption capacity, the as‐prepared oil skimmer filters and collects the floating oil into the barrel, removing the traditional mechanical handling. Moreover, the as‐prepared oil skimmer also shows good storage stability; no oil escapes from the skimmer under harsh conditions. The findings presented in this study facilitate a novel, simple, and low‐cost approach for oil‐spill cleanup. A barrel‐shaped oil skimmer composed of a superhydrophobic–superoleophilic Cu foam and a glass barrel is developed to separate oil and water. 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Moreover, the as‐prepared oil skimmer also shows good storage stability; no oil escapes from the skimmer under harsh conditions. The findings presented in this study facilitate a novel, simple, and low‐cost approach for oil‐spill cleanup. A barrel‐shaped oil skimmer composed of a superhydrophobic–superoleophilic Cu foam and a glass barrel is developed to separate oil and water. 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The main issues affecting the practical application of the SS materials are the low volume‐based absorption capacity (resulting in a high cost), the requirement for mechanical handling (squeeze out the oil) for recycling, and low storage stability of the collected oil. In this study, a barrel‐shaped oil skimmer mainly composed of an SS Cu foam and a glass barrel is developed as a potential step‐change device to enable separation of oil and water. The SS Cu active component is fabricated by chemical etching and stearic acid modification. The demonstrator oil skimmer quickly and selectively absorbs and collects a variety of oils from a polluted water surface, showing a high separation efficiency and volume‐based absorption capacity. The device can be easily scaled up. In addition to the high absorption capacity, the as‐prepared oil skimmer filters and collects the floating oil into the barrel, removing the traditional mechanical handling. 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subjects	Cleaning Copper Devices Environmental cleanup Foams Mechanical handling oil skimmer Oil spills oil‐spill cleanup oil–water separation Separation Stearic acid Storage stability superhydrophobic copper foams
title	Barrel‐Shaped Oil Skimmer Designed for Collection of Oil from Spills
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