2020
DOI: 10.1007/s11814-020-0575-5
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Surface matrix functionalization of ceramic-based membrane for oil-water separation: A mini-review

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Cited by 19 publications
(6 citation statements)
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“…62 Moreover, the addition of polymers and surfactants during the oil recovery process intensifies the degree of oil−water emulsification and improves the stability of the oil−water interface. 11 Currently, the methods to demulsify oil−water emulsions and induce liquid−liquid separation include a demulsified method, 63 membrane separation method, 64 centrifugation method, 65 external electric field method, 66 ultrasonic method, 67 and magnetic demulsification. 68…”
Section: Liquid−liquid Separation Of the Emulsion Systemmentioning
confidence: 99%
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“…62 Moreover, the addition of polymers and surfactants during the oil recovery process intensifies the degree of oil−water emulsification and improves the stability of the oil−water interface. 11 Currently, the methods to demulsify oil−water emulsions and induce liquid−liquid separation include a demulsified method, 63 membrane separation method, 64 centrifugation method, 65 external electric field method, 66 ultrasonic method, 67 and magnetic demulsification. 68…”
Section: Liquid−liquid Separation Of the Emulsion Systemmentioning
confidence: 99%
“…Yuan et al fabricated a porous membrane for regulating the oil–water interface by modifying the porous membrane to achieve superhydrophilicity and superhydrophobicity on its surface. This modification of the porous membrane surface needs to be done according to the type of oil–water emulsions, and oleophilic/hydrophobic membranes are used for W/O emulsions, whereas hydrophilic/oleophobic membranes are used for O/W emulsions …”
Section: Inhibition and Destruction Of Interface Stabilizationmentioning
confidence: 99%
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“…Typically, superoleophobic and superamphiphobic surfaces exhibit low surface tension and high CAs of over 150 • (superrepellent) with many oil droplets and small hysteresis CAs. 177 The basic principle of a superoleophobic layer is that polar liquids, such as water, permeate through the membrane pores, while nonpolar liquids, such as oil, are rejected on the membrane surface (see Figure 10A). On the other hand, in a superamphiphobic layer, polar liquids such as water and ethylene glycol (EG) and nonpolar liquids such as oil and hexadecane, are rejected on the membrane surface, as shown in Figure 10B.…”
Section: Fouling Mitigation On the Ceramic Membrane Surfacementioning
confidence: 99%
“…Due to the dramatic increase in domestic sewage, industrial oily wastewater and oil spills at sea, finding a method to efficiently separate oil and water has become a high priority. [1][2][3][4][5] A variety of substrates have been developed for membrane separation, such as metal meshes, 6,7 polymers 8,9 and ceramics, 10,11 and have demonstrated high separation efficiencies in oil-water separation applications. However, the practical application of separation membranes has been hindered by laborious strategies, expensive raw materials and complex and time consuming processes.…”
Section: Introductionmentioning
confidence: 99%