Journal ArticleDOI
Silicon carbide microfiltration membranes for oil-water separation: Pore structure-dependent wettability matters.
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In this paper , the effect of pore structure-dependent surface wettability on the oil-water separation performance was investigated, and the pore size and open porosity of SiC membranes were found to contribute more to the improved surface Wettability.About:
This article is published in Water Research.The article was published on 2022-03-01. It has received 24 citations till now. The article focuses on the topics: Medicine & Membrane.read more
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Crosslinked biomimetic coating modified stainless-steel-mesh enables completely self-cleaning separation of crude oil/water mixtures.
TL;DR: In this article , different crosslinked poly(2-methacryloyloxylethyl phosphorylcholine) (PMPC) brush grafted stainless steel mesh (SSM) membranes were fabricated by integrating of mussel inspired universal adhesion and crosslinking chemistry with surface-initiated activators regenerated by electron transfer atom transfer radical polymerization (SI-ARGET-ATRP).
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Silicon carbide catalytic ceramic membranes with nano-wire structure for enhanced anti-fouling performance.
TL;DR: In this paper , the authors proposed a nano-wire network membrane structure with high porosity (56.1%) and exceptional water permeance (110 L·m-2·h-1·bar-1) and removal (100%) of organic substance under simulated sunlight.
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Phosphoric acid functionalized superhydrophilic and underwater superoleophobic UiO-66/polyester fabric composite membrane for efficient oil/water separation and Gd(III) recovery
TL;DR: Wang et al. as mentioned in this paper presented the first attempt to fabricate a versatile membrane by loading 2-hydroxyphosphono acetic acid functionalized UiO-66 on polyester fabric through one-pot reaction strategy, and reports for the first time the simultaneous separation of oil/water mixtures and recovery of rare earth (RE) from wastewater.
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Enhanced tetracycline removal using membrane-like air-cathode with high flux and anti-fouling performance in flow-through electro-filtration system.
TL;DR: The membrane-like air-cathodes modified with different polyaniline were prepared using phase inversion method, which possessed dual functions of interception and electrochemical degradation as mentioned in this paper .
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Construction of Janus silicon carbide membranes with asymmetric wettability for enhanced antifouling in water-in-oil emulsification process
TL;DR: In this article , the authors used an emerging reactive sintering method and the subsequent chemical grafting modification on one of the hydrophilic surfaces to achieve high emulsification efficiency.
References
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Journal ArticleDOI
Review of technologies for oil and gas produced water treatment
Ahmadun Fakhru’l-Razi,Alireza Pendashteh,Luqman Chuah Abdullah,Dayang Radiah Awang Biak,Sayed Siavash Madaeni,Zurina Zainal Abidin +5 more
TL;DR: Major research efforts in the future could focus on the optimization of current technologies and use of combined physico-chemical and/or biological treatment of produced water in order to comply with reuse and discharge limits.
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Separation Mechanism and Construction of Surfaces with Special Wettability for Oil/Water Separation.
TL;DR: This paper systematically summarize the fundamental theories, separation mechanism, design strategies, and recent developments in materials with special wettability for separating stratified and emulsified oil/water mixtures.
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Membrane-based separation for oily wastewater: A practical perspective.
Henry Jonathan Tanudjaja,Charifa A. Hejase,Volodymyr V. Tarabara,Anthony G. Fane,Jia Wei Chew +4 more
TL;DR: The large volumes of oily wastewater generated by various industries, such as oil and gas, food and beverage, and metal processing, need to be de-oiled prior to being discharged into the environment.
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Comparison of ceramic and polymeric membrane permeability and fouling using surface water
TL;DR: In this article, the authors investigated the TMP increase rate due to membrane fouling inversely follows the measured pore size and found that the higher degree of fouling on the polymeric membrane is partly due to its lower volume/area ratio, compared to ceramic membranes.