Journal Article10.1016/J.RSER.2017.05.078
Membrane distillation: perspectives for sustainable and improved desalination.
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TL;DR: In this paper, a critical review of membrane distillation is presented, focusing on applications for sustainable water production and on issues that must be addressed to improve the performance of MD desalination systems.
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Abstract: Membrane distillation (MD) is a promising separation technology that can help reducing the worldwide water-energy stress in a sustainable way MD uses low-grade thermal energy to drive desalination, to remove non-volatile contaminants or to recover other components In MD, the vapor from an aqueous solution crosses a hydrophobic membrane and then it condensates at the other side of the membrane, resulting in a high-quality distillate Recent advances in MD have demonstrated the viability of this technology for different water purification applications This article presents a critical review of MD that focuses on applications for sustainable water production and on issues that must be addressed to improve the performance of MD desalination systems To achieve sustainable desalination, different MD systems powered by solar, geothermal, and waste energy have been designed and evaluated, as well as hybrid systems that allow accomplishing zero liquid discharge To achieve improved desalination, new membranes, membrane modules and MD configurations have been proposed in the last years Membrane fouling and scaling has been found to be one of the main issues that limits MD at large-scale Research gaps are highlighted and areas for further research – in terms of sustainability and to improve the performance of MD systems– are proposed
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Citations
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TL;DR: A review looks at the trending membrane technologies in wastewater treatment, their advantages and disadvantages, and discusses membrane fouling, membrane cleaning, and membrane modules.
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Potential and implemented membrane-based technologies for the treatment and reuse of flowback and produced water from shale gas and oil plays: A review
TL;DR: In this article, a review on the characteristics and management of wastewaters originating for oil and gas extraction is presented, including the quantity and chemical composition of the produced water (FPW).
286
Hydrophilicity gradient in covalent organic frameworks for membrane distillation.
Shuang Zhao,Chenghao Jiang,JingCun Fan,Shanshan Hong,Pei Mei,Ruxin Yao,Yilin Liu,Sule Zhang,Hui Li,Huaqian Zhang,Chao Sun,Zhenbin Guo,Pengpeng Shao,Yuhao Zhu,Jinwei Zhang,Linshuo Guo,Yanhang Ma,Jianqi Zhang,Xiao Feng,FengChao Wang,HengAn Wu,Bo Wang +21 more
TL;DR: In this article, a strategy was proposed to construct a pore surface and size functionality gradient in a covalent organic framework, enabling a flux of 600 ǫl l 2 h 2 h 1 with NaCl rejection of 99.99%.
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Review on Metal–Organic Framework Classification, Synthetic Approaches, and Influencing Factors: Applications in Energy, Drug Delivery, and Wastewater Treatment
TL;DR: A quick overview of the current metal-organic frameworks (MOF) synthesis techniques can be found in this article , where the potential applications of MOFs in numerous fields such as gas storage, drug delivery, rechargeable batteries, supercapacitors, and separation membranes are discussed along with prospective opportunities for the synthesis and application of nano-MOFs.
263
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