Breakthroughs in the fabrication of electrospun-nanofiber-supported thin film composite/nanocomposite membranes for the forward osmosis process: A review

Obaid, M.; Abdelkareem, Mohammad Ali; Kook, Seungho; Kim, Hakyong; Hilal, Nidal; Ghaffour, Noreddine; Kim, In Soo

doi:10.1080/10643389.2019.1672510

Cited by 42 publications

(19 citation statements)

References 238 publications

(283 reference statements)

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“…Nanofibrous TFC‐FO membranes are however hindered by their low mechanical resistance and a risk of the PA active layer delaminating from its substrate. [ 37 ] SEM images of TFC membranes with various substrate structures are presented in Figure 4. To the best of our knowledge, there are no commercial nanofibrous TFC‐FO membranes available.…”

Section: Database and Comparison Criteria Of The Manufacturing Techniquesmentioning

confidence: 99%

“…The reduction of water flux in FO is fundamentally governed by the ICP phenomenon which is closely linked to the support layer's integral structural parameter. Because of the osmotic pressure gradient across the membrane's active layer, the water in the FS migrates to the support layer where it mixes with the DS which then becomes diluted [ 37,57,58,64,80 ] and exhibit a lower osmotic pressure than the bulk DS. This reduces the osmotic pressure gradient across the active layer, therefore, lowering the water flux across the membrane.…”

Section: Comparison Of Substrate Manufacturing Techniquesmentioning

confidence: 99%

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Selection of substrate manufacturing techniques of polyamine‐based thin‐film composite membranes for forward osmosis process

Ndiaye

Chaoui

Vaudreuil

et al. 2021

Polymer Engineering & Sci

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This paper is a comparative study on the preparation techniques used to make the support layer of polyamide‐thin‐film composite forward osmosis (TFC‐FO) membranes. The role played by the support layer preparation technique in membrane performance is thoroughly investigated in this study. Electrospinning is shown to produce membranes of lower structural parameter compared to those obtained by conventional phase inversion techniques. The electrospun polyamide selective layer can also be tailored with the required properties. This makes electrospinning a promising process to design efficient FO membrane substrates. It is shown in this work that the FO water flux is more dependent on the internal structure of the support layer than the preparation materials. The main challenge remaining for substrates to operate in FO is to achieve simultaneously a low structural parameter, a high surface porosity, and the required mechanical properties. As most of today's approaches are not suitable, further materials development is essential in future investigations on TFC‐FO membranes.

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Section: Database and Comparison Criteria Of The Manufacturing Techniquesmentioning

confidence: 99%

Section: Comparison Of Substrate Manufacturing Techniquesmentioning

confidence: 99%

Selection of substrate manufacturing techniques of polyamine‐based thin‐film composite membranes for forward osmosis process

Ndiaye

Chaoui

Vaudreuil

et al. 2021

Polymer Engineering & Sci

View full text Add to dashboard Cite

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“…Compared to phase inversion, electrospinning is another synthesis technique that has a better control on the tortuosity structure of the membrane [56,57]. Synthesis conditions such as environment conditions, solution viscosity, flow rate of the solution, and the applied voltage can be fine-tuned to obtain the membrane with desirable structural characteristics [34,58]. For example, Song et al ( 2014) adjusted the temperature to control the thickness of nanofibers within 50-150 nm [59].…”

Section: B Electrospinningmentioning

confidence: 99%

Polymeric Reverse Osmosis and Forward Osmosis Membranes for Water Desalination

Ang

2021

Materials Research Foundations

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Polymeric reverse osmosis (RO) and forward osmosis (FO) membranes have been predominantly used in membrane applications for water desalination. The membrane science has advanced in the past decades and various efforts have been employed to improve the membrane characteristics for enhanced water flux and impurities rejection capability. In this chapter, the progress of RO and FO membranes has been discussed in three sections: synthesis methods of RO and FO membranes, modification works done on the membranes and the formulation used for the synthesis of RO and FO membranes, with particular interest given to the incorporation of nanoparticles in the synthesis of thin film composite membrane.

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“…Electrospun membranes, generally termed nanofibers membranes, show great promise in water treatment applications due to their outstanding features such as high surface area, mechanical robustness, small pores, porosity, and lightweight [37]. Several studies were reported in literature for the application of electrospun nanofibers in MBRs [38,39], MF [40], UF [41], NF [42], RO [43], ED [44], MD [45], membrane contactors [46] and FO [47]. We believe that writing a short review on the applications of electrospun nanofiber membranes in the food industry wastewater treatment is essential to state the current status of the research progress and its future potential suggesting research directions for further developments.…”

Section: Introductionmentioning

confidence: 99%

Sustainable Treatment of Food Industry Wastewater Using Membrane Technology: A Short Review

Pervez

Mishu

Stylios

et al. 2021

Water

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Water is needed for food processing facilities to carry out a number of tasks, including moving goods, washing, processing, and cleaning operations. This causes them to produce wastewater effluent, and they are typically undesirable since it contains a high volume of suspended solids, bacteria, dyestuffs, salts, oils, fats, chemical oxygen demand and biological oxygen demand. Therefore, treatment of food industry wastewater effluent is critical in improving process conditions, socio-economic benefits and our environmental. This short review summarizes the role of available membrane technologies that have been employed for food wastewater treatment and analyse their performance. Particularly, electrospun nanofiber membrane technology is revealed as an emerging membrane science and technology area producing materials of increasing performance and effectiveness in treating wastewater. This review reveals the challenges and perspectives that will assist in treating the food industry wastewater by developing novel membrane technologies.

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Breakthroughs in the fabrication of electrospun-nanofiber-supported thin film composite/nanocomposite membranes for the forward osmosis process: A review

Cited by 42 publications

References 238 publications

Selection of substrate manufacturing techniques of polyamine‐based thin‐film composite membranes for forward osmosis process

Selection of substrate manufacturing techniques of polyamine‐based thin‐film composite membranes for forward osmosis process

Polymeric Reverse Osmosis and Forward Osmosis Membranes for Water Desalination

Sustainable Treatment of Food Industry Wastewater Using Membrane Technology: A Short Review

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