Fabrication and characterization of a novel hydrophobic polystyrene membrane using electroblowing technique for desalination by direct contact membrane distillation

•A novel, nanofibrous membrane for DCMD desalination by electroblowing technique.•Electroblowing method is much faster than the typical electrospinning.•The injection rate for the dope solution has increased up to 117 µL/min.•Membrane could be fabricated using a cheap and commercially available poly...

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Published inSeparation and purification technology Vol. 239; p. 116498
Main Authors Sadeghzadeh, Amirhossein, Bazgir, Saeed, Shirazi, Mohammad Mahdi A.
Format Journal Article
LanguageEnglish
Published Elsevier B.V 15.05.2020
Subjects
Desalination
Direct contact membrane distillation (DCMD)
Electroblowing
Nanofibrous membrane
Polystyrene
Nanofibrous membrane
Polystyrene
Desalination
Electroblowing
Direct contact membrane distillation (DCMD)
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Abstract •A novel, nanofibrous membrane for DCMD desalination by electroblowing technique.•Electroblowing method is much faster than the typical electrospinning.•The injection rate for the dope solution has increased up to 117 µL/min.•Membrane could be fabricated using a cheap and commercially available polymer.•The hot-pressed membrane was superhydrophobic (154.52°) with 99% salt rejection. In this work, a new hydrophobic membrane with nanofibrous structure was prepared from polystyrene using the electroblowing technique, for the first time, for desalination experiments. Using this technique, the injection rate for the dope solution increased up to 117 µL/min. This means faster and considerably higher fiber productivity as compared to the typical electrospinning. The membrane was treated via a hot-press post treatment. The new membrane was analyzed for the surface morphology and topography, and was then evaluated for desalination using DCMD process. The results for the new membrane compared to a commercial PTFE membrane with 0.22 µm pore size. Larger mean pore size (0.562 µm) was observed for the new membrane. However, the membrane porosity for the nanofibrous membrane was comparable with the PTFE one (~75%). The fabricated membrane was thinner and therefore it produced higher permeate flux. Both fabricated and commercial membranes showed ˃99% salt rejections for lower range of feed flow rate (≤0.48 L/m). Most importantly, the new membrane fabricated using a cheap and available polymer via a fast technique for DCMD desalination. The hot-pressed, nanofibrous membrane showed higher surface hydrophobicity (154.52°) than the commercial membrane (124.61°). The superhydrophobic state of the new membrane prevented the liquid encroachment into the membrane pores. This consequently improved not only the permeate flux, but also the average salt rejection. Overall, the new fabricated membrane showed a reasonable desalination performance.
AbstractList •A novel, nanofibrous membrane for DCMD desalination by electroblowing technique.•Electroblowing method is much faster than the typical electrospinning.•The injection rate for the dope solution has increased up to 117 µL/min.•Membrane could be fabricated using a cheap and commercially available polymer.•The hot-pressed membrane was superhydrophobic (154.52°) with 99% salt rejection. In this work, a new hydrophobic membrane with nanofibrous structure was prepared from polystyrene using the electroblowing technique, for the first time, for desalination experiments. Using this technique, the injection rate for the dope solution increased up to 117 µL/min. This means faster and considerably higher fiber productivity as compared to the typical electrospinning. The membrane was treated via a hot-press post treatment. The new membrane was analyzed for the surface morphology and topography, and was then evaluated for desalination using DCMD process. The results for the new membrane compared to a commercial PTFE membrane with 0.22 µm pore size. Larger mean pore size (0.562 µm) was observed for the new membrane. However, the membrane porosity for the nanofibrous membrane was comparable with the PTFE one (~75%). The fabricated membrane was thinner and therefore it produced higher permeate flux. Both fabricated and commercial membranes showed ˃99% salt rejections for lower range of feed flow rate (≤0.48 L/m). Most importantly, the new membrane fabricated using a cheap and available polymer via a fast technique for DCMD desalination. The hot-pressed, nanofibrous membrane showed higher surface hydrophobicity (154.52°) than the commercial membrane (124.61°). The superhydrophobic state of the new membrane prevented the liquid encroachment into the membrane pores. This consequently improved not only the permeate flux, but also the average salt rejection. Overall, the new fabricated membrane showed a reasonable desalination performance.
ArticleNumber 116498
Author Bazgir, Saeed
Shirazi, Mohammad Mahdi A.
Sadeghzadeh, Amirhossein
Author_xml – sequence: 1
  givenname: Amirhossein
  surname: Sadeghzadeh
  fullname: Sadeghzadeh, Amirhossein
  organization: Nanopolymer Research Laboratory (NPRL), Science and Research Branch, Islamic Azad University, Tehran, Iran
– sequence: 2
  givenname: Saeed
  surname: Bazgir
  fullname: Bazgir, Saeed
  email: bazgir@srbiau.ac.ir
  organization: Nanopolymer Research Laboratory (NPRL), Science and Research Branch, Islamic Azad University, Tehran, Iran
– sequence: 3
  givenname: Mohammad Mahdi A.
  surname: Shirazi
  fullname: Shirazi, Mohammad Mahdi A.
  organization: Chemical Engineering Department, Faculty of Engineering, University of Kashan, Kashan, Iran
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Keywords Nanofibrous membrane
Polystyrene
Desalination
Electroblowing
Direct contact membrane distillation (DCMD)
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SSID ssj0017182
Score 2.5244107
Snippet •A novel, nanofibrous membrane for DCMD desalination by electroblowing technique.•Electroblowing method is much faster than the typical electrospinning.•The...
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elsevier
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StartPage 116498
SubjectTerms Desalination
Direct contact membrane distillation (DCMD)
Electroblowing
Nanofibrous membrane
Polystyrene
Title Fabrication and characterization of a novel hydrophobic polystyrene membrane using electroblowing technique for desalination by direct contact membrane distillation
URI https://dx.doi.org/10.1016/j.seppur.2019.116498
Volume 239
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