Porous Hydrophobic–Hydrophilic Composite Hollow Fiber and Flat Membranes Prepared by Plasma Polymerization for Direct Contact Membrane Distillation

Porous Hydrophobic–Hydrophilic Composite Hollow Fiber and Flat Membranes Prepared by Plasma Polymerization for Direct Contact Membrane Distillation

High water vapor flux at low brine temperatures without surface fouling is needed in membrane distillation-based desalination. Brine crossflow over surface-modified hydrophobic hollow fiber membranes (HFMs) yielded fouling-free operation with supersaturated solutions of scaling salts and their preci...

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Main Authors: Ashok K. Sharma, Adam Juelfs, Connor Colling, Saket Sharma, Stephen P. Conover, Aishwarya A. Puranik, John Chau, Lydia Rodrigues, Kamalesh K. Sirkar
Format: Article
Language:English
Published: MDPI AG 2021-02-01
Series:Membranes
Subjects:
membrane distillation
composite membrane
plasma-polymerized hydrophobic fluorosiloxane coating
hydrophilic porous hollow-fiber substrate
Online Access:https://www.mdpi.com/2077-0375/11/2/120
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spelling doaj-01b2c68870ec4b2691d3d0e2b593bcb22021-02-09T00:01:53ZengMDPI AGMembranes2077-03752021-02-011112012010.3390/membranes11020120Porous Hydrophobic–Hydrophilic Composite Hollow Fiber and Flat Membranes Prepared by Plasma Polymerization for Direct Contact Membrane DistillationAshok K. Sharma0Adam Juelfs1Connor Colling2Saket Sharma3Stephen P. Conover4Aishwarya A. Puranik5John Chau6Lydia Rodrigues7Kamalesh K. Sirkar8Applied Membrane Technology Inc., 11558 Encore Circle, Minnetonka, MN 55343, USAApplied Membrane Technology Inc., 11558 Encore Circle, Minnetonka, MN 55343, USAApplied Membrane Technology Inc., 11558 Encore Circle, Minnetonka, MN 55343, USAApplied Membrane Technology Inc., 11558 Encore Circle, Minnetonka, MN 55343, USAApplied Membrane Technology Inc., 11558 Encore Circle, Minnetonka, MN 55343, USAOtto York Department of Chemical and Materials Engineering, New Jersey Institute of Technology, University Heights, Newark, NJ 07102, USAOtto York Department of Chemical and Materials Engineering, New Jersey Institute of Technology, University Heights, Newark, NJ 07102, USAOtto York Department of Chemical and Materials Engineering, New Jersey Institute of Technology, University Heights, Newark, NJ 07102, USAOtto York Department of Chemical and Materials Engineering, New Jersey Institute of Technology, University Heights, Newark, NJ 07102, USAHigh water vapor flux at low brine temperatures without surface fouling is needed in membrane distillation-based desalination. Brine crossflow over surface-modified hydrophobic hollow fiber membranes (HFMs) yielded fouling-free operation with supersaturated solutions of scaling salts and their precipitates. Surface modification involved an ultrathin porous polyfluorosiloxane or polysiloxane coating deposited on the outside of porous polypropylene (PP) HFMs by plasma polymerization. The outside of hydrophilic MicroPES HFMs of polyethersulfone was also coated by an ultrathin coating of porous plasma-polymerized polyfluorosiloxane or polysiloxane rendering the surface hydrophobic. Direct contact membrane distillation-based desalination performances of these HFMs were determined and compared with porous PP-based HFMs. Salt concentrations of 1, 10, and 20 wt% were used. Leak rates were determined at low pressures. Surface and cross-sections of two kinds of coated HFMs were investigated by scanning electron microscopy. The HFMs based on water-wetted MicroPES substrate offered a very thin gas gap in the hydrophobic surface coating yielding a high flux of 26.4–27.6 kg/m<sup>2</sup>-h with 1 wt% feed brine at 70 °C. The fluxes of HFMs on porous PP substrates having a long vapor diffusion path were significantly lower. Coated HFM performances have been compared with flat hydrophilic membranes of polyvinylidene fluoride having a similar plasma-polymerized hydrophobic polyfluorosiloxane coating.https://www.mdpi.com/2077-0375/11/2/120membrane distillationcomposite membraneplasma-polymerized hydrophobic fluorosiloxane coatinghydrophilic porous hollow-fiber substrate
collection DOAJ
language English
format Article
sources DOAJ
author Ashok K. Sharma
Adam Juelfs
Connor Colling
Saket Sharma
Stephen P. Conover
Aishwarya A. Puranik
John Chau
Lydia Rodrigues
Kamalesh K. Sirkar
spellingShingle Ashok K. Sharma
Adam Juelfs
Connor Colling
Saket Sharma
Stephen P. Conover
Aishwarya A. Puranik
John Chau
Lydia Rodrigues
Kamalesh K. Sirkar
Porous Hydrophobic–Hydrophilic Composite Hollow Fiber and Flat Membranes Prepared by Plasma Polymerization for Direct Contact Membrane Distillation
Membranes
membrane distillation
composite membrane
plasma-polymerized hydrophobic fluorosiloxane coating
hydrophilic porous hollow-fiber substrate
author_facet Ashok K. Sharma
Adam Juelfs
Connor Colling
Saket Sharma
Stephen P. Conover
Aishwarya A. Puranik
John Chau
Lydia Rodrigues
Kamalesh K. Sirkar
author_sort Ashok K. Sharma
title Porous Hydrophobic–Hydrophilic Composite Hollow Fiber and Flat Membranes Prepared by Plasma Polymerization for Direct Contact Membrane Distillation
title_short Porous Hydrophobic–Hydrophilic Composite Hollow Fiber and Flat Membranes Prepared by Plasma Polymerization for Direct Contact Membrane Distillation
title_full Porous Hydrophobic–Hydrophilic Composite Hollow Fiber and Flat Membranes Prepared by Plasma Polymerization for Direct Contact Membrane Distillation
title_fullStr Porous Hydrophobic–Hydrophilic Composite Hollow Fiber and Flat Membranes Prepared by Plasma Polymerization for Direct Contact Membrane Distillation
title_full_unstemmed Porous Hydrophobic–Hydrophilic Composite Hollow Fiber and Flat Membranes Prepared by Plasma Polymerization for Direct Contact Membrane Distillation
title_sort porous hydrophobic–hydrophilic composite hollow fiber and flat membranes prepared by plasma polymerization for direct contact membrane distillation
publisher MDPI AG
series Membranes
issn 2077-0375
publishDate 2021-02-01
description High water vapor flux at low brine temperatures without surface fouling is needed in membrane distillation-based desalination. Brine crossflow over surface-modified hydrophobic hollow fiber membranes (HFMs) yielded fouling-free operation with supersaturated solutions of scaling salts and their precipitates. Surface modification involved an ultrathin porous polyfluorosiloxane or polysiloxane coating deposited on the outside of porous polypropylene (PP) HFMs by plasma polymerization. The outside of hydrophilic MicroPES HFMs of polyethersulfone was also coated by an ultrathin coating of porous plasma-polymerized polyfluorosiloxane or polysiloxane rendering the surface hydrophobic. Direct contact membrane distillation-based desalination performances of these HFMs were determined and compared with porous PP-based HFMs. Salt concentrations of 1, 10, and 20 wt% were used. Leak rates were determined at low pressures. Surface and cross-sections of two kinds of coated HFMs were investigated by scanning electron microscopy. The HFMs based on water-wetted MicroPES substrate offered a very thin gas gap in the hydrophobic surface coating yielding a high flux of 26.4–27.6 kg/m<sup>2</sup>-h with 1 wt% feed brine at 70 °C. The fluxes of HFMs on porous PP substrates having a long vapor diffusion path were significantly lower. Coated HFM performances have been compared with flat hydrophilic membranes of polyvinylidene fluoride having a similar plasma-polymerized hydrophobic polyfluorosiloxane coating.
topic membrane distillation
composite membrane
plasma-polymerized hydrophobic fluorosiloxane coating
hydrophilic porous hollow-fiber substrate
url https://www.mdpi.com/2077-0375/11/2/120
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