Effect of clay nanoparticles on the structure and performance of polyethersulfone ultrafiltration membranes

In this work, the effect of clay nanoparticles as a casting solution additive on the morphology and performance of polyethersulfone ultrafiltration membranes was evaluated. Ultrapure water permeability was used to initially survey membrane performance and the membranes cast with 1% clay+1% sodium he...

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Published inDesalination Vol. 314; pp. 147 - 158
Main Authors Mierzwa, Jose Carlos, Arieta, Victor, Verlage, Marianna, Carvalho, Julia, Vecitis, Chad D.
Format Journal Article
LanguageEnglish
Published Amsterdam Elsevier B.V 02.04.2013
Elsevier
Subjects
Applied sciences
Chemical engineering
clay
Clay (material)
Clay nanoparticles
cleaning
contact angle
Continental surface waters
desalination
Drinking water
Drinking water and swimming-pool water. Desalination
Exact sciences and technology
Fouling
Membrane separation (reverse osmosis, dialysis...)
Membranes
Morphology
nanoparticles
Natural water pollution
Permeability
Pollution
Polyethersulfone
Porosity
scanning electron microscopy
sodium
sodium alginate
surface water
Ultrafiltration
water treatment
Water treatment and pollution
Polyethersulfone
Ultrafiltration
Clay nanoparticles
Performance
Morphology
Correlation
Nanoparticle
Crossflow
Retention
Water permeability
Membrane separation
Additive
Pore size
Internal structure
Ultrapure water
High purity
Drinking water treatment
Scanning electron microscopy
Surface charge
Fouling
Cleaning
Contact angle
Charge density
Casting
Correlation analysis
Surface water
Porosity
Liquid permeability
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Abstract In this work, the effect of clay nanoparticles as a casting solution additive on the morphology and performance of polyethersulfone ultrafiltration membranes was evaluated. Ultrapure water permeability was used to initially survey membrane performance and the membranes cast with 1% clay+1% sodium hexametaphosphate (SHMP) and 2% clay had the highest permeabilities. The pure water permeability had no correlation to membrane thickness, porosity, contact angle, or negative surface charge density. Scanning electron microscopy (SEM) images of the membrane surface and cross-section were used to determine the membrane surface porosity, surface pore size, and internal structure, and all of these membrane features were affected by the clay addition and concentration. The increased permeability of the 2% clay membrane is attributed to its greater surface pore size and porosity. The 1% clay+1% SHMP, 2% clay, and control membrane were subject to further cross-flow permeability, retention, and fouling evaluations using ultrapure water, sodium alginate solution, and natural surface water. The membranes cast with clay additions had a greater potential for fouling as compared to the control. A simple detergent cleaning procedure indicated the membrane fouling was completely reversible. Membrane structure as a predictor for drinking water treatment performance is discussed. ► Clay casting solution dopants strongly affect membrane structure and performance. ► Membrane with 2% clay had continuous finger-like pores and best performance. ► Increasing clay % resulted in increased contact angle and decreased surface charge.
AbstractList In this work, the effect of clay nanoparticles as a casting solution additive on the morphology and performance of polyethersulfone ultrafiltration membranes was evaluated. Ultrapure water permeability was used to initially survey membrane performance and the membranes cast with 1% clay+1% sodium hexametaphosphate (SHMP) and 2% clay had the highest permeabilities. The pure water permeability had no correlation to membrane thickness, porosity, contact angle, or negative surface charge density. Scanning electron microscopy (SEM) images of the membrane surface and cross-section were used to determine the membrane surface porosity, surface pore size, and internal structure, and all of these membrane features were affected by the clay addition and concentration. The increased permeability of the 2% clay membrane is attributed to its greater surface pore size and porosity. The 1% clay+1% SHMP, 2% clay, and control membrane were subject to further cross-flow permeability, retention, and fouling evaluations using ultrapure water, sodium alginate solution, and natural surface water. The membranes cast with clay additions had a greater potential for fouling as compared to the control. A simple detergent cleaning procedure indicated the membrane fouling was completely reversible. Membrane structure as a predictor for drinking water treatment performance is discussed.
In this work, the effect of clay nanoparticles as a casting solution additive on the morphology and performance of polyethersulfone ultrafiltration membranes was evaluated. Ultrapure water permeability was used to initially survey membrane performance and the membranes cast with 1% clay+1% sodium hexametaphosphate (SHMP) and 2% clay had the highest permeabilities. The pure water permeability had no correlation to membrane thickness, porosity, contact angle, or negative surface charge density. Scanning electron microscopy (SEM) images of the membrane surface and cross-section were used to determine the membrane surface porosity, surface pore size, and internal structure, and all of these membrane features were affected by the clay addition and concentration. The increased permeability of the 2% clay membrane is attributed to its greater surface pore size and porosity. The 1% clay+1% SHMP, 2% clay, and control membrane were subject to further cross-flow permeability, retention, and fouling evaluations using ultrapure water, sodium alginate solution, and natural surface water. The membranes cast with clay additions had a greater potential for fouling as compared to the control. A simple detergent cleaning procedure indicated the membrane fouling was completely reversible. Membrane structure as a predictor for drinking water treatment performance is discussed. ► Clay casting solution dopants strongly affect membrane structure and performance. ► Membrane with 2% clay had continuous finger-like pores and best performance. ► Increasing clay % resulted in increased contact angle and decreased surface charge.
Author Vecitis, Chad D.
Verlage, Marianna
Carvalho, Julia
Arieta, Victor
Mierzwa, Jose Carlos
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Keywords Polyethersulfone
Ultrafiltration
Clay nanoparticles
Performance
Morphology
Correlation
Nanoparticle
Crossflow
Retention
Water permeability
Membrane separation
Additive
Pore size
Internal structure
Ultrapure water
High purity
Drinking water treatment
Scanning electron microscopy
Surface charge
Fouling
Cleaning
Contact angle
Charge density
Casting
Correlation analysis
Surface water
Porosity
Liquid permeability
Language English
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  year: 2003
  ident: 10.1016/j.desal.2013.01.011_bb0020
  article-title: A high flux ultrafiltration membrane spun from PSU/PVP (K90)/DMF/1,2-propanediol
  publication-title: J. Membr. Sci.
  doi: 10.1016/S0376-7388(02)00415-5
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Snippet In this work, the effect of clay nanoparticles as a casting solution additive on the morphology and performance of polyethersulfone ultrafiltration membranes...
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SubjectTerms Applied sciences
Chemical engineering
clay
Clay (material)
Clay nanoparticles
cleaning
contact angle
Continental surface waters
desalination
Drinking water
Drinking water and swimming-pool water. Desalination
Exact sciences and technology
Fouling
Membrane separation (reverse osmosis, dialysis...)
Membranes
Morphology
nanoparticles
Natural water pollution
Permeability
Pollution
Polyethersulfone
Porosity
scanning electron microscopy
sodium
sodium alginate
surface water
Ultrafiltration
water treatment
Water treatment and pollution
Title Effect of clay nanoparticles on the structure and performance of polyethersulfone ultrafiltration membranes
URI https://dx.doi.org/10.1016/j.desal.2013.01.011
https://www.proquest.com/docview/1323248718
https://www.proquest.com/docview/1663625578
Volume 314
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