Revealing the selective separation of organics from salty solution in novel aqueous-aqueous membrane extraction co-driven by concentration and pressure difference

[Display omitted] •Novel concentration-pressure co-driven AAME for solute separation was elucidated.•The ΔP can promote the organics transmembrane mass transfer in AAME.•Volatilization-diffusion occurred for volatile compound in porous membrane.•Increases in r and ΔP would increase organics permeati...

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Published inSeparation and purification technology Vol. 323; p. 124419
Main Authors Xu, Yubo, Ren, Long-Fei, Sun, Haoyu, Shao, Jiahui, He, Yiliang
Format Journal Article
LanguageEnglish
Published Elsevier B.V 15.10.2023
Subjects
Aqueous-aqueous membrane extraction
Membrane wetting
Selective separation
Transmembrane hydraulic pressure difference
Transmembrane mass transfer
Membrane wetting
Selective separation
Transmembrane hydraulic pressure difference
Transmembrane mass transfer
Aqueous-aqueous membrane extraction
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Abstract [Display omitted] •Novel concentration-pressure co-driven AAME for solute separation was elucidated.•The ΔP can promote the organics transmembrane mass transfer in AAME.•Volatilization-diffusion occurred for volatile compound in porous membrane.•Increases in r and ΔP would increase organics permeation and membrane wetting risk.•The permeation of SDS was only observed after membrane wetting with NaCl invasion. Aqueous-aqueous membrane extraction (AAME) has great potential to revolutionize industrial wastewater treatment, achieving the value-added organic product recovery with low operation cost. Here, we first reported the feasibility, performance and mechanism of selective separation of three typical organics (phenol, ethanol and sodium dodecyl sulfate (SDS)) from salty solution not only in common concentration-difference driven but also in novel concentration-pressure-difference co-driven AAME using porous polyvinylidene fluoride (PVDF), non-porous polydimethylsiloxane (PDMS) and composite PVDF/PDMS membranes. In concentration-difference driven AAME, phenol and ethanol were separated from NaCl solution through three membranes, while SDS permeation only occurred on wetted porous PVDF membrane. Note that, volatile phenol and ethanol transported across the porous PVDF and composite PVDF/PDMS via volatilization-diffusion and solution-diffusion. In concentration-pressure-difference co-driven AAME, highest phenol (10.7) and ethanol fluxes (34.7 g m2 h−1) were obtained through composite PVDF/PDMS membrane (ΔP = 3 kPa) and PVDF membrane (ΔP = 9 kPa), respectively, with complete NaCl rejection. These data showed suitable membrane and high ΔP were beneficial to promote organics transmembrane transport. However, overload ΔP increased the membrane wetting risk on porous membranes. Once membrane was wetted, organics transmembrane mass transfer was simplified to direct pore-flow filtration. These findings provide a crucial step toward understanding the potential of AAME in resource recovery from industrial wastewater.
AbstractList [Display omitted] •Novel concentration-pressure co-driven AAME for solute separation was elucidated.•The ΔP can promote the organics transmembrane mass transfer in AAME.•Volatilization-diffusion occurred for volatile compound in porous membrane.•Increases in r and ΔP would increase organics permeation and membrane wetting risk.•The permeation of SDS was only observed after membrane wetting with NaCl invasion. Aqueous-aqueous membrane extraction (AAME) has great potential to revolutionize industrial wastewater treatment, achieving the value-added organic product recovery with low operation cost. Here, we first reported the feasibility, performance and mechanism of selective separation of three typical organics (phenol, ethanol and sodium dodecyl sulfate (SDS)) from salty solution not only in common concentration-difference driven but also in novel concentration-pressure-difference co-driven AAME using porous polyvinylidene fluoride (PVDF), non-porous polydimethylsiloxane (PDMS) and composite PVDF/PDMS membranes. In concentration-difference driven AAME, phenol and ethanol were separated from NaCl solution through three membranes, while SDS permeation only occurred on wetted porous PVDF membrane. Note that, volatile phenol and ethanol transported across the porous PVDF and composite PVDF/PDMS via volatilization-diffusion and solution-diffusion. In concentration-pressure-difference co-driven AAME, highest phenol (10.7) and ethanol fluxes (34.7 g m2 h−1) were obtained through composite PVDF/PDMS membrane (ΔP = 3 kPa) and PVDF membrane (ΔP = 9 kPa), respectively, with complete NaCl rejection. These data showed suitable membrane and high ΔP were beneficial to promote organics transmembrane transport. However, overload ΔP increased the membrane wetting risk on porous membranes. Once membrane was wetted, organics transmembrane mass transfer was simplified to direct pore-flow filtration. These findings provide a crucial step toward understanding the potential of AAME in resource recovery from industrial wastewater.
ArticleNumber 124419
Author Xu, Yubo
Shao, Jiahui
He, Yiliang
Ren, Long-Fei
Sun, Haoyu
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Selective separation
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Aqueous-aqueous membrane extraction
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Snippet [Display omitted] •Novel concentration-pressure co-driven AAME for solute separation was elucidated.•The ΔP can promote the organics transmembrane mass...
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SubjectTerms Aqueous-aqueous membrane extraction
Membrane wetting
Selective separation
Transmembrane hydraulic pressure difference
Transmembrane mass transfer
Title Revealing the selective separation of organics from salty solution in novel aqueous-aqueous membrane extraction co-driven by concentration and pressure difference
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