Recovery of dissolved methane through a flat sheet module with PDMS, PP, and PVDF membranes

Recovery of dissolved methane through a flat sheet module with PDMS, PP, and PVDF membranes

[Display omitted] •Dissolved methane recovery was evaluated by a versatile flat sheet membrane module.•Similar performance achievable with PDMS, PP and reused PVDF.•Structural changes and cracks appeared on some membranes at high liquid flow rates.•Methane recovery increased after increasing PVDF hy...

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Published in:Separation and purification technology Vol. 282; p. 120057
Main Authors: Jiménez-Robles, R., Gabaldón, C., Badia, J.D., Izquierdo, M., Martínez-Soria, V.
Format: Journal Article
Language:English
Published: Elsevier B.V 01-02-2022
Subjects:
Flat sheet membrane module
Mass transfer
Membrane stability
Methane recovery
Polymeric membrane
Polymeric membrane
Membrane stability
Flat sheet membrane module
Methane recovery
Mass transfer
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Abstract [Display omitted] •Dissolved methane recovery was evaluated by a versatile flat sheet membrane module.•Similar performance achievable with PDMS, PP and reused PVDF.•Structural changes and cracks appeared on some membranes at high liquid flow rates.•Methane recovery increased after increasing PVDF hydrophobicity.•Selected model for methane mass transfer predicts the experimental results. A degassing contactor using a flat sheet membrane module (FM) was operated in sweep gas mode to study the performance of several commercial polymer membranes, both dense (polydimethylsiloxane, PDMS) and microporous (polypropylene, PP, and polyvinylidenefluoride, PVDF), for the recovery of dissolved methane from water. Non-steady state experiments were conducted at different liquid (QL, 3.5–40.5 L h−1) and gas flow rates (QN2, 0.05–15.00 L h−1). In the case of PDMS, PP, and when PVDF was operated at moderate high QL (≥21 L h−1), similar methane removal efficiencies (RE) were obtained. In the case of PVDF operated at relatively low QL (3.5 L h−1), a lower RE was observed. A model for the mass transfer of methane has been selected that is adequate in predicting the experimental results. These results concluded that the mass transfer resistance was mainly located in the liquid phase. Microscopy and especially contact angle measurements were used to monitor the structural and surface stability on the membranes. The membranes were altered during the operation, especially for QL ≥ 21 L h−1, showing a decrease (PDMS and PP) or an increase (PVDF) in hydrophobicity and even cleavages (PDMS). The combination of the FM and contact angle technique has demonstrated to be very versatile and useful for monitoring the variation of the membrane properties during operation.
AbstractList [Display omitted] •Dissolved methane recovery was evaluated by a versatile flat sheet membrane module.•Similar performance achievable with PDMS, PP and reused PVDF.•Structural changes and cracks appeared on some membranes at high liquid flow rates.•Methane recovery increased after increasing PVDF hydrophobicity.•Selected model for methane mass transfer predicts the experimental results. A degassing contactor using a flat sheet membrane module (FM) was operated in sweep gas mode to study the performance of several commercial polymer membranes, both dense (polydimethylsiloxane, PDMS) and microporous (polypropylene, PP, and polyvinylidenefluoride, PVDF), for the recovery of dissolved methane from water. Non-steady state experiments were conducted at different liquid (QL, 3.5–40.5 L h−1) and gas flow rates (QN2, 0.05–15.00 L h−1). In the case of PDMS, PP, and when PVDF was operated at moderate high QL (≥21 L h−1), similar methane removal efficiencies (RE) were obtained. In the case of PVDF operated at relatively low QL (3.5 L h−1), a lower RE was observed. A model for the mass transfer of methane has been selected that is adequate in predicting the experimental results. These results concluded that the mass transfer resistance was mainly located in the liquid phase. Microscopy and especially contact angle measurements were used to monitor the structural and surface stability on the membranes. The membranes were altered during the operation, especially for QL ≥ 21 L h−1, showing a decrease (PDMS and PP) or an increase (PVDF) in hydrophobicity and even cleavages (PDMS). The combination of the FM and contact angle technique has demonstrated to be very versatile and useful for monitoring the variation of the membrane properties during operation.
ArticleNumber 120057
Author Jiménez-Robles, R.
Badia, J.D.
Gabaldón, C.
Izquierdo, M.
Martínez-Soria, V.
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  surname: Badia
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  givenname: M.
  surname: Izquierdo
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  surname: Martínez-Soria
  fullname: Martínez-Soria, V.
  email: vmsoria@uv.es
  organization: Research Group in Environmental Engineering (GI2AM), Department of Chemical Engineering, School of Engineering, University of Valencia, Avda. Universitat s/n, 46100 Burjassot, Spain
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Membrane stability
Flat sheet membrane module
Methane recovery
Mass transfer
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Snippet [Display omitted] •Dissolved methane recovery was evaluated by a versatile flat sheet membrane module.•Similar performance achievable with PDMS, PP and reused...
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StartPage 120057
SubjectTerms Flat sheet membrane module
Mass transfer
Membrane stability
Methane recovery
Polymeric membrane
Title Recovery of dissolved methane through a flat sheet module with PDMS, PP, and PVDF membranes
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