Robust and fouling-resistant ultrathin membranes for water purification tailored via semi-dissolved electrospun nanofibers
- Authors
- Yanar, Numan; Liang, Yejin; Yang, Eunmok; Kim, Minbeom; Kim, Hyeonseo; Byun, Jaehyun; Son, Moon; Choi, Heechul
- Issue Date
- 2023-09
- Publisher
- Elsevier BV
- Citation
- Journal of Cleaner Production, v.418
- Abstract
- Energy-efficient membranes with high mechanical strength and fouling resistance is highly required in the current membrane industry. In this research, a novel type of water purification membrane was fabricated using a nylon 6 nanofiber membrane as a base polymer and further mechanical processing. The electrospun nylon 6 membrane was first semi-dissolved by spraying diluted formic acid solvent, then re-casted by thermal rolling, and a very-tight ultrafiltration membrane named SP6 was obtained. Fabricated SP6 had an ultrathin thickness of 9 & mu;m and ultimately high mechanical strength (53 MPa). Owing to the enhanced hydrophilicity and ultra-low thickness, a 59 & PLUSMN; 7 LMH water flux was observed for SP6. Furthermore, SP6 showed 98 & PLUSMN; 0.85% humic acid (H.A) and 92.13 & PLUSMN; 0.46% organic dye rejection. When an organic fouling study was conducted (8 h H.A. fouling tests with 30 min DI water filtration/flushing in between), SP6 had only a 20% drop, which also recovered up to 90% after 30 min of DI water filtration. After the fouling test was completed, significantly less foulant (2817 & PLUSMN; 1503 & mu;m3) was observed on the surface of SP6 (on the 500*500 & mu;m2 surface area), in line with the trend for the flux recovery. Therefore, this novel approach utilizing semi-dissolved nanofibers as fabrication material could represent a path for fabricating membranes with great longevity for practical applications.
- Keywords
- HYBRID ULTRAFILTRATION MEMBRANES; HUMIC-ACID REMOVAL; WASTE-WATER; FABRICATION; PERFORMANCE; POLYSULFONE; SEPARATION; BEHAVIOR; Nylon 6; Nanofiber membranes; Electrospinning; Humic acid; Organic fouling; Semi-dissolved nanofibers
- ISSN
- 0959-6526
- URI
- https://pubs.kist.re.kr/handle/201004/113317
- DOI
- 10.1016/j.jclepro.2023.138056
- Appears in Collections:
- KIST Article > 2023
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