A scoop net equipped with an underwater anti-oil-fouling filter for fast cleanup of low-sulfur fuel at low temperature

Authors
Seo, Yu JinHan, NaraKim, Hee JuChoi, Ji HeeKoo, Hye YoungYu, ChengzhongChoi, Won San
Issue Date
2022-12
Publisher
Elsevier BV
Citation
Journal of Environmental Chemical Engineering, v.10, no.6
Abstract
A scoop net equipped with an underwater anti-oil-fouling (AOF) filter was tested for the cleanup of low-sulfur fuel (LSF). An underwater AOF filter [fabric/oxidized carbon soot (O-CS)/polyvinyl alcohol-Konjac glu-commannan (PVA-KGM)] possessing a partially dissoluble surface was prepared by the stepwise coating of O-CS and PVA/KGM onto different fabrics. The effects of the molecular weight (MW) of PVA, thickness of the filter, and water temperature on the underwater AOF performance of the filter were investigated. Since the fabric (3 mm)/O-CS/L-PVA-KGM filter showed the highest water absorption capacity (6.23 g/g) and water content (96.4%) after 1 h, this filter showed the lowest amount of residual LSF (Abs: 0.004 at 275 nm) and the best long-term AOF stability after 30 cycles at 20 degrees C. This filter still showed excellent AOF performance (Abs: 0.008 at 275 nm) and high flux (66,793 L/m2h) at 4 degrees C due to high water absorption capacity/contents and large pores/ relatively long multichannels, respectively.
Keywords
SUPERHYDROPHILIC SURFACES; WATER; MEMBRANE; SEPARATION; ADHESION; DESIGN; COLLECTION; RESISTANCE; EFFICIENT; HYDROGEL; Low sulfur fuel; Oil; water separation; Superhydrophilicity; Underwater superoleophobicity
ISSN
2213-3437
URI
https://pubs.kist.re.kr/handle/201004/75903
DOI
10.1016/j.jece.2022.108826
Appears in Collections:
KIST Article > 2022
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