Journal
JOURNAL OF MEMBRANE SCIENCE
Volume 568, Issue -, Pages 97-104Publisher
ELSEVIER SCIENCE BV
DOI: 10.1016/j.memsci.2018.09.064
Keywords
Membrane filtration; Microwave irradiation; MW-Fenton-like reaction; Nanobubbles; Antifouling membrane
Categories
Funding
- US National Science Foundation [CBET-1603609]
- NJIT Faculty Seed Grant (FSG)
- Undergraduate Research and Innovation (URI) Seed Grant
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Sustaining high flux (permeability) and diversified pollutant rejection (selectivity) are two crucial benchmarks for membrane filtration processes. Here, we report a microwave-enhanced membrane filtration process that uses microwave (MW) irradiated and catalyst-coated ceramic membranes to achieve efficient removal of pollutants (Le., 1,4-dioxane) and significant mitigation of fouling. MW irradiation was selectively absorbed by catalysts and hydrogen peroxide to produce hotpots on membrane surface that promoted generation of radicals and nanobubbles. These active species enhanced pollutant degradation and further prevented membrane fouling. In contrast to ultrasound and ultraviolet radiations, MW could efficiently penetrate membrane housing materials and selectively dissipate energy to membrane-impregnated catalyst nanoparticles. Our study of MW-assisted membrane filtration processes may open new avenues toward next-generation antifouling and high-efficiency separation techniques.
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