Journal
INDUSTRIAL CROPS AND PRODUCTS
Volume 194, Issue -, Pages -Publisher
ELSEVIER
DOI: 10.1016/j.indcrop.2023.116303
Keywords
Cellulose-based aerogel; Soft-ice freezing; Microwave freezing-drying; Wetting behavior; Oil/water separation
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In this study, a nanofibrillated cellulose/chitosan composite aerogel with underwater superoleophobicity was successfully prepared by freeze-drying. The mechanical performance and mass transfer of freeze-drying were improved by employing the soft-ice freezing technique and dielectric-aided microwave heating. The prepared aerogel exhibited excellent mechanical properties, underwater superoleophobicity, and high separation efficiencies and permeate fluxes for oil/water and oil/seawater separations.
Nanofibrillated cellulose (NFC)/chitosan (CS) composite aerogel with underwater superoleophobicity was prepared by freeze-drying for oil/water separation. The soft-ice freezing technique was employed to construct cellular pores for improving the mechanical performance while enhancing mass transfer of freeze-drying. The dielectric-aided microwave heating was adopted to enhance heat transfer of freeze-drying. The results showed that the prepared NFC/CS aerogel exhibited an excellent mechanical property with a stress of 87.16 kPa at 80% strain, and underwater superoleophobicity with all oil contact angles above 150 degrees. The proposed drying method could save over 40% of drying time, achieving a simultaneous mass and heat transfer enhancement of freeze-drying. The prepared aerogel provided separation efficiencies of all above 99.96% and average permeate fluxes of 0.817 and 0.826 L center dot m(-2)center dot s(-1) after 20 cycles for oil/water and oil/seawater separations. The research results are expected to provide an economical and sustainable solution for the industrial oily wastewater treatment.
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