Contact
    Start Publications Design and evaluation of electrospun polysulfone fibers and ...
    ←  Publication Finder
    Attension

    Design and evaluation of electrospun polysulfone fibers and polysulfone/NiFe204 nanostructured composite as sorbents for oil spill cleanup

    Year: 2017

    Journal: J. Taiwan Inst. Chem. Eng., Volume 70, JAN, page 267–281

    Authors: Cojocaru, Corneliu; Dorneanu, Petronela Pascariu; Airinei, Anton; Olaru, Niculae; Samoila, Petrisor; Rotaru, Aurelian

    Organizations: Romanian National Authority for Scientific Research and Innovation, CNCS - UEFISCDI [PN-II-RU-TE-2014-4-1266]

    Keywords: Oil spill sorbent; Electrospinning Polysulfone ultrathin fibers; Nanostructured composite; Magnetic adsorbent; Design of experiments

    This paper is concerned with the design of the electrospinning process to produce efficient polysulfone fibrous sorbents for oil spill cleanup. To this end, a full factorial experimental design was adopted, and consequently two multiple regression models were developed to predict oil sorption capacities of resulting materials. The optimal electrospinning conditions determined by model-based simulation and desirability function approach were as follows: 25 kV (applied voltage), 15 cm (tip-to-collector distance) and 0.75 mL/h (polymer solution flow-rate). The polysulfone fibrous sorbent produced under the optimal conditions was highly porous (93.89%) and yielded the greatest performances for sorption of dodecane (26.60 g/g) and motor oil (39.06 gig). The advanced recovery of oily liquids from spent sorbents was achieved by centrifugation (66-71%). In addition, a new polysulfone/NiFe2O4 nanostructured fibrous composite was produced by the electrospinning technique. The sorption performances of the composite were 9.20 gig and 15.11 g/g for the uptake of dodecane and motor oil, respectively. The advantage of the electrospun composite relied in a facile magnetic separation of the spent sorbent from oil/water system. Sorbent materials were characterized by scanning electron microscopy (SEM), water contact angle measurements, infrared spectra and magnetic measurements. (C) 2016 Taiwan Institute of Chemical Engineers. Published by Elsevier B.V. All rights reserved.
    View publication