Abstract

Four tailor-made flat composite membranes of poly(vinylideneflouride) (PVDF) as a support and polydimethylsiloxane (PDMS) or cellulose acetate (CA) as coating layer, and a commercially available composite membrane (Solsep 030306) were used to remove hexane and free fatty acid (FFA) from crude soybean oil–hexane mixture. The effects of transmembrane pressure (Δp=10–20bar), temperature (T=30–50°C) and feed oil concentration (Cf=10–35 w/w%) on membrane selectivity and permeation flux were determined. The PVDF-12% siloxane composite nanofiltration membrane achieved the best results, being stable in commercial hexane and having promising permselectivity properties to separate soybean oil/hexane miscella. Improved separation performance was obtained at Cf=25%, Δp=20bar, and T=30°C, achieving a permeate flux of 20.3Lm−2h−1, 80% oil retention, 58% FFA removal.

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