Protein Recovery in Aqueous Extraction Processing of Soybeans Using Isoelectric Precipitation and Nanofiltration

Isoelectric precipitation and whey nanofiltration were evaluated in recovering protein from skim fractions produced by enzyme-assisted aqueous extraction processing (EAEP) of extruded full-fat soybean flakes. Countercurrent two-stage EAEP was performed at 1:6 solids-to-liquid ratio, 50 °C, pH 9.0, and 120 rpm for 1 h to extract oil and protein from soybeans. Two protein recovery strategies were applied to skim fractions produced by different extraction treatments: Treatment 1 using 0.5% protease (wt/g extruded flakes) in both extraction stages; Treatment 2 using 0.5% protease only in the 2nd extraction stage; and Treatment 3 using no enzyme in either extraction stage. Protein recovery by using isoelectric precipitation was inversely related to the extent of hydrolysis with recoveries of 27, 61, and 87% of skim proteins from Treatments 1, 2, and 3, respectively. Overall protein recoveries of 26, 54, and 57% of the original protein in the extruded full-fat flakes were achieved when combining extraction treatments and isoelectric precipitation. Nanofiltering isoelectric wheys (500-Da membrane) achieved protein retentate yields of 96.3, 94.5, and 91.8% (1.9–2.8 concentration factor) with permeate fluxes up to 1.35 kg/h m2. About 97, 98, and 99% of skim protein were recovered by isoelectric precipitation and whey nanofiltration for Treatments 1, 2, and 3, respectively. Overall protein recoveries of 93, 87, and 65% of the protein in the extruded flakes were achieved for Treatments 1, 2, and 3, respectively. Although high protein retentions were achieved, very low permeate fluxes were observed for whey nanofiltration.