| Abstract: | A number of aqueous extraction processes (AEP) have been studied as substitutes for hexane in oilseed extraction. In our previous batch-scale work, we have shown that the aqueous surfactant-based method could effectively extract up to 95% peanut and canola oils at 25°C. The goal of this work is to perform a semi-continuous pilot-scale study of the aqueous surfactant-based method for peanut and canola oil extraction. Two extraction strategies were evaluated including (1 N- Hexane Substance Technical Guidelines (accessed in May 2008). <http://ehs.ucsc.edu/lab_research_safety/pubs/facts/Hexane.pdf> [Google Scholar]) a single extraction stage by aqueous surfactant solution and (2 Juliano , B.O. ( 1985 ) Rice: Chemistry and Technology, . , 2nd Edn ; The American Association of Cereal Chemists , Minnesota . pp. 647 – 687 . [Google Scholar]) two extraction stages, consisting of one aqueous surfactant wash and one de-ionized water wash. At optimum conditions, 90.6% and 88.1% oil extraction efficiencies of peanut and canola oil, respectively, were achieved in a single-stage extraction, while 94.5% and 92.6% were achieved in the two-stage extraction. At the highest solid/liquid centrifuge speed, the moisture level in the extracted meal was 48%. At the optimum liquid/liquid centrifuge condition, more than 90% of the oil was recovered as free oil from the extracted-oil and surfactant-wash mixture and 39–44% of the oil was recovered from the extracted oil and DI wash mixture. Total free oil recovered after the two-stage extraction was 87.1% and 85.6% for peanut and canola, respectively. |
