Luiz Alberto Vieira Sarmento scite author profile

-Although it is still used very little by industry, the process of essential oil extraction from vegetable matrices with supercritical CO 2 is regarded as a potentially viable technique. The operation of separating the extract from the solvent is carried out by reducing the pressure in the system. Separation by membranes is an alternative that offers lower energy consumption and easier operation than traditional methods of separation. Combining the processes essential oil extraction with supercritical CO 2 and separation by membranes permits the separation of solvent and oil without the need for large variations in extraction conditions. This results in a large energy savings in the case of solvent repressurisation and reuse. In this study, the effectiveness of reverse osmosis membranes in separating lemongrass essential oil from mixtures with supercritical CO 2 was tested. The effects of feed oil concentration and transmembrane pressure on CO 2 permeate flux and oil retention were studied for three membrane models.

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Luiz Alberto Vieira Sarmento

Extraction of polyphenols from cocoa seeds and concentration through polymeric membranes

Purification of structured lipids using SCCO2 and membrane process

Performance of reverse osmosis membranes in the separation of supercritical CO2 and essential oils

Performance of reverse osmosis membranes in the separation of supercritical CO2 and essential oils

Use of reverse osmosis membranes for the separation of lemongrass essential oil and supercritical CO2

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