info:eu-repo/semantics/article
Supercritical CO2 fractionation of rosemary ethanolic oleoresins as a method to improve carnosic acid recovery
Fecha
2011-04Registro en:
Visentin, Alexis Nahuel; Cismondi Duarte, Martín; Maestri, Damian; Supercritical CO2 fractionation of rosemary ethanolic oleoresins as a method to improve carnosic acid recovery; Elsevier; Innovative Food Science & Emerging Technologies; 12; 2; 4-2011; 142-145
1466-8564
CONICET Digital
CONICET
Autor
Visentin, Alexis Nahuel
Cismondi Duarte, Martín
Maestri, Damian
Resumen
Supercritical fluid antisolvent fractionation was used to obtain antioxidant compounds, mainly carnosic acid (CA), from high viscous oleoresins derived from dried rosemary leaves (Rosmarinus officinalis) extracted with ethanol. Due to the high viscosity of the starting material, which may hinder the mass transfer between the phases, a special nozzle was designed to blend the SCCO2 stream with the high viscous oleoresin. Experiments were conducted at 50 °C and six different pressures in the first separation vessel, ranging from 150 to 400 bar; the best separation was achieved at 300 bar. As a result of the oleoresin two-stage fractionation, the starting material was separated in two fractions. The first one was an insoluble dark green powder, with low concentration of CA (< 5 g/100 g extract). The other fraction was an orange colored resinous extract, very soluble in SCCO 2, with a high concentration of CA (33 g/100 g extract at 300 bar). The antioxidant effect of this extract was higher to that of BHT when added to soybean oil. Industrial relevance: The present study adds a possibility for the purification of carnosic acid from rosemary by using SCCO2 antisolvent fractionation. Since the starting material employed (oleoresin) is a fluid phase, the process might be carried out in a continuous or semi-continuous way instead of discontinuous as it should be done if the starting material were a solid (leaves). This feature makes the procedure very promising toward its application at the industrial scale.