A critical review of methods for characterisation of polyphenolic compounds in fruits and vegetables.

http://www.ipb.pt/~htgomes/FCT115275/Ref23.pdf

Sub- and supercritical fluid extraction of functional ingredients from different natural sources: Plants, food-by-products, algae and microalgae: A review

Supercritical extraction and fractionation of natural matter is one of the early and most studied applications in the field of supercritical fluids In the last 10 years, studies on the extraction of classical compounds like essential and seed oils from various sources: seeds, fruits, leaves, flowers, rhizomes, etc, with or without the addition of a co-solvent have been published Supercritical extraction of antioxidants, pharmaceuticals, colouring matters, and pesticides has also been studied The separation of liquid mixtures and the antisolvent extraction are other processes that can perform very interesting separations Mathematical modelling has also been developed and refined for some of these processes The objective of this review is to critically analyze traditional and new directions in the research on natural matter separation by supercritical fluids extraction and fractionation

Supercritical fluid extraction and fractionation of natural matter

Comparison of extracts prepared from plant by-products using different solvents and extraction time

Supercritical fluid extraction in plant essential and volatile oil analysis.

Recovery of phenolic antioxidants from wine industry by-products.

The supercritical fluid extraction of oil from milled celery seeds, using CO2 as a solvent, is presented in this study. The effect of the process parameters — pressure and temperature of extraction, particle size of celery seeds and flow rate of CO2 — on the extraction rate was examined in a series of experiments. The results indicated a significant increase in extraction rate with increase of pressure or decrease of the particle size of celery seed. A similar effect was observed with the increase of the solvent flow rate and decrease of temperature. The experimental data were described by an empirical model and two mass balance models: (1) a simplified model, which takes into account only the time dependence of the extract concentration in the two phases and is coupled with various equilibrium relationships, and (2) an extended Lack's model. The correlation results were satisfactory especially for the mass balance models, which account for the double regime — solubility and diffusion controlled regimes — of the extraction.

Supercritical fluid extraction of celery seed oil

Parsley seed oil extraction with supercritical carbon dioxide at pressures of 10 and 15 MPa, temperatures of 308 and 318 K, flow rates of 0.7, 1.1 and 2 kg/h and mean particle sizes of 293 and 495 μm was investigated in a bench-scale apparatus. For the correlation of the experimental data, a mass balance model coupled with various assumptions—including those of the Lack’s plug flow model—was employed. Comparison of the results demonstrated that best fit is obtained when the model takes into account the equilibrium as well as the mass transfer phenomena, that control the extraction process.

V. Louli

Papers

Recovery of phenolic antioxidants from wine industry by-products.

Supercritical fluid extraction of celery seed oil

Extraction of parsley seed oil by supercritical CO2

Supercritical fluid extraction of black pepper oil

Vapor–liquid equilibrium in polymer–solvent systems with a cubic equation of state