The microalga Nannochloropsis sp. was used in this study, in a biorefinery context, as biomass feedstock for the production of fatty acids for biodiesel, biohydrogen and high added-value compounds. The microalgal biomass, which has a high lipid and pigment content (mainly carotenoids), was submitted to supercritical CO2 extraction. The temperature, pressure and solvent flow-rate were evaluated to check their effect on the extraction yield. The best operational conditions to extract 33 g lipids/100 g dry biomass were found to be at 40 °C, 300 bar and a CO2 flow-rate of 0.62 g/min. The effect of adding a co-solvent (ethanol) was also studied. When supercritical CO2 doped with 20% (w/w) ethanol was used, it was possible to extract 45 g lipids/100 g dry biomass of lipids and recover 70% of the pigments. Furthermore, the remaining biomass after extraction was effectively used as feedstock to produce biohydrogen through dark fermentation by Enterobacter aerogenes resulting in a hydrogen production yield of 60.6 mL/g dry biomass.
Tomato skins and their mixtures with seeds were submitted to supercritical CO 2 extraction using a flow apparatus at pressures of 250 and 300 bar and temperatures of 60 and 80°C. Two different mean particle sizes (80 and 345 µm) were used at two solvent flow rates (0.792 and 1.35 kg/h). The yields of lipids, lycopene, and -carotene obtained by supercritical fluid extraction were compared with those obtained by conventional organic solvent extraction. Supercritical fluid extraction from tomato skins at 300 bar and 80°C allowed the recovery of 80% of the lycopene and 88% of the -carotene, using about 130 g of CO 2 per gram of matrix at the lower flow rate of CO 2 .
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