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Supercritical CO(2) Extraction of High-Added Value Compounds from Chlorella vulgaris: Experimental Design, Modelling and Optimization

Microalgae are well-known for their high-added value compounds and their recovery is currently of great interest. The aim of this work is the recovery of such components from Chlorella vulgaris through supercritical fluid extraction (SFE) with CO(2). The effect of the extraction temperature (40–60 °...

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Autores principales: Georgiopoulou, Ioulia, Tzima, Soultana, Louli, Vasiliki, Magoulas, Kostis
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2022
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9505159/
https://www.ncbi.nlm.nih.gov/pubmed/36144617
http://dx.doi.org/10.3390/molecules27185884
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author Georgiopoulou, Ioulia
Tzima, Soultana
Louli, Vasiliki
Magoulas, Kostis
author_facet Georgiopoulou, Ioulia
Tzima, Soultana
Louli, Vasiliki
Magoulas, Kostis
author_sort Georgiopoulou, Ioulia
collection PubMed
description Microalgae are well-known for their high-added value compounds and their recovery is currently of great interest. The aim of this work is the recovery of such components from Chlorella vulgaris through supercritical fluid extraction (SFE) with CO(2). The effect of the extraction temperature (40–60 °C), pressure (110–250 bar), and solvent flow rate (20–40 g/min) was tested on yield, the extract’s antioxidant activity, and the phenolic, chlorophyll and carotenoid content. Thus, data analysis indicated that the yield was mainly affected by temperature, carotenoids by pressure, while the extract’s phenolics and antioxidant activity were affected by the synergy of temperature and pressure. Moreover, SFE’s kinetic study was performed and experimental data were correlated using Sovová’s mass transfer-based model. SFE optimization (60 °C, 250 bar, 40 g/min) led to 3.37% w/w yield, 44.35 mg(extr)/mg(DPPH) antioxidant activity (IC50), 18.29 mg(GA)/g(extr) total phenolic content, 35.55, 21.14 and 10.00 mg/g(extr) total chlorophyll, carotenoid and selected carotenoid content (astaxanthin, lutein and β-carotene), respectively. A comparison of SFE with conventional aq. ethanol (90% v/v) extraction proved SFE’s superiority regarding extraction duration, carotenoids, antioxidant activity and organoleptic characteristics of color and odor despite the lower yield. Finally, cosolvent addition (ethanol 10% w/w) at optimum SFE conditions improved the extract’s antioxidant activity (19.46%) as well as yield (101.81%).
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spelling pubmed-95051592022-09-24 Supercritical CO(2) Extraction of High-Added Value Compounds from Chlorella vulgaris: Experimental Design, Modelling and Optimization Georgiopoulou, Ioulia Tzima, Soultana Louli, Vasiliki Magoulas, Kostis Molecules Article Microalgae are well-known for their high-added value compounds and their recovery is currently of great interest. The aim of this work is the recovery of such components from Chlorella vulgaris through supercritical fluid extraction (SFE) with CO(2). The effect of the extraction temperature (40–60 °C), pressure (110–250 bar), and solvent flow rate (20–40 g/min) was tested on yield, the extract’s antioxidant activity, and the phenolic, chlorophyll and carotenoid content. Thus, data analysis indicated that the yield was mainly affected by temperature, carotenoids by pressure, while the extract’s phenolics and antioxidant activity were affected by the synergy of temperature and pressure. Moreover, SFE’s kinetic study was performed and experimental data were correlated using Sovová’s mass transfer-based model. SFE optimization (60 °C, 250 bar, 40 g/min) led to 3.37% w/w yield, 44.35 mg(extr)/mg(DPPH) antioxidant activity (IC50), 18.29 mg(GA)/g(extr) total phenolic content, 35.55, 21.14 and 10.00 mg/g(extr) total chlorophyll, carotenoid and selected carotenoid content (astaxanthin, lutein and β-carotene), respectively. A comparison of SFE with conventional aq. ethanol (90% v/v) extraction proved SFE’s superiority regarding extraction duration, carotenoids, antioxidant activity and organoleptic characteristics of color and odor despite the lower yield. Finally, cosolvent addition (ethanol 10% w/w) at optimum SFE conditions improved the extract’s antioxidant activity (19.46%) as well as yield (101.81%). MDPI 2022-09-10 /pmc/articles/PMC9505159/ /pubmed/36144617 http://dx.doi.org/10.3390/molecules27185884 Text en © 2022 by the authors. https://creativecommons.org/licenses/by/4.0/Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Georgiopoulou, Ioulia
Tzima, Soultana
Louli, Vasiliki
Magoulas, Kostis
Supercritical CO(2) Extraction of High-Added Value Compounds from Chlorella vulgaris: Experimental Design, Modelling and Optimization
title Supercritical CO(2) Extraction of High-Added Value Compounds from Chlorella vulgaris: Experimental Design, Modelling and Optimization
title_full Supercritical CO(2) Extraction of High-Added Value Compounds from Chlorella vulgaris: Experimental Design, Modelling and Optimization
title_fullStr Supercritical CO(2) Extraction of High-Added Value Compounds from Chlorella vulgaris: Experimental Design, Modelling and Optimization
title_full_unstemmed Supercritical CO(2) Extraction of High-Added Value Compounds from Chlorella vulgaris: Experimental Design, Modelling and Optimization
title_short Supercritical CO(2) Extraction of High-Added Value Compounds from Chlorella vulgaris: Experimental Design, Modelling and Optimization
title_sort supercritical co(2) extraction of high-added value compounds from chlorella vulgaris: experimental design, modelling and optimization
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9505159/
https://www.ncbi.nlm.nih.gov/pubmed/36144617
http://dx.doi.org/10.3390/molecules27185884
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