Macrowine 2021
IVES 9 IVES Conference Series 9 Towards multi-purpose valorisation of polyphenols from grape pomace: Pressurized liquid extraction coupled to purification by membrane processes

Towards multi-purpose valorisation of polyphenols from grape pomace: Pressurized liquid extraction coupled to purification by membrane processes

Abstract

Grape by-products (including skins, seeds, stems and vine shoots) are rich in health promoting polyphenols. Their extraction from winery waste and their following purification are of special interest to produce extracts with high added value compounds. Meanwhile, the growing concern over environmental problems associated with economic constraints, require the development of environmentally sustainable extraction technologies. The extraction using semi-continuous subcritical water, as a natural solvent at high temperature and high pressure a technology is promising “green” technology that is environmentally friendly, energy efficient and improve the extraction process in plant tissues. The suitable feature of subcritical water leaching agent is its capacity to decrease dielectric constant as a function of increase in temperature, allowing a better solubility of the compounds of interest. In our study subcritical water extraction of polyphenols from red and white grape pomace from Dunkelfelder, Cabernet Franc, Merlot, and Chardonnay was performed. In semi-continuous extraction lead to crude extracts rich in different families of polyphenols. A purification step prior to industrial usage is essential. Coupling subcritical water extraction with membrane processes, due to large array of flexibility, offers a solution for the purification and fractioning of the crude extracts. The combined effects of extraction temperature (from 60 to 200 °C), pressure (from 25 to 100 bar), flow rate (1 to 10 ml/min), sample mass (5, 70) were investigated and compared to traditional solvent extraction (1/1 ethanol/water). Optimal extraction conditions were found to be 150 C and 6ml/min irrelevant of the pressure used. These conditions produced crude extracts containing 130 mg/100g DW of anthocyanins (+61% compared to traditional methods of extraction) and 2077mg/100g DW procyanidins (+23%). Subsequently to realize the purification of the crude extract, several organic membranes having differential molecular weight cut off 0.45 μm up to 200 Da were tested. The results allow evaluating both the permeate flux through the membranes and the rejection rates of the major compounds found in the crude extract. The tested membranes have differential selectivity for polysacharrides, proteins, and different families phenolic compounds (pentamers, trimers, anthocyanin, and phenolic acids) with high purity (95%). Confirming the applicability of membrane separation for the fractionation and purification of pomace extracts. More research is needed to validate the industrial up scaling and the intended application of the produced extracts.

Publication date: May 17, 2024

Issue: Macrowine 2016

Type: Poster

Authors

Sami Yammine*, Martine Mietton-Peuchot, Remy Ghidossi, Robin Rabagliato, Xavier Vitrac

*University of Bordeaux

Contact the author

Tags

IVES Conference Series | Macrowine | Macrowine 2016

Citation

Related articles…

Characterization of various groups of pyranoanthocyanins in Merlot red wine

In red wines, anthocyanins evolve during the wine-making process and ageing. They react with other compounds (such as vinylphenols, acetaldehyde, pyruvic acid…) to form a stable family of compounds called pyranoanthocyanins. Furthermore, the oxidation process can modify the anthocyanic profile of a red wine. It is also interesting to evaluate the occurrence of the different subclasses of pyranoanthocyanins and to characterize their chemical properties. The first objective of this study is to evaluate the occurrence of the different groups of pyranoanthocyanins in an oxidised Merlot wine by a centrifugal partition chromatography strategy. The second goal is to evaluate their relative impact in red wines from Bordeaux region by measuring their concentrations.

Effect of ageing with Specific Inactivated Dry Yeasts on the volatile composition of Sauvignon Blanc and Carménère wines

Úbeda-Aguilera, C a, b, Peña-Neira, A.b Del Barrio-Galán, R.b, c a Biomedical Sciences Institute, Science Faculty, Universidad Autónoma de Chile, Chile. b Department of Agro-Industry and Enology, Faculty of Agronomical Sciences, University of Chile, Post Office Box 1004, Santa Rosa 11315, La Pintana, Santiago, Chile c Lallemand Inc. Chile y Compañía Limitada, Rosario Norte 407, piso 6, Las Condes, Santiago, Chile The wine is a complex matrix made up of several compounds which can interact among themselves throughout the wine ageing process, thereby modifying their sensorial characteristics. It is well known that during ageing of wines on lees, polysaccharides (mainly mannoproteins) can be released and can interact with the aromatic fraction modifying its volatility.

The impact of branched chain and aromatic amino acids on fermentation kinetics and aroma biosynthesis by wine yeast Saccharomyces cerevisiae

One of the major determinants of wine quality is the aroma. Wine aroma is the human perception of the matrix of grape and yeast derived volatiles and their interaction that contribute to flavour wine. Most common are higher alcohols, ester and aldehydes. In previous studies the formation of characteristic volatile compounds have been linked to the metabolism of branched-chain and aromatic amino acids
(BCAAs) in synthetic grape must. Here we report on an investigation to assess the impact of the initial amino acid concentration on the production of aroma compounds by the industrial yeast VIN13 grown in both synthetic and real grape musts.

Development and validation of a standardized oxidation assay for the accurate measurement of the ability of different wines to form “de novo” oxidation-related aldehydes

From the standpoint of wine aroma oxidation there are two effects observed: aroma degradation of oxygen sensitive compounds (polyfunctional mercaptans) and the appearance of new substances with high aromatic power (acetaldehyde, methional, phenylacetaldehyde, sotolon, alkenals, isobutanal and 2, 3-metylbutanals) (1-5). According to our experience, Strecker aldehydes are compounds with highest sensory relevance in the oxidative degradation of many wines (5-7).

Analysis of the oenological potentials of different oak forests in Hungary

Like France, Hungary has many oak forests used for making barrels since many years. But if the differences between the woods of the North, the East and the South-West forests of France are well known, this is probably not the case of Hungarian forests. However taking into account the essential differences of climates and soils, differences must be significant and the general name “Hungarian oak” must not have any real meaning. We have studied precisely (determination of concentrations of volatile and non-volatile wood compounds, anatomical criteria, measurement of antioxidant capacity) of oaks collected from northeastern Hungary and others collected from the Danube valley in the northwest of the country.