François Davaux scite author profile

François Davaux

4Publications

12Citation Statements Received

1Citation Statement Given

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Affiliations

Institut Français de la Vigne et du Vin, Orange (France)

Publications

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Phthalates: Potential sources and control measures

et al. 2019

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The issue of endocrine disruptors is a subject of debate in the agri-food sector and questioning for consumers through the media. Among these compounds, some of the family of phthalates, are used in the composition of some materials used in wineries. This makes it a worrying issue in terms of image and safety. The objective ok this work was to identify the sources of phthalates and the factors favoring their diffusion in wines to propose preventive and curative solutions to the wine makers. The modalities were therefore selected in different French wine regions to represent the diversity of oenological practices. This survey also led to examine more thoroughly the parameters involved in the situations that favored migration of the highest levels. Additional experiments were performed specifically on certain sources or contributing factors. The first identified sources include epoxy resin, fiberglass reinforced polyester as well as PVC materials (pipes …). Favorable factors include alcohol content, temperature, duration and contact area.

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Reducing pesticide level in wine by selective filtration

Lempereur

Louaisil²,

Davaux

2014

BIO Web of Conferences

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Abstract. Wine Pesticide residues, even when below grape regulatory limit, are a concern for consumers and have an impact on the export potential of wine in certain markets. A consortium of European SMEs (www.adfimax.com) has developed a product that reduces the level of mycotoxins and pesticides in wine while keeping all other wine parameter identical. The product is derived from renewable vegetable fiber. The production process includes both activation and micronisation. The usage recommendation is to substitute only the pre-coat, typically perlite, by the product at 1 or 1.5 kg·m −2 without changing the other layer (body feed) typically kieselguhr. This paper describes the results of numerous industrial trials that were performed in France, Luxemburg, Germany and Spain. The impact of the product on the wine oenological characteristics was evaluated for different wine (white, red and rosé) in different countries and for different grape variety (including Cabernet sauvignon, Merlot and Gamay). Results showed a reduction of the test wine pesticide level of 50% to 60% for all pesticides compared to the blank. Level of pesticide analyzed in the cake where extremely high at a level of a 1,000 times greater than the filtered wine showing the ability of the product to selectively capture the pesticides molecules.

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Augmentation des cinétiques de diffusion des composés de la pellicule des raisins rouge et blanc par des champs électriques pulsés

Davaux

Leroy²,

Royant³

et al. 2019

BIO Web Conf.

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In recent years, Pulsed Electric Field (PEF) technology has been developing in laboratories and is starting to be established in the industry, mainly in the agri-food sector. So far all experimentations on the use of PEF in the wine industry was carried out at the laboratory scale on some kilograms of grapes, or liters of wines. Since 2015, we are studying the interest of the use of PEF on grape polyphenols extraction on a semi-industrial scale of 2 tons per hour. The first tests were carried out by comparing the PEF technology to a control, and a conventional thermovinification with liquid phase vinification and traditional vinification with different fermentation times. The first results obtained are encouraging. Vinified in the liquid phase, the grapes treated with PEF give wines with a color intensity of 20 to 30% higher than the control and a higher TPI of 7 to 17%. In the liquid phase, the treatment of the harvest by PEF does not make it possible to obtain the extraction level of the thermovinification. After a short maceration of 3 days, the polyphenols extraction level is similar to the thermovinification, and greater after 14 days, and so is the color (respectively +12 and +16%). No change in IBMP content was observed. The wines resulting from treatment of the harvest by PEF do not have the aromatic profile of thermovinification wines. The PEF has a fruity character comparable to the control and accentuates the aromatic characteristics of the grape variety. The wine are often judged less aggressive and astringent by reinforcing the perception of sweetness and full bodied. A few tests in white grape harvest by PEF, shows a significant gain of the thiols and terpenols.

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Stabilisation microbiologique des vins par utilisation de champs électriques pulsés

Davaux

Leroy²,

Royant³

2019

BIO Web Conf.

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For more than ten years, pulsed electric field (PEF) technology has been the subject of a growing number of publications and patents. The technology previously reserved for laboratories is becoming more and more popular and is now a success in the food industry. Since 2015, with the help of the Occitania region, we have been studying the use of the PEF on the microbiological stability of wines on a semi-industrial scale from 5 to 12 hl/hour. This low thermal and energy consuming physical technology requires no inputs to ensure the destruction of microorganisms and microbial stabilization of wines. These tests are performed with a 7 kV/cm electric field generated between the 2 electrodes of the treatment chambers. The objective is to ensure the microbial stabilisation of wines not exceeding 50 ∘C and to cool the wine immediately after treatment without maintaining it at high temperature. The study of the effectiveness of PEF on yeast destruction is carried out during the mutage of sweet wines. The first results obtained show a very good efficiency of the yeast treatment with an instant cessation of alcoholic fermentation and a decrease in the yeast population ranging from − 3 to − 5 Log. No SO2 addition is then required. On wines contaminated by Brettanomyces, the tests show an almost total elimination (< 1/100 ml) of these yeasts by the PEF treatment. These tests also showed that a higher energy level is required to eliminate all lactic acid bacteria from wine. No effects on the physico-chemical characteristics of the wines were found. The impact on the organoleptic characteristics of wines is ongoing. An optimization of the electrical parameters is still necessary.

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