The system comprises one or more transportable bioreactors configured with the ability to conduct aerobic fermentation of fruit biomass. This system integrates three functionalities: transportation regulations, fermentation requirements and food safety/quality control requirements. The transportation design features of the system render the bioreactors transportable to a fruit processing facility, wherein they can be filled with fruit biomass. The transportable bioreactor and processes take into account the requirements of the bioreactor functionalities of the system, given the particular deployment specifications of the system tailored for a certain environment and fruit biomass. Moreover, the design of this system conforms to the minimal requirements for the food safety and quality regulations of the jurisdictions in which the ultimate products will be directly and/or indirectly sold (e.g., as a foodstuff, health supplement, and/or a food ingredient). The integration of these three types of functionalities (transport, bioreactor and sanitation) gives rise to a practical solution for addressing the various problems of wasted foodstuffs such as fruit biomass.

A wine aerator for expediting the breathing of wine just before serving having a main body 4 in a barrel shape with a flat bottom 20 and a flat top 22, the main body 4 defining a wine aeration chamber 24 where wine mixes with air to aerate the wine, a wine exit tube 6 connected to the wine aeration chamber 24 and extending substantially straight from the flat top 22, the wine exit tube 6 having an exit tube central axis and lying in an wine exit tube plane 34, an exit tube cork 16 is configured to seal the wine exit tube 6 configured to be inserted into and seal the exit tube 6, a wine inlet tube 8 connected to the aeration chamber and extending from a side of the main body 4, the inlet tube 8 is substantially perpendicular to the exit tube 6, a right elbow tube 10 having a first end and a second end, a first opening is connected to the wine inlet tube 8, the right elbow tube 10 bends at 90 degrees, a wine bottle tube 12 connected to the second opening of the right elbow tube 10, the wine bottle tube 12 having a wine bottle tube central axis 35, and the wine inlet tube 8, the right elbow tube 10, the wine bottle tube 12 and the wine bottle tube central axis 35 lying in a wine bottle tube plane, wherein the exit tube plane 34 is perpendicular to the wine bottle tube plane 36; and a wine bottle connector 14 configured to connect a wine bottle opening 32 to the wine bottle tube 12. A method of aerating wine using the wine aerator.

A wine aerator for expediting the breathing of wine just before serving having a main body 4 in a barrel shape with a flat bottom 20 and a flat top 22, the main body 4 defining a wine aeration chamber 24 where wine mixes with air to aerate the wine, a wine exit tube 6 connected to the wine aeration chamber 24 and extending substantially straight from the flat top 22, the wine exit tube 6 having an exit tube central axis and lying in an wine exit tube plane 34, an exit tube cork 16 is configured to seal the wine exit tube 6 configured to be inserted into and seal the exit tube 6, a wine inlet tube 8 connected to the aeration chamber and extending from a side of the main body 4, the inlet tube 8 is substantially perpendicular to the exit tube 6, a right elbow tube 10 having a first end and a second end, a first opening is connected to the wine inlet tube 8, the right elbow tube 10 bends at 90 degrees, a wine bottle tube 12 connected to the second opening of the right elbow tube 10, the wine bottle tube 12 having a wine bottle tube central axis 35, and the wine inlet tube 8, the right elbow tube 10, the wine bottle tube 12 and the wine bottle tube central axis 35 lying in a wine bottle tube plane, wherein the exit tube plane 34 is perpendicular to the wine bottle tube plane 36; and a wine bottle connector 14 configured to connect a wine bottle opening 32 to the wine bottle tube 12. A method of aerating wine using the wine aerator.

Disclosed is a composition including yeast cells and at least one polyphenols having a molecular weight above 620 Da, the polyphenols are adsorbed and retained in the cytoplasm of the yeast cell. The present disclosure also concerns using the composition in cosmetic, dermatological, nutritional and/or pharmaceutical fields, as well as in winemaking to protect the wine against oxidation, therefore preserving the wine quality, color and aromas, and as an alternative to ageing of wine on lees.

Disclosed is a composition including yeast cells and at least one polyphenols having a molecular weight above 620 Da, the polyphenols are adsorbed and retained in the cytoplasm of the yeast cell. The present disclosure also concerns using the composition in cosmetic, dermatological, nutritional and/or pharmaceutical fields, as well as in winemaking to protect the wine against oxidation, therefore preserving the wine quality, color and aromas, and as an alternative to ageing of wine on lees.

An apparatus includes a body having a length extending from a first end to a second end. The body defines a bore extending through the entirety of the body and at least one of a plurality of grooves or holes around the bore. The body has a length that is dimensioned to be received entirely within a neck of a container.

An apparatus includes a body having a length extending from a first end to a second end. The body defines a bore extending through the entirety of the body and at least one of a plurality of grooves or holes around the bore. The body has a length that is dimensioned to be received entirely within a neck of a container.

Methods and systems to control flexible gas fermentation platforms for improved conversion of CO.sub.2 into products is developed and particularly relates to a control process and system to control a ratio of feedstock gases and maximize the concentration of inert components in a bioreactor tail gas stream and or bioreactor headspace. Improved carbon utilization results though providing the most beneficial ratio of substrates to the bioreactor of the fermentation process.

The present invention is a aroma recovery equipment from gases exhausted of fermentation vats comprising a first recovery group (100) comprising a first condenser (110) operating at a first temperature of recovered aromas; one second recovery group (200) comprising a second condenser (210) operating at a second temperature of recovered aromas; a cooling group (300) to provide cold by a cooling fluid (301) to said first recovery group (100) via a first fluid connection (302) and to said second recovery group (200) via a second fluid connection (303); control means (400) configured to coordinately control the temperature of said first recovery group (100) and the temperature of said second recovery group (200); and a mobile housing (500) containing said first recovery group (100), said second recovery group (200), said cooling group (300) and said control means (400).

The present invention is a aroma recovery equipment from gases exhausted of fermentation vats comprising a first recovery group (100) comprising a first condenser (110) operating at a first temperature of recovered aromas; one second recovery group (200) comprising a second condenser (210) operating at a second temperature of recovered aromas; a cooling group (300) to provide cold by a cooling fluid (301) to said first recovery group (100) via a first fluid connection (302) and to said second recovery group (200) via a second fluid connection (303); control means (400) configured to coordinately control the temperature of said first recovery group (100) and the temperature of said second recovery group (200); and a mobile housing (500) containing said first recovery group (100), said second recovery group (200), said cooling group (300) and said control means (400).