An arrangement for pressing materials containing liquid has mobile press container with an container interior that is divided by a press membrane into a pressure medium chamber and a pressing medium chamber. A filling and emptying opening, which can be closed in a pressure-tight manner, allows material to be pressed to be added to the pressing medium chamber. At least one drainage element is arranged in the pressing medium chamber. An interior of the drainage element communicates with a juice discharge of the press container. A turning device, in which the mobile press container is temporarily received can be rotated during a pressing operation from a filling position, about an angle of less than 360°, more particularly of less than 270°, in mutually opposing directions of rotation about an axis of rotation. There is also described a method for pressing liquid-containing materials.

An arrangement for pressing materials containing liquid has mobile press container with an container interior that is divided by a press membrane into a pressure medium chamber and a pressing medium chamber. A filling and emptying opening, which can be closed in a pressure-tight manner, allows material to be pressed to be added to the pressing medium chamber. At least one drainage element is arranged in the pressing medium chamber. An interior of the drainage element communicates with a juice discharge of the press container. A turning device, in which the mobile press container is temporarily received can be rotated during a pressing operation from a filling position, about an angle of less than 360°, more particularly of less than 270°, in mutually opposing directions of rotation about an axis of rotation. There is also described a method for pressing liquid-containing materials.

Methods and systems are provided for gravity-assisted winemaking and other fermentation processes. In one example, a method may include using gravity to process grapes or a fermentate from a first upper location to a lower location and using a bridge crane to transfer the grapes or the fermentate to a second upper location to be further processed. In certain examples, the lower location may be located on a lower level of a building and the first and second upper locations may be located on an upper level of the building. In an additional or alternative example, the method may include using the bridge crane to translate a punch down device along orthogonal axes, including lowering the punch down device into a vessel containing a liquid on which a cap of solids floats. In certain examples, the vessel may be transferred between the upper and lower levels using the bridge crane.

Methods and systems are provided for gravity-assisted winemaking and other fermentation processes. In one example, a method may include using gravity to process grapes or a fermentate from a first upper location to a lower location and using a bridge crane to transfer the grapes or the fermentate to a second upper location to be further processed. In certain examples, the lower location may be located on a lower level of a building and the first and second upper locations may be located on an upper level of the building. In an additional or alternative example, the method may include using the bridge crane to translate a punch down device along orthogonal axes, including lowering the punch down device into a vessel containing a liquid on which a cap of solids floats. In certain examples, the vessel may be transferred between the upper and lower levels using the bridge crane.

Methods and systems are provided for gravity-assisted winemaking and other fermentation processes. In one example, a method may include using gravity to process grapes or a fermentate from a first upper location to a lower location and using a bridge crane to transfer the grapes or the fermentate to a second upper location to be further processed. In certain examples, the lower location may be located on a lower level of a building and the first and second upper locations may be located on an upper level of the building. In an additional or alternative example, the method may include using the bridge crane to translate a punch down device along orthogonal axes, including lowering the punch down device into a vessel containing a liquid on which a cap of solids floats. In certain examples, the vessel may be transferred between the upper and lower levels using the bridge crane.

An arrangement for pressing liquid-containing raw materials includes a press container which is rotatable about an axis of rotation and the interior of which is subdivided by a pressing membrane into a pressure-medium space and a pressing medium chamber. A filling and emptying opening, which can be closed in a pressure-tight manner and via which liquid-containing material to be pressed can be introduced into the pressing medium chamber, is arranged in the press container. At least one drainage element is located in the pressing medium chamber. The interior of the drainage element communicates with a juice outlet of the press container, via which liquid juice can be supplied to a juice collecting vessel during a pressing process. The press container is formed of a pressure-resistant flexible plastics material and is received in an inherently rigid support framework that is rotatable about the axis of rotation.

An arrangement for pressing liquid-containing raw materials includes a press container which is rotatable about an axis of rotation and the interior of which is subdivided by a pressing membrane into a pressure-medium space and a pressing medium chamber. A filling and emptying opening, which can be closed in a pressure-tight manner and via which liquid-containing material to be pressed can be introduced into the pressing medium chamber, is arranged in the press container. At least one drainage element is located in the pressing medium chamber. The interior of the drainage element communicates with a juice outlet of the press container, via which liquid juice can be supplied to a juice collecting vessel during a pressing process. The press container is formed of a pressure-resistant flexible plastics material and is received in an inherently rigid support framework that is rotatable about the axis of rotation.

An apparatus for the production of red wine is provided. This compact device is suitable for home and hobby use. The fermenting wine is contained inside a single-use plastic bag, eliminating cleaning. A reusable rubber bladder is inflated periodically to squeeze the cap and disperse it. At the conclusion of the fermentation, a perforated device is inserted into the fermentation bag and pneumatic bladders are sequentially inflated to press out the wine while retaining the waste skins and seeds.

Disclosed is a dynamic separation and filtration system for dewatering and dehydrating of slurries and sludges. The system includes a compression filter press cylinder in which hydraulic pressure within a sealed liner is used to press and separate moisture from a sludge. A self-contained closed sealed liner pressurizing component is connected thereto, for supplying pressurized hydraulic fluid to the sealed liner, and a compressed air and vacuum and backflushing cylinder component is connected thereto for voiding the press cylinder of a resulting cake. A sludge transfer and metering component supplies metered quantities of sludge to the press cylinder. A dynamic filtration clarifier and thickener initially separates solids from a slurry and thickens the slurry into sludge that is supplied to the metering component.

Disclosed is a dynamic separation and filtration system for dewatering and dehydrating of slurries and sludges. The system includes a compression filter press cylinder in which hydraulic pressure within a sealed liner is used to press and separate moisture from a sludge. A self-contained closed sealed liner pressurizing component is connected thereto, for supplying pressurized hydraulic fluid to the sealed liner, and a compressed air and vacuum and backflushing cylinder component is connected thereto for voiding the press cylinder of a resulting cake. A sludge transfer and metering component supplies metered quantities of sludge to the press cylinder. A dynamic filtration clarifier and thickener initially separates solids from a slurry and thickens the slurry into sludge that is supplied to the metering component.