A method of producing beer comprises the steps of producing or supplying a beer intermediate, wherein the beer intermediate is manufactured through a brewing process, storing the beer intermediate in a container, transporting the container containing the beer intermediate to a processing station where the beer intermediate is discharged from the container for further processing and mixing CO with the discharged beer intermediate. Before the step of storing the beer intermediate at least one of alcohol, malt syrup, wheat syrup, hop and sugar is added to the beer intermediate such that the stored beer intermediate forms a beer concentrate, wherein removal of water from the beer intermediate after the brewing process is omitted. Water is mixed with the discharged beer concentrate so as to obtain ready-to-consume beer or a ready-to-consume beer-like beverage. The produced or supplied beer intermediate has a CO2 concentration which is lower than 3 g/kg.

A system for simultaneously preparing alcohol-free wine and high-alcohol liquor, comprising a primary membrane separation system and a secondary membrane separation system. An inlet of the primary membrane separation system is connected to raw materials, and a permeation side of the primary membrane separation system is connected to an inlet of the secondary membrane separation system; both the primary membrane separation system and the secondary membrane separation system comprise an organic matter preferentially-permeable pervaporation membrane. The method for simultaneously preparing the alcohol-free wine and the high-alcohol liquor comprise the following steps: feeding the wine produced by fermentation into the primary membrane separation system, ethanol and aromatic substances therein permeating the membrane in a vapor form to form a primary permeating fluid with alcohol content of 28-32°, and a primary residual permeating fluid being the alcohol-free wine with alcohol content of less than 0.5°.

A wine filtering system includes a container assembly, a collector, and a screen assembly. The collector is configured to be supported by the container assembly. The screen assembly is configured to be supported by the collector and within the container assembly. The screen assembly includes a screen mount having one or more mesh screens secured thereto. The one or more mesh screens are configured to separate at least portions of an alcohol component of wine from a juice component of wine sprayed thereagainst to define a filtered wine and a filtered alcohol. The one or more mesh screens enable the filtered wine to pass through the one or more mesh screens for collection by the collector such that the collector directs the collected filtered wine into the container assembly.

A feedstock solution flow concentration system, which has a first step for counterflowing or parallel flowing a feedstock solution flow a containing a solute and a solvent b, and a draw solution flow d via a forward osmosis membrane o and transferring the solvent b in the feedstock solution flow a to the draw solution flow d to obtain a concentrated feedstock solution flow c, which is the feedstock solution flow which has been concentrated, and a diluted draw solution flow e, which is the draw solution flow which has been diluted.

The present invention relates to a beer manufacturing device configured such that it is possible to directly produce and sell beer, the yeast of which is alive, on the spot without any expertise, and it is possible to easily manufacture various kinds of beer automatically at a low cost through a single session without a concern that the same will be contaminated by contact with the outside. A beer manufacturing device according to an embodiment of the present invention may comprise: a chamber; a coupler fixedly installed in the chamber, the coupler comprising a wort channel and a gas channel; a channel portion connecting the wort channel and the gas channel of the coupler; a sterilizing/washing cap coupled to the coupler such that the channel portion becomes a closed channel; a sterilizing/washing filter container connected to the channel portion, sterilizing/washing water being stored in the sterilizing/washing filter; a pump connected to the channel portion; and a control portion for controlling the operation of the pump such that the sterilizing/washing water stored in the sterilizing/washing filter container circulates through the channel portion that has become a closed channel.

A filter aid composition may include a first acid-treated silica-based filter aid having a first particle size distribution and a second acid-treated silica-based filter aid having a second particle size distribution. A method of making a filter aid composition may include providing a first silica-based filter aid having a first particle size distribution, providing a second silica-based filter aid having a second particle size distribution, and blending the first silica-based filter aid with the second silica-based filter aid to form the filter aid composition. A method of filtering a fluid may include providing a filter aid composition including a first acid-treated silica-based filter aid and a second acid-treated silica-based filter aid and filtering the fluid through the filter aid composition. The filter aid composition may have a multimodal particle size distribution such that the first particle size distribution has a d50 greater than the second particle size distribution.

A feedstock solution flow concentration system, which has a first step for counterflowing or parallel flowing a feedstock solution flow a containing a solute and a solvent b, and a draw solution flow d via a forward osmosis membrane o and transferring the solvent b in the feedstock solution flow a to the draw solution flow d to obtain a concentrated feedstock solution flow c, which is the feedstock solution flow which has been concentrated, and a diluted draw solution flow e, which is the draw solution flow which has been diluted.

A system and method are provided to produce a beverage concentrate such as a beer extract. A forward osmosis (FO) filtration technique removes pure water from a conventional brewed beer; accordingly, the beer extract can be produced without distillation or other alteration steps that may negatively impact of flavor and aroma components of the beer. A draw solution is used to provide a differential osmotic pressure through a FO filtration device. The diluted draw solution is recycled by reverse osmosis, distillation, and combinations thereof.

Certain embodiments of the invention provide a method of preparing a modified distilled alcoholic spirit, comprising contacting a corresponding starting distilled alcoholic spirit with a base under conditions that cause at least one free carbonyl compound in the starting distilled alcoholic spirit to be reduced, to provide the modified distilled alcoholic spirit that has at an alcohol by volume (ABV) of at least 15%. Certain embodiments also provide a modified distilled alcoholic spirit prepared by the methods described herein.

This disclosure includes regenerated inorganic fermented beverage stabilization and/or clarification media and a process for such regeneration. Inorganic stabilization and clarification media (for processing beer or the like) may include expanded perlite or other expanded natural glasses, diatomaceous earth, silica gel or other precipitated silicas and compositions that incorporate these materials. Such media may be regenerated individually, together in a mixture or together as part of a composite product. The regenerated media meet the requirements for physical and chemical properties for re-use and replacement of the majority of particulate inorganic filtration media and inorganic stabilization media consumed in stabilization and clarification processes, and the related regeneration process provides for substantial benefits to brewers through a reduction of costs to purchase and transport stabilization and clarification media, to dispose of spent cake and/or membrane retentate, while providing for substantial reductions in the introduction of soluble impurities into the fermented beverage.