A plant extract-enriched consumable alcohol and a method of producing plant extract-enriched consumable alcohol are disclosed. The plant extract-enriched consumable alcohol includes a plant extract, a first diluting agent, and a second diluting agent. The first diluting agent is mixed with the plant extract to form a mixture and has a purity of more than 99 vol %. The second diluting agent is mixed with the mixture to form the plant extract-enriched consumable alcohol. One of the first diluting agent and the second diluting agent is alcoholic and the other one is non-alcoholic, and an alcohol content of the plant extract-enriched consumable alcohol is less than 50 vol %.

Provided herein is a method for producing alcohol. The method comprises fermenting milk permeate with yeast to produce a fermented broth comprising the ethanol. The fermented broth is then subjected to distillation to obtain a concentrated ethanol-enriched vapour having at least 50% v/v ethanol. From the ethanol-enriched vapour resulting from the distillation, an ethanol product is produced that is a biofuel or a potable spirit. The disclosure also provides a unique potable spirit composition produced from such process.

Summary. The Technical Field is Filtration. The Problem is limited filtration consisting of gravity fed existing technology which is inefficient. The Solution is to create a process for small Distillers and Brewers to efficiently carbon filter spirits and brewed beverages to enhance taste, color, clarity and reduce alcohol levels, in finished products. Use enables instant variations in carbon capacity during processing and easy exchange of different carbon media between processes. The process provides affordability and flexibility to small operators based on their unique product, timed and controlled by the operator. This pressurized loop includes testing and tasting stations for measurement and quality control, flow controllers and measurement control, all within a loop system for a complete continuous process which does not exist today. With this Closed system, a mixing tank provides limited product. The Open system draws product directly from the operator's equipment.

Examples disclosed herein relate to methods and systems for controllably removing one or more solutes from a solution. Examples disclosed herein relate to methods and systems for removing water from alcoholic beverages.

Examples disclosed herein relate to methods and systems for controllably removing one or more solutes from a solution. Examples disclosed herein relate to methods and systems for removing water from alcoholic beverages.

This invention disclosed a method for preparing low-sugar vegetable and fruit enzyme product comprising obtaining a fruit or/and vegetable as a material; fermenting the material for at least three times sequentially, and producing an enzyme product, wherein the first fermentation is yeast fermentation, the second fermentation is acetic acid bacteria fermentation and the third fermentation is lactic acid bacteria fermentation; and the sugar content of the enzyme product is less than 5 wt %, especially, in a predetermined fermentation condition, the sugar content of the enzyme product is less than 2.5 wt %.

An apparatus for dealcoholizing alcoholic beverage comprising: a first receptacle comprising means to receive alcoholic beverage, a second receptacle comprising means receive in fluid, a third receptacle arranged to receive alcoholic beverage from the first receptacle, said third receptacle being further connected to the second receptacle, means for producing vacuum at least functionally connected to at least the third receptacle to lower pressure therein, fractionating means at least partially inside the second receptacle, the fractionating means functionally connecting the second and third receptacle, wherein the apparatus is arranged to facilitate vacuum distillation for the alcoholic beverage so that vaporizing ethanol from the alcoholic beverage travels via the fractionating means to the second so that the vaporized ethanol is dissolved with the fluid in the second receptacle. Corresponding method for dealcoholization is presented.

A process of preparing a malt-based beverage includes a method having the following steps. Fermenting a wort to obtain a fermented malt-based beverage to achieve an original extract level A in a range of 10 PI-20 PI is performed. Then, concentrating the fermented malt-based beverage by removal of water therefrom to obtain a concentrated malt-based beverage occurs. The concentrated malt-based beverage is diluted for consumption by addition of water or a water based diluent to an extract level B higher than A.

A process of preparing a malt-based beverage includes a method having the following steps. Fermenting a wort to obtain a fermented malt-based beverage to achieve an original extract level A in a range of 10 PI-20 PI is performed. Then, concentrating the fermented malt-based beverage by removal of water therefrom to obtain a concentrated malt-based beverage occurs. The concentrated malt-based beverage is diluted for consumption by addition of water or a water based diluent to an extract level B higher than A.

A low-alcohol beverage of the present invention is a citrus-savored low-alcohol beverage having an alcohol concentration of 3.0 v/v % or less, the low-alcohol beverage containing 0.1 to 2.5 v/v % gin converted to 100% of alcohol.