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.

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.

A rapid method of brewing malt beverages having 0.0% alcohol by volume with the use of yeast in aerobic conditions. The yeast is inactivated by boiling after undergoing fermentative (minimal yeast contact time) growth, during either aerobic or anaerobic conditions. Aspects of the beverage such as sweetness, aldehyde content, flavor-positive components, pH, mouthfeel and heat are controlled to emulate popular styles of beer. The beverage may also be fortified with alcohol to create alcoholic products, such as beer, kombucha, hard seltzer, wine or spirits in a rapid time frame.

A rapid method of brewing malt beverages having 0.0% alcohol by volume with the use of yeast in aerobic conditions. The yeast is inactivated by boiling after undergoing fermentative (minimal yeast contact time) growth, during either aerobic or anaerobic conditions. Aspects of the beverage such as sweetness, aldehyde content, flavor-positive components, pH, mouthfeel and heat are controlled to emulate popular styles of beer. The beverage may also be fortified with alcohol to create alcoholic products, such as beer, kombucha, hard seltzer, wine or spirits in a rapid time frame.

A method for reducing beverage loss during loading of beverage into an ethanol concentration system having a set of reverse osmosis pressure vessels, each pressure vessel having a feed inlet, a retentate outlet, and a permeate outlet. The method includes feeding deaerated water into the feed inlet of a first pressure vessel, feeding the beverage into the feed inlet of the first pressure vessel, monitoring an alcohol percentage at the retentate outlet of a second pressure vessel, the second pressure vessel coupled directly or indirectly to the first pressure vessel, and coupling a retentate from the retentate outlet of the second pressure vessel to a feed tank coupled to the feed inlet of the first pressure vessel when the alcohol percentage is within a first target range of 0.5 to 18% alcohol-by-volume (ABV).

A method for reducing beverage loss during loading of beverage into an ethanol concentration system having a set of reverse osmosis pressure vessels, each pressure vessel having a feed inlet, a retentate outlet, and a permeate outlet. The method includes feeding deaerated water into the feed inlet of a first pressure vessel, feeding the beverage into the feed inlet of the first pressure vessel, monitoring an alcohol percentage at the retentate outlet of a second pressure vessel, the second pressure vessel coupled directly or indirectly to the first pressure vessel, and coupling a retentate from the retentate outlet of the second pressure vessel to a feed tank coupled to the feed inlet of the first pressure vessel when the alcohol percentage is within a first target range of 0.5 to 18% alcohol-by-volume (ABV).

A rapid method of brewing malt beverages having 0.0% alcohol by volume with the use of yeast in aerobic conditions. The yeast is inactivated by boiling after undergoing fermentative (minimal yeast contact time) growth, during either aerobic or anaerobic conditions. Aspects of the beverage such as sweetness, aldehyde content, flavor-positive components, pH, mouthfeel and heat are controlled to emulate popular styles of beer. The beverage may also be fortified with alcohol to create alcoholic products, such as beer, kombucha, hard seltzer, wine or spirits in a rapid time frame.

A rapid method of brewing malt beverages having 0.0% alcohol by volume with the use of yeast in aerobic conditions. The yeast is inactivated by boiling after undergoing fermentative (minimal yeast contact time) growth, during either aerobic or anaerobic conditions. Aspects of the beverage such as sweetness, aldehyde content, flavor-positive components, pH, mouthfeel and heat are controlled to emulate popular styles of beer. The beverage may also be fortified with alcohol to create alcoholic products, such as beer, kombucha, hard seltzer, wine or spirits in a rapid time frame.

A method for reducing beverage loss during loading of beverage into an ethanol concentration system having a set of reverse osmosis pressure vessels, each pressure vessel having a feed inlet, a retentate outlet, and a permeate outlet. The method includes feeding deaerated water into the feed inlet of a first pressure vessel, feeding the beverage into the feed inlet of the first pressure vessel, monitoring an alcohol percentage at the retentate outlet of a second pressure vessel, the second pressure vessel coupled directly or indirectly to the first pressure vessel, and coupling a retentate from the retentate outlet of the second pressure vessel to a feed tank coupled to the feed inlet of the first pressure vessel when the alcohol percentage is within a first target range of 0.5 to 18% alcohol-by-volume (ABV).

A method for reducing beverage loss during loading of beverage into an ethanol concentration system having a set of reverse osmosis pressure vessels, each pressure vessel having a feed inlet, a retentate outlet, and a permeate outlet. The method includes feeding deaerated water into the feed inlet of a first pressure vessel, feeding the beverage into the feed inlet of the first pressure vessel, monitoring an alcohol percentage at the retentate outlet of a second pressure vessel, the second pressure vessel coupled directly or indirectly to the first pressure vessel, and coupling a retentate from the retentate outlet of the second pressure vessel to a feed tank coupled to the feed inlet of the first pressure vessel when the alcohol percentage is within a first target range of 0.5 to 18% alcohol-by-volume (ABV).