A device, system and method are for treating a suspension, containing plant constituents, in particular separating a liquid or a solid therefrom, in the field of production of food, pharmaceutical and luxury products, and to corresponding uses. The device for continuously or discontinuously treating a suspension, in particular for separating a liquid or liquid phase or a solid or a residual phase from the suspension includes: a receiving unit for receiving the suspension and at least one separating device having a surface having openings. The surface can be brought into contact with the suspension, if the suspension is present in the receiving unit for separation into the liquid phase and the solid phase. During the operation of the device, the surface is arranged such that it is moved or can be moved or can be rotated relative to the suspension, the solid phase and/or the receiving unit.

The present invention aims to provide a non-alcohol, beer-taste beverage having Shimari in taste. It provides a non-alcohol beer-taste beverage having a weight ratio of the polyphenol(s) to the total amount of the extract component(s) in a specific range.

The present invention aims to provide a non-alcohol, beer-taste beverage having Shimari in taste. It provides a non-alcohol beer-taste beverage having a weight ratio of the polyphenol(s) to the total amount of the extract component(s) in a specific range.

A fermented beverage is described together with a method for its production from one or more component of a Cannabis plant. The beverage comprises carbohydrates derived from hydrolysis of cellulose and/or hemicellulose from Cannabis, as a fermentation substrate. The beverage may contain alcohol or may be non-alcoholic. Active phytocannabinoid compounds may be present, preferably in the non-alcoholic beverages. The method includes the steps of (a) obtaining a cellulose-rich pulp from the one or more components of the Cannabis plant, from which lignin and/or hemicellulose has been released (through any number of multiple prehydrolysis steps); (b) degrading the cellulose-rich pulp into carbohydrates (saccharification step) with enzymatic hydrolysis by one or more cellulose-degrading and/or hemicellulose-degrading enzymes, and/or with acid hydrolysis to form carbohydrates; (c) preparing a wort from the carbohydrates with (or if desired without) sufficient yeast nutritional requirements and flavoring from portions of the Cannabis plant; and (d) fermenting the wort to form the fermented beverage. (e) Optionally performing steps to finish the beer including but not limited to aging, alcohol removal, formulation and flavoring by addition of phytocannabinoids and/or terpenes, xylooligimers, and/or Cannabis extracts and/or Cannabis oils with or without accelerants (to accelerate the onset of the bioactive effect) and/or deccelerants (to shorten the duration of the bioactive effect) as desired. The optional removal of alcohol may be conducted by reverse osmosis or other process. Phytocannabinoids or flavorings may be introduced as desired.

A fermented beverage is described together with a method for its production from one or more component of a Cannabis plant. The beverage comprises carbohydrates derived from hydrolysis of cellulose and/or hemicellulose from Cannabis, as a fermentation substrate. The beverage may contain alcohol or may be non-alcoholic. Active phytocannabinoid compounds may be present, preferably in the non-alcoholic beverages. The method includes the steps of (a) obtaining a cellulose-rich pulp from the one or more components of the Cannabis plant, from which lignin and/or hemicellulose has been released (through any number of multiple prehydrolysis steps); (b) degrading the cellulose-rich pulp into carbohydrates (saccharification step) with enzymatic hydrolysis by one or more cellulose-degrading and/or hemicellulose-degrading enzymes, and/or with acid hydrolysis to form carbohydrates; (c) preparing a wort from the carbohydrates with (or if desired without) sufficient yeast nutritional requirements and flavoring from portions of the Cannabis plant; and (d) fermenting the wort to form the fermented beverage. (e) Optionally performing steps to finish the beer including but not limited to aging, alcohol removal, formulation and flavoring by addition of phytocannabinoids and/or terpenes, xylooligimers, and/or Cannabis extracts and/or Cannabis oils with or without accelerants (to accelerate the onset of the bioactive effect) and/or deccelerants (to shorten the duration of the bioactive effect) as desired. The optional removal of alcohol may be conducted by reverse osmosis or other process. Phytocannabinoids or flavorings may be introduced as desired.

A system and method for generating wort utilizing steam injection heating and stratified flow. The system mixes a fine ground grain with water to form a slurry. The slurry is pumped through a steam injection heater to form a mash. The heated mash enters into a stratified vessel that creates a stratified temperature profile from a first end to a second end. The stratified heating vessel allows the mash to flow from the first end to the second end without internal mixing. After retention within the mash coil, the wort is directed to a mash filtration unit. After filtration, the wort enters into a boil kettle and is heated using a second steam injection heater. The boil kettle includes a spray head that directs brewing liquor onto the wort to reduce foam within the boil kettle. Finally, the wort passes through a scraped surface sieve that removes particles from the heated wort.

A system and method for generating wort utilizing steam injection heating and stratified flow. The system mixes a fine ground grain with water to form a slurry. The slurry is pumped through a steam injection heater to form a mash. The heated mash enters into a stratified vessel that creates a stratified temperature profile from a first end to a second end. The stratified heating vessel allows the mash to flow from the first end to the second end without internal mixing. After retention within the mash coil, the wort is directed to a mash filtration unit. After filtration, the wort enters into a boil kettle and is heated using a second steam injection heater. The boil kettle includes a spray head that directs brewing liquor onto the wort to reduce foam within the boil kettle. Finally, the wort passes through a scraped surface sieve that removes particles from the heated wort.

The present invention relates to methods for preparing cereal-based beverages. The present invention provides, for example, methods for steeping and germination of cereal grain under continuous aeration. Particularly, the present invention provides methods for heating the germinated cereal grains prior to wet milling of germinated cereal grains and direct transfer of the germinated grain, without drying, to the brewery for further processing. Compared to current methods the methods of the present invention significantly reduce water consumption, energy consumption and transport need.

The present invention provides a process for treating a wort composition in a kettle, said method providing a significant energy saving compared to existing wort treatment processes. In particular, the process includes a hot-hold step for the wort, followed by gas sparging at elevated temperatures.

The present invention provides a process for treating a wort composition in a kettle, said method providing a significant energy saving compared to existing wort treatment processes. In particular, the process includes a hot-hold step for the wort, followed by gas sparging at elevated temperatures.