Disclosed herein are non-alcoholic nitrogen infused beverages and method for producing such beverages. The processes described herein comprise producing a mixed gas beverage supported with a foaming agent. Liquid nitrogen and carbon dioxide are added to the beverage, with the addition of a foaming agent, such as soapbark extract. In some embodiments, this process provides a nitrogen infused beverage with foaming and cascading capabilities that are equivalent to a nitro experience delivered through a widget can, without the need for the widget or the use of nitrous oxide.

A kombucha brewing device includes two brewing chambers; a first stage (F1) fermentation chamber, and second stage (F2) fermentation chamber. A lid covers both chambers, and may include a first portion for the F1 chamber and a second portion for the F2 portion. The F1 portion of the lid may include a gasket and removable fabric cover insert. A base containing both chambers may include separate or segmented heating elements and temperature sensors associated with each chamber. A temperature controller may maintain the first chamber within a first temperature range and maintain the second chamber within a second temperature range by monitoring information from the temperature sensors and activating and de-activating the heating elements as appropriate.

A kombucha brewing device includes two brewing chambers; a first stage (F1) fermentation chamber, and second stage (F2) fermentation chamber. A lid covers both chambers, and may include a first portion for the F1 chamber and a second portion for the F2 portion. The F1 portion of the lid may include a gasket and removable fabric cover insert. A base containing both chambers may include separate or segmented heating elements and temperature sensors associated with each chamber. A temperature controller may maintain the first chamber within a first temperature range and maintain the second chamber within a second temperature range by monitoring information from the temperature sensors and activating and de-activating the heating elements as appropriate.

This application discloses a caffeinated drink with cannabinoids, wherein the drink retains its original taste and appearance. This application also discloses coffee powder with cannabinoids, roasted coffee beans with cannabinoids, and loose tea leaf with cannabinoids. Methods to the make and use of the above caffeinated drinks, coffee powder, coffee beans, and loose tea leaf are also disclosed.

There is disclosed a method for forming tea using a tea material, the method includes providing a vessel comprising an internal space configured to receive a liquid, inserting a container assembly into the vessel, the container assembly configured to contain the tea material and allow the liquid to interact with the tea material when submerged within the liquid, injecting steam through a double-walled nozzle into the vessel to heat the liquid while maintaining an exterior surface of the steam nozzle below the temperature of the steam, and allowing the tea material to stew within the liquid to form the tea. There is also disclosed an apparatus for forming a tea configured to inject steam into a vessel to heat a liquid to be infused with a tea material, and a beverage cartridge for forming a tea to be deposited into the vessel.

Nutritional compositions for general stress reduction and recovery from stress containing certain amounts of five key ingredients: creatine, EGCG, L-carnitine, lemon balm (Melissa officinalis) essential oil, and passionflower (Passiflora incarnata) essential oil. Methods of reducing stress utilizing said compositions also is disclosed.

Disclosed in the present invention are a method for preparing tealeaf extracts having different tastes, and a beverage prepared using extracts made by the method. The method involves adding tealeaves to an extraction column, performing continuous extraction using water at 5° C.-140° C. at a flow rate of 20-200 mL/min, collecting liquid extracts in sections, and drawing a relative taste intensity curve; and according to a taste variation shown in the relative taste intensity curve, recombining collected liquid extracts of different sections. The method of the present invention can produce tealeaf extracts having high grade taste and high concentration without the need for a concentration step, the extraction yield is high, and the sensory attributes of the tealeaf extracts can be rebalanced in a very flexible manner, so as to obtain beverages of different tastes.

Disclosed in the present invention are a method for preparing tealeaf extracts having different tastes, and a beverage prepared using extracts made by the method. The method involves adding tealeaves to an extraction column, performing continuous extraction using water at 5° C.-140° C. at a flow rate of 20-200 mL/min, collecting liquid extracts in sections, and drawing a relative taste intensity curve; and according to a taste variation shown in the relative taste intensity curve, recombining collected liquid extracts of different sections. The method of the present invention can produce tealeaf extracts having high grade taste and high concentration without the need for a concentration step, the extraction yield is high, and the sensory attributes of the tealeaf extracts can be rebalanced in a very flexible manner, so as to obtain beverages of different tastes.

An upward flow extraction method, apparatus, and extract are disclosed. The upward flow extraction method can comprise loading extraction material into an extraction cell having a bottom portion and a top portion; introducing a first aliquot of extraction medium through the bottom portion of the extraction cell; expelling gas from the extraction cell through the top portion of the extraction cell; closing the top portion of the extraction cell and increasing the pressure in the extraction cell as extraction medium flows into the bottom portion of the extraction cell; stopping the flow of extraction medium into the extraction cell; steeping the extraction material in the extraction medium under pressure to produce an extract; and introducing a second aliquot of extraction medium through the bottom portion of the extraction cell to push extract through top portion of the extraction cell.

Provided is an astringency reducing agent having a high astringency reducing effect. The astringency reducing agent has a cold ethanol precipitation product of pear juice as an active ingredient. A method for producing an astringency reducing agent includes placing a mixed liquid comprising pear juice and ethanol at a cold temperature to form a precipitate, and collecting the obtained precipitate.