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.

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.

The present invention relates to an infusion product for making a beverage, more specifically to a plant-based composition for making a beverage, and to a herbal and/or vegetable composition or bouquet garni. The plants are fruits, herbs, medicinal plants, tea, vegetables and/or spices. The invention further relates to a method for producing said compositions or infusion product, its use for making a (tea) beverage, and a (tea) beverage so obtained. Further, the present invention relates to a fiber-web, preferably a tea bag, made from said fruits, herbs, medicinal plants, tea, vegetable and/or spices.

The present invention relates to an infusion product for making a beverage, more specifically to a plant-based composition for making a beverage, and to a herbal and/or vegetable composition or bouquet garni. The plants are fruits, herbs, medicinal plants, tea, vegetables and/or spices. The invention further relates to a method for producing said compositions or infusion product, its use for making a (tea) beverage, and a (tea) beverage so obtained. Further, the present invention relates to a fiber-web, preferably a tea bag, made from said fruits, herbs, medicinal plants, tea, vegetable and/or spices.

This invention describes a new method to maximize the epigallocatechin gallate (EGCG) content of brewed tea made using leaves and buds from C. sinensis. Unlike conventional tea processing methods, the method of the invention aims to minimize the leaf withering step, the oxidation step and any heating steps, all of which are present in many conventional tea processing methods. The method of the invention treats minimally withered tea leaf and bud material with an acid treatment and then a maceration treatment, optionally freezing the acid-treated material for storage purposes. The brewed tea resulting from the acid-treated and macerated leaves has a significantly higher EGCG content than conventionally produced teas.

This invention describes a new method to maximize the epigallocatechin gallate (EGCG) content of brewed tea made using leaves and buds from C. sinensis. Unlike conventional tea processing methods, the method of the invention aims to minimize the leaf withering step, the oxidation step and any heating steps, all of which are present in many conventional tea processing methods. The method of the invention treats minimally withered tea leaf and bud material with an acid treatment and then a maceration treatment, optionally freezing the acid-treated material for storage purposes. The brewed tea resulting from the acid-treated and macerated leaves has a significantly higher EGCG content than conventionally produced teas.

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.

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.

[Problem] To provide a production method for a natural-extract beverage which is coffee extraction or the like using electrolytically reduced water, wherein the oxidation-reduction potential of the extract is negative. [Solution] A method for producing a natural-extract beverage by making coffee or tea with electrolytically reduced hot water containing dissolved hydrogen molecules, comprising making coffee or tea that an oxidation-reduction potential of the extract is made to be 0 mV or less by at least one means that suppresses volatilization of dissolved molecular hydrogen, wherein the at least one means are selected from the group consisting of: means of using electrolytically reduced water obtained by electrolysis of heated source water, means of performing the extraction under high pressure in a sealed container, and means of adding to the electrolytically reduced water at least one dissolved-hydrogen stabilizing agent selected from polysaccharides and/or polyphenols.

[Problem] To provide a production method for a natural-extract beverage which is coffee extraction or the like using electrolytically reduced water, wherein the oxidation-reduction potential of the extract is negative. [Solution] A method for producing a natural-extract beverage by making coffee or tea with electrolytically reduced hot water containing dissolved hydrogen molecules, comprising making coffee or tea that an oxidation-reduction potential of the extract is made to be 0 mV or less by at least one means that suppresses volatilization of dissolved molecular hydrogen, wherein the at least one means are selected from the group consisting of: means of using electrolytically reduced water obtained by electrolysis of heated source water, means of performing the extraction under high pressure in a sealed container, and means of adding to the electrolytically reduced water at least one dissolved-hydrogen stabilizing agent selected from polysaccharides and/or polyphenols.