A method for producing a sugar-reduced fruit juice (S), in particular apple juice, wherein components of the fruit (A) are pressed after an at least partial comminution or fractioning process for obtaining the fruit juice. Prior to the pressing process using solely one part (16) of the fruit flesh; at least one part of the juice (14) obtained from the pressed fruit flesh is subjected to an at least partial sugar-removal method (S5); and the juice (15) obtained from the sugar-removal method is combined or mixed with the juice from the pressing process of the rind (11) and optionally the juice (17) from the remaining part of the fruit flesh, whereby the production of a sugar-reduced fruit juice (S) is made possible while retaining as much of the secondary plant contents as possible.

A method for producing a sugar-reduced fruit juice (S), in particular apple juice, wherein components of the fruit (A) are pressed after an at least partial comminution or fractioning process for obtaining the fruit juice. Prior to the pressing process using solely one part (16) of the fruit flesh; at least one part of the juice (14) obtained from the pressed fruit flesh is subjected to an at least partial sugar-removal method (S5); and the juice (15) obtained from the sugar-removal method is combined or mixed with the juice from the pressing process of the rind (11) and optionally the juice (17) from the remaining part of the fruit flesh, whereby the production of a sugar-reduced fruit juice (S) is made possible while retaining as much of the secondary plant contents as possible.

A method for making a tea drink includes preparing water, receiving the water in a tank, pumping a hydrogen gas into the tank and mixing the hydrogen gas with the water to form saturated hydrogen water, sterilizing the saturated hydrogen water by ultraviolet light, performing a soaking step to immerse tea leaves into the saturated hydrogen water, refrigerating and keeping the tea leaves and the saturated hydrogen water at a temperature under 15 C. during a period of time of about 24-48 hours to make cold soaked tea, and performing a sealing step to seal the cold soaked tea in a container, to make a tea drink product.

A method for making a tea drink includes preparing water, receiving the water in a tank, pumping a hydrogen gas into the tank and mixing the hydrogen gas with the water to form saturated hydrogen water, sterilizing the saturated hydrogen water by ultraviolet light, performing a soaking step to immerse tea leaves into the saturated hydrogen water, refrigerating and keeping the tea leaves and the saturated hydrogen water at a temperature under 15 C. during a period of time of about 24-48 hours to make cold soaked tea, and performing a sealing step to seal the cold soaked tea in a container, to make a tea drink product.

Cold-brewed compositions and methods for preparing them are disclosed that comprise the general steps of: (a) adding together ingredients comprising unheated aqueous liquid, a variety of brewing ingredients, and emulsion stabilizers comprising polysaccharides to obtain various aqueous mixtures; (b) grinding brewing ingredients amidst the obtained aqueous mixtures for a period of 30 seconds to three minutes to obtain various dispersions of finely ground brewing particles; and (c) removing brewing particles large enough to be detected by the tongue or mouth to obtain a variety of novel cold-brewed compositions that possess stabilized emulsions.

Cold-brewed compositions and methods for preparing them are disclosed that comprise the general steps of: (a) adding together ingredients comprising unheated aqueous liquid, a variety of brewing ingredients, and emulsion stabilizers comprising polysaccharides to obtain various aqueous mixtures; (b) grinding brewing ingredients amidst the obtained aqueous mixtures for a period of 30 seconds to three minutes to obtain various dispersions of finely ground brewing particles; and (c) removing brewing particles large enough to be detected by the tongue or mouth to obtain a variety of novel cold-brewed compositions that possess stabilized emulsions.

A water purification system is configured to create a treated water for a home brewing operation. The water purification system includes a sediment filter, connected to an untreated water source. Untreated water flows from the untreated water source through the sediment filter creating a sediment filtered water. A carbon filter is connected to the sediment filter. The sediment filtered water flows through the carbon filter creating a carbon filtered water. A reverse osmosis system is connected to the carbon filter. The carbon filtered water flows through the reverse osmosis system and is segregated into a treated water and a rejected water. The treated water is distributed to the come brewing operation. A deionizing filter is connected to the reverse osmosis system with an automatic shutoff valve. The deionizing filter receives a second flow of treated water and creates a deionized water.

A beverage container may comprise a beverage container lid assembly comprising at least one concentrate well to hold a concentrate vessel, a concentrate vessel retainer for each concentrate well to secure the concentrate vessel in the concentrate well, a feed line for each concentrate well comprising a feed line needle to puncture the concentrate vessel in the at least one concentrate well, a Venturi mixer in fluid communication with each feed line, a mixing valve in fluid communication with each feed line, wherein fluid flows from the concentrate vessel to the Venturi mixer when the mixing valve is open and the concentrate vessel is punctured by the feed line needle. Methods of using the beverage container and beverage container lid assembly are also described.

A beverage container may comprise a beverage container lid assembly comprising at least one concentrate well to hold a concentrate vessel, a concentrate vessel retainer for each concentrate well to secure the concentrate vessel in the concentrate well, a feed line for each concentrate well comprising a feed line needle to puncture the concentrate vessel in the at least one concentrate well, a Venturi mixer in fluid communication with each feed line, a mixing valve in fluid communication with each feed line, wherein fluid flows from the concentrate vessel to the Venturi mixer when the mixing valve is open and the concentrate vessel is punctured by the feed line needle. Methods of using the beverage container and beverage container lid assembly are also described.

Preferred embodiments of the present invention comprise the optional application of concentrations of an aqueous permanganate solution, such as an approximately 0.01% A to approximately 50% liquid permanganate solution and preferably comprising approximately 20% sodium permanganate dosed at approximately 1 ppm to approximately 100 ppm to harvested sugar crops, such as sugarcane, sugar beets, and sweet sorghum, at one or more of the sugar processing steps for the crops. The steps where the liquid sodium permanganate may optionally be applied include at a sugar crop cutting step, a sugar crop conveying step, a sugar juice extraction step, a sugar juice clarifying step, and a clarifier muds filtration step. The application of liquid sodium permanganate in the processing of sugar from sugar crops results in reduced equipment fouling, reduced loss in juice purity, reduced scale formation, decreased turbidity in clarified juices, increased sugarcane processing rates, reduced sugar crop production costs, increased sugar product yield, and increased production capacity.