A treated wine beverage prepared by a process including exposing a pretreated wine beverage to an ion exchange matrix. The ion exchange matrix includes a mixture of cation exchange media and anion exchange media that includes: (1) cation exchange media that are in hydrogen form, (2) cation exchange media that are in mineral form comprising potassium mineral form, (3) anion exchange media that are in hydroxide form, and (4) anion exchange media that are in chloride mineral form. The exposing results in: binding ions of the mixture to one or more cationic or anionic constituents present in the pretreated wine, reducing concentrations of the one or more cationic or anionic constituents in the wine and maintaining a conductivity value of the treated wine equal to or greater than the pretreated wine beverage's conductivity value.

A method of producing beer having a tailored flavour profile is provided comprising the successive steps of: (a) fermenting wort containing fermentable sugars with yeast to produce beer containing 1-10 vol. % ethanol and flavour substances diacetyl; acetaldehyde; dimethyl sulfide; ethyl acetate; isoamyl acetate; ethyl valerate; ethyl hexanoate; iso-amyl alcohol and 2-methylbutan-1-ol; (b) contacting the fermenting wort or beer with porous adsorbent particles, selectively adsorbing the beer flavour esters ethyl acetate, ethyl hexanoate, ethyl valerate and isoamyl acetate; (c) separating the adsorbent particles; (d) desorbing a portion of the beer flavour esters from the adsorbent particles; and (e) adding a fraction of the desorbed beer flavour esters to the flavour adjusted beer or to another beer, wherein the amount of beer flavour esters added is 5-95 wt. % of the amount of beer flavour esters removed by the adsorbent particles.

A method of treating an beverage, comprising exposing a beverage to an ion exchange matrix that includes a mixture of cation exchange beads and anion exchange beads each capable of binding to one or more cationic or anionic constituents present in the beverage and thereby reduce concentrations of the one or more cationic or anionic constituents in the beverage and capable of maintaining a pH of the beverage within 0.5 pH units of the beverage's pretreatment pH value. The cationic or anionic constituents have a noxious effect on humans and the cation exchange beads include a cationic mineral form and the anion exchange beads include a chloride mineral form.

A method of producing beer having a tailored flavour profile is provided comprising the successive steps of: (a) fermenting wort containing fermentable sugars with yeast to produce beer containing 1-10 vol. % ethanol and flavour substances diacetyl; acetaldehyde; dimethyl sulfide; ethyl acetate; isoamyl acetate; ethyl valerate; ethyl hexanoate; iso-amyl alcohol and 2-methylbutan-1-ol; (b) contacting the fermenting wort or beer with porous adsorbent particles, selectively adsorbing the beer flavour esters ethyl acetate, ethyl hexanoate, ethyl valerate and isoamyl acetate; (c) separating the adsorbent particles; (d) desorbing a portion of the beer flavour esters from the adsorbent particles; and (e) adding a fraction of the desorbed beer flavour esters to the flavour adjusted beer or to another beer, wherein the amount of beer flavour esters added is 5-95 wt. % of the amount of beer flavour esters removed by the adsorbent particles.

A removal nozzle may be used with a pressurized beverage dispenser to remove histamines and/or sulfites from a beverage as it is dispensed under pressure. A nozzle housing may be engaged with the outlet of a beverage dispenser, such as one that inserts a needle into a container to extract beverage from the container by injecting pressurized gas.

A method of treating an beverage, comprising exposing a beverage to an ion exchange matrix that includes a mixture of cation exchange beads and anion exchange beads each capable of binding to one or more cationic or anionic constituents present in the beverage and thereby reduce concentrations of the one or more cationic or anionic constituents in the beverage and capable of maintaining a pH of the beverage within 0.5 pH units of the beverage's pretreatment pH value. The cationic or anionic constituents have a noxious effect on humans and the cation exchange beads include a cationic mineral form and the anion exchange beads include a chloride mineral form.

A method of treating an beverage, comprising exposing a beverage to an ion exchange matrix that includes a mixture of cation exchange beads and anion exchange beads each capable of binding to one or more cationic or anionic constituents present in the beverage and thereby reduce concentrations of the one or more cationic or anionic constituents in the beverage and capable of maintaining a pH of the beverage within 0.5 pH units of the beverage's pretreatment pH value. The cationic or anionic constituents have a noxious effect on humans and the cation exchange beads include a cationic mineral form and the anion exchange beads include a chloride mineral form.

Methods for using water-soluble salts of fatty acids alone, or in chosen combinations with chelating agents, antifreeze compounds, and water for improving the processing of feed materials including whole grains or finely-divided ingredients, which may contain grain, that are mechanically processed, are described. The fatty acid salts may be added to water or to steam prior to application to feed materials, and may be applied directly to the feed materials, or added to grain conditioners known in the art to improve their performance. Treated feed materials have improved lubricity, and thin, strong durable flakes having less bulk density, and durable hard pellets, may be generated with reduced fines. Addition of an anti-freeze material permits the resulting compositions to remain fluid under freezing conditions, while oxidation or spoilage, may be reduced by adding a chelating agent. The solutions are basic and are non-corrosive.

A variety of potentially harmful substances can be removed from alcoholic and non-alcoholic beverages as well as condiments using a pack that includes a variety of ingredients within a liquid-permeable housing. The pack is immersed in a liquid that needs to be detoxified, with the ingredients binding to the potentially harmful compounds within the liquid, and after a desired period of time, the pack is separated from the liquid, thus removing from the potentially harmful compounds that are bound to the ingredients from the liquid. When combined within a single compartment of the housing, the ingredients display synergy in removing of many of the potentially harmful compounds. However, separation of the ingredients within different compartments of the pack allows to increase removal of tannins from the liquid while still maintaining a high level of removal of other potentially harmful substances.

A variety of potentially harmful substances can be removed from alcoholic and non-alcoholic beverages as well as condiments using a pack that includes a variety of ingredients within a liquid-permeable housing. The pack is immersed in a liquid that needs to be detoxified, with the ingredients binding to the potentially harmful compounds within the liquid, and after a desired period of time, the pack is separated from the liquid, thus removing from the potentially harmful compounds that are bound to the ingredients from the liquid. When combined within a single compartment of the housing, the ingredients display synergy in removing of many of the potentially harmful compounds. Additionally, the packs can be enhanced for removal of particular sets of compounds, such as environmental pollutants, illicit substances, mold and mycotoxins, food additives, and additional alcohol toxins.