The present invention provides a method for preparing a plant derived beverage product or process intermediate, the method including the steps of: providing a crushed or liquefied extract of a plant material, exposing the extract to a size exclusion purification means involving membrane filtration (such as nanofiltration, ultrafiltration, reverse osmosis or cross flow filtration) to provide a beverage product or a process intermediate thereof, wherein the purification means is capable of at least partially separating an undesirable component, from a desirable component. The purification methods may be applied to plant materials to selectively remove various components, while leaving others. This allows for the preparation of custom plant extract beverages.

The present invention provides a method for preparing a plant derived beverage product or process intermediate, the method including the steps of: providing a crushed or liquefied extract of a plant material, exposing the extract to a size exclusion purification means involving membrane filtration (such as nanofiltration, ultrafiltration, reverse osmosis or cross flow filtration) to provide a beverage product or a process intermediate thereof, wherein the purification means is capable of at least partially separating an undesirable component, from a desirable component. The purification methods may be applied to plant materials to selectively remove various components, while leaving others. This allows for the preparation of custom plant extract beverages.

Methods and systems for reducing acrylamide concentration in heat-processed products, and products produced by such methods and systems are provided. The baked products may be sprayed with a riboflavin solution and then irradiated with a UV light source to initiate monomer reactions of acrylamide and reduce the concentration of the acrylamide in the baked product. In addition, riboflavin may be dissolved in heat-processed products, followed by irradiation of the riboflavin-containing heat-processed products with a UV light source to initiate monomer reactions of acrylamide and reduce the concentration of the acrylamide in the baked product.

Methods and systems for reducing acrylamide concentration in heat-processed products, and products produced by such methods and systems are provided. The baked products may be sprayed with a riboflavin solution and then irradiated with a UV light source to initiate monomer reactions of acrylamide and reduce the concentration of the acrylamide in the baked product. In addition, riboflavin may be dissolved in heat-processed products, followed by irradiation of the riboflavin-containing heat-processed products with a UV light source to initiate monomer reactions of acrylamide and reduce the concentration of the acrylamide in the baked product.

The invention relates to the use of an amidohydrolase for preparing foodstuffs or stimulants.

A method and apparatus for oil removal from food surfaces is shown. An air flow chamber directs air flow around a food product surface and contains the removed oil.

The present invention relates to compositions and methods for modulating or detecting allergy in a subject. The invention may be used to reduce allergenicity of compositions, such as food products, or to stimulate immunogenicity of products, such as vaccines by removal of cationic proteins resulting from transcription infidelity. The invention may be used in any mammal such as human.

The present invention contemplates the creation of a low fluoride crustacean oil processed from a phospholipid-protein complex (PPC) formed immediately upon a crustacean (i.e., for example, krill) catch. Further, the crustacean oil may also have reduced trimethyl amine and/or trimethyl amino oxide content. The process comprises disintegrating the crustaceans into smaller particles, adding water, heating the result, adding enzyme(s) to hydrolyze the disintegrated material, deactivating the enzyme(s), removing solids from the enzymatically processed material to reduce fluoride content of the material, separating and drying the PPC material. Then, using extraction with supercritical CO.sub.2 or supercritical dimethyl ether, and/or ethanol as solvents, krill oil, inter alia, is separated from the PPC. In the extraction the krill oil can be separated almost wholly from the feed material.

The present invention relates generally to regeneration of weak base anion exchange resins and more particularly to regeneration using low concentrations of sodium hydroxide and/or sodium carbonate to remove ionic contaminants from the resins.

A method for removing a plastics coating from a block of food, in particular a whole cheese, operates with the following steps: the block of food, in particular the whole cheese with its plastics coating is fed to the method. A laser beam is then directed onto the plastics coating of the block of food. Herein the output of the laser which emits the laser beam is adjusted so that a removal of the plastics coating takes place by separation of a region of the plastics coating and/or by erosion or vaporisation of the plastics coating. A device for removing a plastics coating from a block of food, in particular a whole cheese, comprises a transport apparatus for the block of food and a laser apparatus for applying a laser beam to the block of food.