A system for processing a raw juice feed to produce a final juice, and a method of using same, wherein the final juice has an extended shelf life while preserving many, if not all, of the desirable characteristics of freshly-squeezed juices including, but not limited to, the flavor, the mouthfeel, and aroma, without the need to include additives such as flavor and aroma packs. Advantageously, the final juice obtained using the method and system described herein can be stored at room temperature for at least 60 days and still retain the flavor of fresh juice, while still being sterile or having a reduced bioburden.

A system for processing a raw juice feed to produce a final juice, and a method of using same, wherein the final juice has an extended shelf life while preserving many, if not all, of the desirable characteristics of freshly-squeezed juices including, but not limited to, the flavor, the mouthfeel, and aroma, without the need to include additives such as flavor and aroma packs. Advantageously, the final juice obtained using the method and system described herein can be stored at room temperature for at least 60 days and still retain the flavor of fresh juice, while still being sterile or having a reduced bioburden.

A method of making a beverage includes adding one or more other ingredients to hydrolyzed protein to form the beverage, which is clear, shelf-stable, and high protein and has a neutral pH and an energy content of at least about 100 kcal per 240 ml of the beverage. Optionally the hydrolyzed protein is obtained by subjecting protein to a protease. In some embodiments, the high protein is at least about 15 g or at least about 20 g of protein/100 kcal, and in some embodiments the energy content is at least about 150 kcal/240 ml or at least about 200 kcal/240 ml. Other aspects are directed to the resultant beverage, a method of producing a high protein beverage containing hydrolyzed protein, a method of increasing transparency in a high protein beverage containing hydrolyzed protein, and a method of providing nutrition to an individual.

A method of making a beverage includes adding one or more other ingredients to hydrolyzed protein to form the beverage, which is clear, shelf-stable, and high protein and has a neutral pH and an energy content of at least about 100 kcal per 240 ml of the beverage. Optionally the hydrolyzed protein is obtained by subjecting protein to a protease. In some embodiments, the high protein is at least about 15 g or at least about 20 g of protein/100 kcal, and in some embodiments the energy content is at least about 150 kcal/240 ml or at least about 200 kcal/240 ml. Other aspects are directed to the resultant beverage, a method of producing a high protein beverage containing hydrolyzed protein, a method of increasing transparency in a high protein beverage containing hydrolyzed protein, and a method of providing nutrition to an individual.

The present invention provides processes for producing food products, particularly juice beverages, with reduced sugar content enriched with dietary fibers and the food products produced. The processed food products are low in calories while preserving the palatable test of the starting material, and contain beneficial amount of dietary fibers. The processed food product further contains sorbitol and gluconic acid.

The present invention provides processes for producing food products, particularly juice beverages, with reduced sugar content enriched with dietary fibers and the food products produced. The processed food products are low in calories while preserving the palatable test of the starting material, and contain beneficial amount of dietary fibers. The processed food product further contains sorbitol and gluconic acid.

The present invention relates to a drinking product of vitamin D-fortified mineral water. The present invention further relates to methods of preparing packaged drinking product of the vitamin D-fortified water with minerals and/or natural mineral water, wherein the method essentially comprises water treatment, re-mineralization, ozonation, vitamin D dosing, and mineralization.

Quality stabilization and production efficiency in concentrated juice are provided by continuously concentrating juice simultaneously or parallelly with an enzymatic process. The method includes adding enzyme, concentrating and enzymatically processing, heating, cooling, and packing. The concentrating and enzymatically processing are done simultaneously or parallelly. The enzymatically processing is done during the concentrating. The enzyme is reacted while the vegetable juice or the fruit juice is being concentrated.

Quality stabilization and production efficiency in concentrated juice are provided by continuously concentrating juice simultaneously or parallelly with an enzymatic process. The method includes adding enzyme, concentrating and enzymatically processing, heating, cooling, and packing. The concentrating and enzymatically processing are done simultaneously or parallelly. The enzymatically processing is done during the concentrating. The enzyme is reacted while the vegetable juice or the fruit juice is being concentrated.

A composition including a. a spirulina-extract having phycocyanin, b. at least one multi-sulphated carrageenan and c. water wherein the amount of the phycocyanin is between 0.5 and 50 wt % DM, wherein the amount of the at least one multi-sulphated carrageenan is between 1 and 80 wt % DM, wherein the amount of the water is between 0.1 and 60 wt %, wherein the wt % ratio of carrageenan to phycocyanin ranges between 1:1 and 20:1, wherein the wt % DM are relative to the weight of the dry matter of the composition, and wherein wt % is relative to the total weight of the composition. A foodstuff containing the above composition.