Heat-treated, shelf-stable liquid nutritional compositions comprising whey protein and non-whey protein, and methods of producing and using these compositions. The compositions have a pH of from about 6.0 to about 8.0, a total protein content of at least about 6 g per 100 mL of the composition. The whey protein comprises or is provided by an ingredient that comprises heat-denaturable protein of which at least about 55% is present in a denatured state, and the non-whey protein comprises or consists of casein, or one or more non-dairy proteins, or casein and one or more non-dairy proteins.

Heat-treated, shelf-stable liquid nutritional compositions comprising whey protein and non-whey protein, and methods of producing and using these compositions. The compositions have a pH of from about 6.0 to about 8.0, a total protein content of at least about 6 g per 100 mL of the composition. The whey protein comprises or is provided by an ingredient that comprises heat-denaturable protein of which at least about 55% is present in a denatured state, and the non-whey protein comprises or consists of casein, or one or more non-dairy proteins, or casein and one or more non-dairy proteins.

A sterile filling method for an additive product container defining a product chamber adapted for containing an additive product can include forcing a first gas at a first temperature into the product chamber over a first threshold period to heat the product chamber to a first threshold temperature, such as to sterilize the product chamber. The sterile filling method can further include dispensing the additive product at a second temperature into the product chamber, sealing the product chamber; and, rotating the additive product container from a first position to a second position, such as to bring the additive product into contact with a sealing member sealing the product chamber.

A sterile filling method for an additive product container defining a product chamber adapted for containing an additive product can include forcing a first gas at a first temperature into the product chamber over a first threshold period to heat the product chamber to a first threshold temperature, such as to sterilize the product chamber. The sterile filling method can further include dispensing the additive product at a second temperature into the product chamber, sealing the product chamber; and, rotating the additive product container from a first position to a second position, such as to bring the additive product into contact with a sealing member sealing the product chamber.

The present invention pertains to a new packaged, heat-treated beverage preparation having a pH in the range of 5.5-8.0. The invention furthermore relates to a method of producing a packaged, heat-treated beverage preparation and to different uses of the packaged heat-treated beverage preparation.

The present invention pertains to a new packaged, heat-treated beverage preparation having a pH in the range of 5.5-8.0. The invention furthermore relates to a method of producing a packaged, heat-treated beverage preparation and to different uses of the packaged heat-treated beverage preparation.

A method for preparing a filtered beverage includes filtering a raw beverage using a cross-flow ultrafiltration device to produce a solids fraction and a liquid fraction; heating the solids fraction to a temperature of 60 C. or greater to produce a pasteurized solids fraction; microfiltering the liquid fraction through a microfilter having a size cut-off of 1 m or smaller to produce a microfiltered liquid fraction; and combining the pasteurized solids fraction and the microfiltered liquid fraction to result in the filtered beverage.

A method for preparing a filtered beverage includes filtering a raw beverage using a cross-flow ultrafiltration device to produce a solids fraction and a liquid fraction; heating the solids fraction to a temperature of 60 C. or greater to produce a pasteurized solids fraction; microfiltering the liquid fraction through a microfilter having a size cut-off of 1 m or smaller to produce a microfiltered liquid fraction; and combining the pasteurized solids fraction and the microfiltered liquid fraction to result in the filtered beverage.

A method for preparing a filtered beverage includes filtering a raw beverage using a cross-flow ultrafiltration device to produce a solids fraction and a liquid fraction; heating the solids fraction to a temperature of 60 C. or greater to produce a pasteurized solids fraction; microfiltering the liquid fraction through a microfilter having a size cut-off of 1 m or smaller to produce a microfiltered liquid fraction; and combining the pasteurized solids fraction and the microfiltered liquid fraction to result in the filtered beverage.

A method for preparing a filtered beverage includes filtering a raw beverage using a cross-flow ultrafiltration device to produce a solids fraction and a liquid fraction; heating the solids fraction to a temperature of 60 C. or greater to produce a pasteurized solids fraction; microfiltering the liquid fraction through a microfilter having a size cut-off of 1 m or smaller to produce a microfiltered liquid fraction; and combining the pasteurized solids fraction and the microfiltered liquid fraction to result in the filtered beverage.