An object is to provide a novel saccharide-reduced fruit beverage having an improved flavor and a method for producing the same. According to the present invention, provided is a fruit beverage in which a ratio (saccharide concentration-to-acidity ratio) of a saccharide concentration to an acidity is 0.92 or less with respect to a saccharide concentration-to-acidity ratio of a straight fruit juice, the fruit beverage including: one or more carbohydrate components selected from the group consisting of starch, a starch decomposition product, and trehalose, and a method for producing the fruit beverage of the present invention, the method including: adding the carbohydrate components to a saccharide-reduced fruit juice.

The invention relates to a plant (1, 42, 53, 56) for pasteurizing foodstuffs/beverages in containers by way of a process liquid (13), having: at least one heating zone (6, 7), pasteurizing zone (8-10) and cooling zone (11, 12), wherein each of said zones is assigned a sprinkling device (14-20) for discharging the process liquid and a collecting region (23-29) for receiving the discharged process liquid, a first heat exchanger (31) which feeds heat from a heat source (32) to the process liquid from a collecting region of the at least one pasteurizing zone and which, for this purpose, has a line connection to said collecting region and to inlets to sprinkling devices of the at least one heating zone via a pressure-closed heating line system (95), a second heat exchanger (30) which is coupled to a cooling system in order to cool the process liquid from the collecting region of the at least one cooling zone and which, for this purpose, has a line connection to said collecting region and to inlets to sprinkling devices of the at least one cooling zone via a pressure-closed cooling line system (96), wherein the process liquid can additionally be fed heat in the heating line system by means of a condenser (37) of a heat pump (35), and the process liquid can additionally be cooled in the cooling line system by means of an evaporator (39).

The invention relates to a plant (1, 42, 53, 56) for pasteurizing foodstuffs/beverages in containers by way of a process liquid (13), having: at least one heating zone (6, 7), pasteurizing zone (8-10) and cooling zone (11, 12), wherein each of said zones is assigned a sprinkling device (14-20) for discharging the process liquid and a collecting region (23-29) for receiving the discharged process liquid, a first heat exchanger (31) which feeds heat from a heat source (32) to the process liquid from a collecting region of the at least one pasteurizing zone and which, for this purpose, has a line connection to said collecting region and to inlets to sprinkling devices of the at least one heating zone via a pressure-closed heating line system (95), a second heat exchanger (30) which is coupled to a cooling system in order to cool the process liquid from the collecting region of the at least one cooling zone and which, for this purpose, has a line connection to said collecting region and to inlets to sprinkling devices of the at least one cooling zone via a pressure-closed cooling line system (96), wherein the process liquid can additionally be fed heat in the heating line system by means of a condenser (37) of a heat pump (35), and the process liquid can additionally be cooled in the cooling line system by means of an evaporator (39).

A beverage comprising water, phycocyanin and having a heavy metals content below a threshold amount, the beverage having a pH within a certain range and a minimum acceptable shelf life, by optimizing the steps in the production of the beverage, but without adding many chemical substances and without carrying out harsh chemical treatment on the natural substances. By the combined use of a phycocyanin obtained, for example, by ultrafiltration or by treatment under pressure, with sterile demineralized water, and mixing the other components separately from the bacteria and other contaminants, in an aseptic environment, it is possible to provide a beverage that has nutraceutical effects, with low heavy metals content, at a suitable pH, and with an extended shelf life.

A beverage comprising water, phycocyanin and having a heavy metals content below a threshold amount, the beverage having a pH within a certain range and a minimum acceptable shelf life, by optimizing the steps in the production of the beverage, but without adding many chemical substances and without carrying out harsh chemical treatment on the natural substances. By the combined use of a phycocyanin obtained, for example, by ultrafiltration or by treatment under pressure, with sterile demineralized water, and mixing the other components separately from the bacteria and other contaminants, in an aseptic environment, it is possible to provide a beverage that has nutraceutical effects, with low heavy metals content, at a suitable pH, and with an extended shelf life.

Disclosed is a curcumin nanoparticle, including curcumin as core material and a wall material, where a weight ratio of the curcumin to the wall material is (5.5-7.5):100, and the wall material includes gum arabic and zein in a weight ratio of (1-5):5. The disclosure further provides a method of making the curcumin nanoparticle and a curcumin beverage containing the curcumin nanoparticle.

Disclosed is a curcumin nanoparticle, including curcumin as core material and a wall material, where a weight ratio of the curcumin to the wall material is (5.5-7.5):100, and the wall material includes gum arabic and zein in a weight ratio of (1-5):5. The disclosure further provides a method of making the curcumin nanoparticle and a curcumin beverage containing the curcumin nanoparticle.

In a method for producing a beverage for human consumption which is filled into a container and which contains at least one portion of at least one flavor carrier containing an organic material and/or a material of organic origins, the flavor carrier portion is dipped in a dip solution containing water, ascorbic acid, a first group, and, if provided, a second group, namely 74% to 98% of water, 0.5% to 5% of ascorbic acid, 0.5 to 2% of the first group, and 0% to 19% of the second group, for at least 15 seconds, then combined with a liquid containing water, ascorbic acid, and, if provided, the aforementioned second group, namely 70% to 98% of water, 2% to 5% of ascorbic acid, and 0% to 25% of the second group, in the container, and the storage life of the composition is influenced thermally or by use of high-pressure pasteurization.

A high temperature food treatment method is disclosed wherein by alternatingly operating between a first final heater (13) and second final heater (23) arranged in parallel on a food processing line (30, 40, 50), it is possible to operate a continuous process, yet significantly reducing the overall downtime of the processing line (30, 40, 50), by performing a cleaning in place process on the final heater (13, 23), not currently being used in the high temperature food treatment process, thereby eliminating or significantly reducing the influence on the processing line (30, 40, 50) downtime by the process elements and/or processing equipment most easily contaminated.

A high temperature food treatment method is disclosed wherein by alternatingly operating between a first final heater (13) and second final heater (23) arranged in parallel on a food processing line (30, 40, 50), it is possible to operate a continuous process, yet significantly reducing the overall downtime of the processing line (30, 40, 50), by performing a cleaning in place process on the final heater (13, 23), not currently being used in the high temperature food treatment process, thereby eliminating or significantly reducing the influence on the processing line (30, 40, 50) downtime by the process elements and/or processing equipment most easily contaminated.