Disclosed are processes for producing cultured dairy products, such as yogurt, that are shelf-stable without refrigeration. Such processes can include contacting a milk base having from 0.5 to 1.9 wt. % milk sugar with a lactic acid bacteria culture and aseptically packaging in a container, followed by storage under conditions suitable to result in a pH of less than 4.7.

The invention relates to a method of separating components from milk and utilizing the separated components to form blended dairy compositions. The present invention relates to nutritional milk compositions and products which are designed to include per serving size a specified percentage range of one or more components separated from milk. The compositions of the present invention can optionally include non-essential but nutritionally functional components.

The invention relates to a method of separating components from milk and utilizing the separated components to form blended dairy compositions. The present invention relates to nutritional milk compositions and products which are designed to include per serving size a specified percentage range of one or more components separated from milk. The compositions of the present invention can optionally include non-essential but nutritionally functional components.

Disclosed are processes for producing cultured dairy products, such as yogurt, that are shelf-stable without refrigeration. Such processes can include contacting a milk base having from 0.5 to 1.9 wt. % milk sugar with a lactic acid bacteria culture and aseptically packaging in a container, followed by storage under conditions suitable to result in a pH of less than 4.7.

A system and method for the electromagnetic energization of packed content, in which the system includes at least one container filled with at least one fluid, at least one energization element, at least one grounding element, at least one containment element, one or more alignment elements, one or more contact elements, at least one grounding connection element, at least one grounding element, and optionally at least one movement element. Additionally, a corresponding apparatus is provided.

A system and method for the electromagnetic energization of packed content, in which the system includes at least one container filled with at least one fluid, at least one energization element, at least one grounding element, at least one containment element, one or more alignment elements, one or more contact elements, at least one grounding connection element, at least one grounding element, and optionally at least one movement element. Additionally, a corresponding apparatus is provided.

Directly heating a protein-enriched milk product occurs by introducing steam, the direct heating taking the form of an infusion or injection method. The described technique significantly extends service time, ensuring a content of non-denatured whey proteins in the treated protein-enriched milk product greater than that obtained in the prior art. The milk product, which is preheated and kept at temperature is indirectly cooled before direct heating by a recuperative cooling step from the preheating temperature to a cool-down temperature with a temperature difference ranging from 5 K to 10 K. The direct heating from the cool-down temperature to the high pasteurization temperature is controlled by direct heating setting parameters which are known per se. Finally, the milk product is cooled by flash cooling from the high pasteurization temperature to a necessarily required exit temperature.

Functionality is disclosed herein for a pascalization process for food and beverage products, and possibly other materials. The process includes inputting an unprocessed product, pressurizing the unprocessed product to a first pressure to create a pressurized product, holding the pressurized product at the first pressure for a predetermined hold time and depressurizing the pressurized product to a second pressure to create a processed product. The second pressure is less than the first pressure. The process also includes outputting the processed product.

The invention relates to a yeast cream-dosing device and method. According to the invention, the yeast cream is disposed in an interchangeable transport container (20) which is located inside a refrigerating compartment (10), the aforementioned container being connected to an extraction opening (27) by means of an outlet conduit (26) which can be opened and closed by an opening/closing mechanism (30).

The continuous pasteurization system (100) that pasteurizes raw food products (104) while substantially maintaining the raw state of the raw food products includes a conveyor (102) on which the raw food products (104) are loaded for delivery to a pasteurization apparatus 36, wherein the raw food products are quickly heated so that the temperature of the outer surface of the raw food products is raised sufficiently to achieve a desired pathogen kill level. Thereafter, the raw food products (104) are immediately cooled in a cooling apparatus (110) to remove the heat applied to the raw food product and maintain the substantial raw state of the raw food product. A control system (24) is connected to a processor (30) as well as various measuring devices and instruments, including temperature measurement devices (T.sub.1-T.sub.5) to control the operation of the pasteurization system (100).