A heating medium injector includes an injector structure defining a heating medium flow path and a product flow path. The heating medium flow path extends to a contact location along an axis of the injector, while the product flow path also extends to the contact location along the injector axis. The contact location comprises a location at which the heating medium flow path and product flow path merge within the injector. In a region along the injector axis, the product flow path is defined between a first flow surface and a second flow surface. The first flow surface comprises a surface of a boundary wall separating the heating medium flow path from the product flow path and the second flow surface comprises a surface of an opposing second boundary wall. The second flow surface is in substantial thermal communication with a second flow surface cooling structure.

A process method for aseptic canning and an aseptic canning system. The process comprises the following steps: placing a first solid-state food item into a sterilization pot, closing a pot lid of the sterilization pot; warming the interior of the sterilization pot, cooking the first solid-state food item, and sterilizing the first solid-state food item to produce a second solid-state food item; cooling the second solid-state food item in the sterilization pot; and in the aseptic environment within the sterilization pot, placing the cooled solid-state food item into a can and sealing the can. The system applying the process also is provided with a transfer apparatus used for transferring the first solid-state food item and/or the second solid-state food item.

A process method for aseptic canning and an aseptic canning system. The process comprises the following steps: placing a first solid-state food item into a sterilization pot, closing a pot lid of the sterilization pot; warming the interior of the sterilization pot, cooking the first solid-state food item, and sterilizing the first solid-state food item to produce a second solid-state food item; cooling the second solid-state food item in the sterilization pot; and in the aseptic environment within the sterilization pot, placing the cooled solid-state food item into a can and sealing the can. The system applying the process also is provided with a transfer apparatus used for transferring the first solid-state food item and/or the second solid-state food item.

The purpose of the present invention is to provide a food processing system that allows processed food that is sterilized and has a good texture to be identically provided on a large production scale. The food processing system is provided with: a heating unit equipped with a heating mechanism for indirectly heating food; a cooling unit equipped with a cooling mechanism for cooling the food heated by the heating unit; and a transfer unit for transferring the food through the heating unit and the cooling unit. The integrated food processing system according to the present invention allows a large amount of sterilized food having a good texture, good taste and long shelf life to be provided.

The purpose of the present invention is to provide a food processing system that allows processed food that is sterilized and has a good texture to be identically provided on a large production scale. The food processing system is provided with: a heating unit equipped with a heating mechanism for indirectly heating food; a cooling unit equipped with a cooling mechanism for cooling the food heated by the heating unit; and a transfer unit for transferring the food through the heating unit and the cooling unit. The integrated food processing system according to the present invention allows a large amount of sterilized food having a good texture, good taste and long shelf life to be provided.

A thermal processing and control system (300) includes a thermal processing station (312) for receiving food products (14) being carried on a conveyor system (316). A first scanning station (318) is located upstream from the thermal processing station (312) for scanning the food products being carried by the conveyor (316). An actuator (420) automatically connects temperature measuring devices (402) with selected food products (14). A diverter conveyor (324) diverts selected food products (14) from the conveyor (316) to a transverse conveyor (326) for either further processing or alternative processing, depending on how system (300) is configured. The temperature measuring devices (402) are automatically removed from the food products at station (329).

A thermal processing and control system (300) includes a thermal processing station (312) for receiving food products (14) being carried on a conveyor system (316). A first scanning station (318) is located upstream from the thermal processing station (312) for scanning the food products being carried by the conveyor (316). An actuator (420) automatically connects temperature measuring devices (402) with selected food products (14). A diverter conveyor (324) diverts selected food products (14) from the conveyor (316) to a transverse conveyor (326) for either further processing or alternative processing, depending on how system (300) is configured. The temperature measuring devices (402) are automatically removed from the food products at station (329).

The invention relates to a method to manufacture meat-based matrices and the matrices obtained thereof useful as bait for ant control. The method of the invention comprises (a) cleaning and mincing or slicing meat; (b) cooking the meat; (c) dewatering the meat; (d) grinding and sifting the meat to obtain meat particles; and (e) adding sugar and a preservative. Additionally, a nitrate source and an active ingredient can be incorporated into the matrices.

Some food pathogens are not well controlled by lethality treatments followed by refrigeration. A food processing facility according to this invention reduces the likelihood that food pathogens will be able to enter the food processing facility, or spread should they be able to enter. The food processing facility is divided into a plurality of area, with different areas having different allowed actions that can be taken on the food product, different rules and/or procedures for persons who are allowed entry, and/or different levels of cleanliness. The food processing facility includes a plurality of separate rooms for processing the food product, each including separate food processing machines, air handling systems, drain systems and/or often-used supplies and tools. Different air pressures within different areas limit the possible movement of airborne food pathogens. Sanitizing stations are placed between various ones of the different areas.

The purpose of the present invention is to provide a food processing system that allows processed food that is sterilized and has a good texture to be identically provided on a large production scale. The food processing system is provided with: a heating unit equipped with a heating mechanism for indirectly heating food; a cooling unit equipped with a cooling mechanism for cooling the food heated by the heating unit; and a transfer unit for transferring the food through the heating unit and the cooling unit. The integrated food processing system according to the present invention allows a large amount of sterilized food having a good texture, good taste and long shelf life to be provided.