A system and a method for irradiating an object and potentially for controlling the irradiation or other conditions relating to an effect of the irradiation. A sensor is translated along a longitudinal direction of the radiation emitter and in a space between the radiation emitter and the objects irradiated to arrive at information relating to a parameter relating to the effect of the irradiation, such as the radiation, and derived in the space between the radiation emitter and the objects irradiated. Calibrating the sensor readings and adjusting the radiating emitter output, thereby controlling the irradiation.

A process for heating articles includes sequentially passing loaded carriers in a continuous manner through a first processing section and sequentially passing said plurality of loaded carriers in an incremental manner through a second processing section using an incremental convey segment. The incremental convey segment includes sequential carrier-receiving slots, each carrier-receiving slot configured to receive one of the loaded carriers. The incremental convey segment is further configured to be move incrementally at multiples of discrete intervals corresponding to the carrier-receiving slots. The process further includes sequentially passing the loaded carriers in a continuous manner through a third processing section and heating articles supported by the carriers with microwave energy in at least one of the processing sections, the heating of the articles occurring while the articles are at least partially submerged in a liquid bath and at an pressure greater than atmospheric pressure.

A process for heating articles includes sequentially passing loaded carriers in a continuous manner through a first processing section and sequentially passing said plurality of loaded carriers in an incremental manner through a second processing section using an incremental convey segment. The incremental convey segment includes sequential carrier-receiving slots, each carrier-receiving slot configured to receive one of the loaded carriers. The incremental convey segment is further configured to be move incrementally at multiples of discrete intervals corresponding to the carrier-receiving slots. The process further includes sequentially passing the loaded carriers in a continuous manner through a third processing section and heating articles supported by the carriers with microwave energy in at least one of the processing sections, the heating of the articles occurring while the articles are at least partially submerged in a liquid bath and at an pressure greater than atmospheric pressure.

A process for heating articles in a heating system includes passing an article in a carrier through a heating chamber that is at least partially filled with a liquid medium to form a liquid bath. The process further includes heating the article in the carrier by at least partially submerging the article into the liquid bath during heating, the heating being performed, at least in part, using microwave energy. The process further includes one or more of adding fluid into and removing fluid from at least one location in the heating chamber to maintain a temperature profile across the heating chamber. In one implementation, the temperature of the liquid bath at an inlet area of the heating chamber is at least 10° C. cooler than a temperature of the liquid bath at an outlet area of the heating chamber.

A process for heating articles in a heating system includes passing an article in a carrier through a heating chamber that is at least partially filled with a liquid medium to form a liquid bath. The process further includes heating the article in the carrier by at least partially submerging the article into the liquid bath during heating, the heating being performed, at least in part, using microwave energy. The process further includes one or more of adding fluid into and removing fluid from at least one location in the heating chamber to maintain a temperature profile across the heating chamber. In one implementation, the temperature of the liquid bath at an inlet area of the heating chamber is at least 10° C. cooler than a temperature of the liquid bath at an outlet area of the heating chamber.

Systems and methods for processing a product. The methods comprise: receiving the product in a vacuum chamber, the product enclosed within a first packaging item having at least a portion that is semi-permeable under vacuum conditions; introducing a reagent into the vacuum chamber (the reagent comprising a combination of a sterilization substance for sterilizing the product and a preservation substance for preserving a sterilization state of the product); causing the reagent to pass through the portion of the first packaging item that is semi-permeable such that a sterilization of the product by the sterilization substance occurs concurrently with a modification of an internal atmospheric condition within the first packaging item by the preservation substance; and preserving the sterilized state of the product via the modified internal atmospheric condition of the first packaging.

Systems and methods for processing a product. The methods comprise: receiving the product in a vacuum chamber, the product enclosed within a first packaging item having at least a portion that is semi-permeable under vacuum conditions; introducing a reagent into the vacuum chamber (the reagent comprising a combination of a sterilization substance for sterilizing the product and a preservation substance for preserving a sterilization state of the product); causing the reagent to pass through the portion of the first packaging item that is semi-permeable such that a sterilization of the product by the sterilization substance occurs concurrently with a modification of an internal atmospheric condition within the first packaging item by the preservation substance; and preserving the sterilized state of the product via the modified internal atmospheric condition of the first packaging.

A container includes a metal end applied and sealed to an all-thermoplastic container body by a crimp-seaming or double-seaming operation. The metal end has an outer curl joined to a chuck wall that extends down from the curl. One or both of the inner surface of the container side wall and the outer surface of the chuck wall has/have a heat-sealable material thereon. The metal end is crimp-seamed or double-seamed to the container body and the heat-sealable material(s) are heated to soften or melt such that the interface between the chuck wall and the side wall is fused. The interface is oriented along a direction relative to internal pressure exerted on the metal end such that stress on the interface caused by the internal pressure is predominantly shear stress.

A container includes a metal end applied and sealed to an all-thermoplastic container body by a crimp-seaming or double-seaming operation. The metal end has an outer curl joined to a chuck wall that extends down from the curl. One or both of the inner surface of the container side wall and the outer surface of the chuck wall has/have a heat-sealable material thereon. The metal end is crimp-seamed or double-seamed to the container body and the heat-sealable material(s) are heated to soften or melt such that the interface between the chuck wall and the side wall is fused. The interface is oriented along a direction relative to internal pressure exerted on the metal end such that stress on the interface caused by the internal pressure is predominantly shear stress.

An apparatus for thermally processing food products in sealed packages comprises heating/cooling chambers with an endless conveyor guided through them with product carriers connected thereto. Each product carrier 10 comprises insertion spaces 17 for packages 27 to be placed in. A side wall 11 of the carrier 10 comprises slits 20 which open out towards insertion openings of the respective insertion spaces 17. Operating members are provided which comprise load bearing organs 32 with operable holding means 33 for picking up and carrying packages 27. The load bearing organs 32 are movable in an insertion direction x while projecting through the slits 20 during placing of packages 27 into the insertion spaces 17.