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, while the product flow path also extends to the contact location. The contact location comprises a location at which the heating medium flow path and product flow path merge within the injector. A mixture flow path is defined within the injector structure between the contact location and an injector outlet of the injector structure and is defined at least in part by a mixture flow path outer surface comprising a mixture flow path wall. A cooling structure extends along both a product flow path boundary wall and the mixture flow path wall so as to traverse a plane extending transverse to the foodstuff flow path at the contact location.

An article includes a heating medium injector, a mixture flow path, and a vacuum chamber. The heating medium injector has a heating medium path connected to receive a heating medium such as steam and a product path connected to receive undenatured meat protein. The heating medium injector also includes a mixing structure and a mixture outlet. The mixing structure comprises a structure within the heating medium injector at which the heating medium path and product path merge and the mixture outlet is connected to receive material from the mixing structure. The mixture flow path defines a mixture flow path volume and is connected at one end to the mixture outlet of the heating medium injector and at the opposite end to the vacuum chamber. Undenatured meat protein is contained within the vacuum chamber outside of the mixture flow path volume.

An article includes a heating medium injector, a mixture flow path, and a vacuum chamber. The heating medium injector has a heating medium path connected to receive a heating medium such as steam and a product path connected to receive undenatured meat protein. The heating medium injector also includes a mixing structure and a mixture outlet. The mixing structure comprises a structure within the heating medium injector at which the heating medium path and product path merge and the mixture outlet is connected to receive material from the mixing structure. The mixture flow path defines a mixture flow path volume and is connected at one end to the mixture outlet of the heating medium injector and at the opposite end to the vacuum chamber. Undenatured meat protein is contained within the vacuum chamber outside of the mixture flow path volume.

A transporting element for accommodating and for transporting spherical, cylindrical or egg-shaped articles, in particular foodstuffs, in particular eggs, along a conveying route, has a plurality of mounts arranged one beside the other along the longitudinal extent. The transporting element is designed in the form of a channel-like body with an accommodating space curved in the form of part of a circle, as seen in cross section, and encloses an angle of at least 180. The mounts are designed in the form of slot-form apertures in that region of the channel-like body that is curved in the form of part of a circle. The apertures extending parallel to one another, and transversely to the longitudinal extent of the channel-like body, as far as longitudinal crosspieces on either side, these forming a respective longitudinal periphery.

An in-line shell egg pasteurizer has a clean-in-place system. Empty shell egg carriers are placed in the water bath for multiple cleaning cycles. The cleaning solution level is lowered to expose the shell egg carriers and the top parts of the water bath walls. An air perturbation is used to agitate cleaning solution held in the bottom of the water bath and clean heating coils and other components located in the bottom of the water bath. Sprayers (e.g., nozzles, cleaning spray balls, etc . . . ) mounted on a hood over the water bath clean the top parts of the water bath walls and the empty shell egg carriers placed in the water bath.

An apparatus and method for cooking at least one egg with an eggshell The apparatus comprises a housing provided with a device for providing microwave radiation in a confined space in the housing and a holder located in the confined space. The holder is provided with at least one cavity adapted to the shape of the egg with the eggshell. The apparatus further comprises means to insert a liquid into the holder for filling the cavity with the liquid to at least partly surround the eggshell of the egg located in the cavity. The apparatus comprises also means to control the amount of liquid in the holder during a cooking process of the at least one egg, wherein: a first amount of liquid is inserted into the cavity before providing microwave radiation in the cavity, which first amount of liquid surrounds the eggshell of the egg located in the cavity; a second amount of liquid is gradually inserted into the cavity.

An in-line shell egg pasteurizer has a clean-in-place system. Empty shell egg carriers are placed in the water bath for multiple cleaning cycles. The cleaning solution level is lowered to expose the shell egg carriers and the top parts of the water bath walls. An air perturbation is used to agitate cleaning solution held in the bottom of the water bath and clean heating coils and other components located in the bottom of the water bath. Sprayers (e.g., nozzles, cleaning spray balls, etc . . . ) mounted on a hood over the water bath clean the top parts of the water bath walls and the empty shell egg carriers placed in the water bath.

A method for decontaminating articles having porous outer surfaces. The method includes providing a decontamination chamber; conveying the articles through the decontamination chamber at a predetermined speed wherein the speed is selected such that the articles are disposed in the decontamination chamber for a predetermined period of time; providing a source of sterliant vapor, the source providing the sterilant vapor at a temperature within a predetermined acceptable temperature range and at a concentration within a predetermined acceptable concentration range; conveying a sterilant vapor from the source of sterilant vapor to the decontamination chamber; and exposing the articles to the sterilant vapor. The predetermined period of time and the predetermined acceptable concentration range of the sterilant vapor are selected such that the sterilant vapor does not penetrate the porous outer surfaces of the articles.

A method for decontaminating articles having porous outer surfaces. The method includes providing a decontamination chamber; conveying the articles through the decontamination chamber at a predetermined speed wherein the speed is selected such that the articles are disposed in the decontamination chamber for a predetermined period of time; providing a source of sterliant vapor, the source providing the sterilant vapor at a temperature within a predetermined acceptable temperature range and at a concentration within a predetermined acceptable concentration range; conveying a sterilant vapor from the source of sterilant vapor to the decontamination chamber; and exposing the articles to the sterilant vapor. The predetermined period of time and the predetermined acceptable concentration range of the sterilant vapor are selected such that the sterilant vapor does not penetrate the porous outer surfaces of the articles.

A method for manufacturing a shelf-stable food product is provided. The method may include providing an egg base, providing a hydrocolloid set, providing a fat, homogenizing the egg base with at least the hydrocolloid set and the fat into a batter, sealing a batter portion of the batter into a container, and heating the container. The egg base may have a first ratio of egg white solids to egg yolk solids within a range of 2.25:1 and 4.75:1. A shelf-stable food product made by disclosed methods is also provided. The shelf-stable food product may be enclosed with heat resistant packaging.