A process for processing animal protein product involves providing a meat product in a raw state having a core temperature of 32-34° F., slicing the meat product into a plurality of meat slices that are 1.0-9.0 mm thick, vacuum sealing a stack of the meat slices within a pouch with the meat slices of the stack stacked together in direct meat-to-meat contact, and cooking the vacuum sealed meat slices of the stack stacked together such that, during the cooking, the cut faces of the meat slices of the stack remain in contact with one another to essentially maintain the size and entire outer surface shape of the stack of meat slices to have the size and entire outer surface shape of the entirety of the meat forming the stack prior to the slicing.

A control method for operating a cooking oven in a deep-frying program which is configured for a predetermined set temperature is disclosed, wherein the cooking oven has an oven cavity, a tray arranged within the oven cavity, a bottom heating element for heating the bottom of the cavity, a fan located at the rear wall of the cavity, and a ring heating element surrounding the fan. The method comprises the following stages: (a) a heat-up phase in which the ring heating element is continuously operated and the bottom heating element is intermittently operated, the heat-up phase being conducted until reaching a temperature of the oven cavity which corresponds to the set temperature plus a predetermined first hysteresis; (b) a subsequent holding phase in which the bottom heating element and the ring heating element are non-operative; and (c) a frying phase conducted upon reaching a temperature within the oven cavity which corresponds to the set temperature minus a predetermined second hysteresis, the frying phase comprising continuously or intermittently operating the ring heating element, and intermittently operating the bottom heating element so as to raise the temperature within the oven cavity to a temperature which corresponds to the set temperature plus a predetermined third hysteresis.

A connected oven, including a set of in-cavity sensors and a processor configured to automatically identify foodstuff within the cooking cavity, based on the sensor measurements; and automatically operate the heating element based on the foodstuff identity.

Disclosed herein is a cooking system for cooking food, the system including a housing having a hollow interior, a lid movable relative to the housing, at least one heating element associated with one of the housing and the lid, wherein the cooking system is operable in a plurality of modes including a conductive cooking mode and a convective cooking mode, wherein in the conductive cooking mode the cooking system is operable as a conductive cooker and in the convective cooking mode the cooking system is operable as a convection cooker.

Disclosed herein is a cooking system for cooking food, the system including a housing having a hollow interior, a lid movable relative to the housing, at least one heating element associated with one of the housing and the lid, wherein the cooking system is operable in a plurality of modes including a conductive cooking mode and a convective cooking mode, wherein in the conductive cooking mode the cooking system is operable as a conductive cooker and in the convective cooking mode the cooking system is operable as a convection cooker.

Air-based fryer including a food preparation chamber including an outer wall, an inner wall defining a food receiving space with an air inlet and an air discharge opening, and a circulation channel defined between the outer wall and the inner wall. The fryer includes an air heater for heating air in the food preparation chamber, a fan for moving a flow of hot air successively through the air inlet, the food receiving space, the discharge opening, and the channel. The fryer includes a steam generator including at least one nozzle extending into the food receiving space for spraying temperature-controlled steam onto the food; and a controller adapted to control the steam generator to spray steam to food placed in the food receiving space for a first predetermined period, and to control the air heater and the fan to circulate hot air to the food for a subsequent second predetermined period.

An impingement oven (40) includes an upper housing structure (46) forming the exterior of the upper half of the impingement oven and a lower housing structure (48) to mate with the upper housing structure. An interior impingement housing (62) is positioned interior to the upper and lower housing structures (46) and (48). A conveyor (60) extends through the interior impingement housing (62). The inside surfaces of the upper and lower housing structures (46) and (48) cooperate with the interior impingement housing (62) to define upright supply chambers (80a) and (80b) on opposite sides of the impingement oven to direct cooking medium downwardly upon the work products being carried by the conveyor and also upwardly through the porous belt of the conveyor, thereby to thermally process the work products being carried on the conveyor.

Disclosed herein is a cooking system for cooking food, the system including a housing defining a hollow chamber configured to receive a food container. The housing has an upper portion defining an opening to the hollow chamber. A food container having a hollow container interior is positionable within the hollow chamber. An end of the food container extends above the upper portion of the housing when the container is installed within the hollow chamber. A lid is moveably attached to the housing and is moveable between a first position that covers the upper portion of the housing and the opening to the hollow chamber when the food container is installed within the hollow chamber and a second position where the lid does not cover the opening to the hollow chamber. At least one heating element is associated with at least one of said lid and said housing.

A connected oven, including a set of in-cavity sensors and a processor configured to automatically identify foodstuff within the cooking cavity, based on the sensor measurements; and automatically operate the heating element based on the foodstuff identity.

Disclosed herein is a cooking system for cooking food, the system including a housing defining a hollow chamber configured to receive a food container. The housing has an upper portion defining an opening in said hollow chamber. A first lid is connectable to the housing. When the first lid is connected to the housing, the first lid has a first position where the lid is in contact with said upper portion of the housing. A second lid is connectable to the housing. When the second lid is connected to the housing, the second lid is in contact with the upper portion of the housing. The first lid and the second lid are simultaneously contactable with the upper portion of the housing so that each of the first lid and the second lid are in contact with the upper portion of the housing.