A combination cooking system and methods for cooking having a simplified venting structure are provided. In one embodiment, the cooking system can include a housing having a hollow chamber for receiving food, a lid coupled to the housing for enclosing food within the chamber, and at least one heating element. In use, a seal disposed between the lid and housing can be selectively removed to create an air gap there between, thus providing a simplified method for venting air within the housing and thereby enabling the system to operate in different cooking modes. A locking element for locking the lid relative to the housing and/or an adjustable vent can also be selectively used to control venting within the system to enable the system to operate in different cooking modes.

Systems and methods for cutting and cooking a substance are disclosed. Exemplary implementations may: convey, via a primary conveying subsystem, a layer of food substance along a conveyance path along which the layer of food substance is conveyed; cut, via a cutter, the layer of food substance into food pieces; apply, via a primary pressurized fluid outlet, primary pressurized fluid such that the food pieces are released from the cutter; heat, via the heating mechanism, a chamber; apply, via a secondary pressurized fluid outlet, secondary pressurized fluid so that the food pieces are held flat to the primary conveying substrate, and hold, via a secondary conveying subsystem, the layer of food substance flat between the primary conveying substrate and a secondary conveying substrate for at least a portion of the chamber.

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.

The proposed invention includes an extruder apparatus (1) for a minced meat product with a distribution chamber (10) provided with an inlet opening (11) and with multiple outlet openings (12) of identical section, each one in communication with an extruder head (50) through a distribution duct (40) to produce the extrusion on a conveyor surface (2) movable through an air treatment unit (60), wherein each extruder head is connected to one of the distribution ducts and comprises a cutting device including a plunger inserted in the extruder head movable from an extruding position, in which the plunger does not interfere with the connection with the distribution duct, to a cutting position in which the plunger completely blocks said connection and in which the plunger reaches or goes beyond an extruding opening of the duct to eject all of the extruded meat product from the interior of the duct.

This specification discloses thermally inhibited waxy cassava starches and edible compositions made therefrom. In one aspect edible compositions have improved creaminess compared to prior art starches, independent of starch usage level and the viscosity provided by the starch. In an embodiment the edible composition comprises between 0.1% and 35.0% by weight. In various embodiments the thermally inhibited waxy cassava starch has a peak viscosity of between about 100, and 2000 Brabender units or between 500 and 1500 Brabender Units.

The Accelerated Slow Roasting Apparatus is a device for slow-and-low cooking a whole previously butterflied-prepared animal carcass comprising a closed cooking chamber with a plurality of adjustable air vents arranged on the bottom edge of the cooking chamber and a plurality of adjustable opening vents on a vertical side of the lid of the cooking chamber, and a slide out cooking grate with adjustable rails to support the grate while out of the cooking apparatus, a plurality of removable cooking fuel trays, wherein the cooking grate is positioned between twenty-five and forty centimeters above the cooking fuel trays to enable a flame-flare-up free, time-accelerated, slow-and-low cooking of the animal carcass in half, or less than half, of the traditional sixteen to twenty-two hours cooking time.

A method includes inserting a food item into an inner volume of a thermal container. A liquid circulating through a liquid jacket at least partially surrounding and fluidically isolated from the inner volume of the thermal container is cooled such that thermal energy from the food item is transferred to the cooled liquid. After the cooling, thermal energy from a first heating element is transferred to the liquid circulating through the liquid jacket such that thermal energy from the heated liquid is transferred to the food item. Thermal energy from a second heating element is transferred to the food item in response to a criterion being satisfied. The second heating element is different from the first heating element and is disposed in the inner volume of the thermal container.

An example oven can include: a main body with a cooking cavity; a front portion of the main body having a front opening for receiving a pizza and acting as an air vent; a wood burning tray assembly including a grate positioned in the main body; and a gas burner positioned adjacent to the wood burning tray assembly; wherein the gas burner is configured to combust a gas to heat the cooking cavity; and wherein the gas burner is positioned to ignite wood on the grate of the wood burning tray assembly to further heat the cooking cavity.

Systems and methods for cutting and cooking a substance are disclosed. Exemplary implementations may: convey, via a primary conveying subsystem, a layer of food substance along a conveyance path along which the layer of food substance is conveyed; cut, via a cutter, the layer of food substance into food pieces; apply, via a primary pressurized fluid outlet, primary pressurized fluid such that the food pieces are released from the cutter; heat, via the heating mechanism, a chamber; apply, via a secondary pressurized fluid outlet, secondary pressurized fluid so that the food pieces are held flat to the primary conveying substrate, and hold, via a secondary conveying subsystem, the layer of food substance flat between the primary conveying substrate and a secondary conveying substrate for at least a portion of the chamber.

A process for preparing a ready-to-eat mature coconut in which coconuts are selected based on its flotation characteristics, higher floaters being more mature. An oval or circular groove is carved partially into the bottom of the coconut shell. The coconut is then sealed into a heat tolerant plastic bag in which it is cooked, then frozen. Pieces of coconut husk are roasted until they turn black, then boiled in water to obtain a vapor that condenses to a liquid extraction, which is added to the bag before sealing it. The sealed bag is then heated to obtain sweet coconut water, some separation of coconut meat from the coconut shell, and the expansion of the coconut water during the spraying of steam to slightly split the coconut shell along the carved groove whereby the tip of a spoon can be used to pry off the coconut shell.