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.

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.

The present specification provides fruit and vegetable products. Also described are methods for producing the fruit and vegetable products.

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.

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.

The present invention relates to a cooking appliance comprising: a cabinet defining a cooking chamber; a heating means installed on the cabinet and formed so as to heat the inside of the cooking chamber; an air pump installed on an outer side extends into the cooking chamber; a cooking pack arranged selectively inside the cooking chamber and formed so as to accommodate an object to be cooked; and a control unit for controlling the heating means and the air pump, wherein one side of the cooking pack is detachable from a free end of the tube. According to the present invention, sous vide cooking is enabled by, within a single plate, vacuum treating the space where the object to be cooked is accommodated and controlling the temperature inside the cooking chamber during cooking.

A process and system for microwave cooking food products with humidified air control. In an exemplary embodiment, the system includes a microwave cooking enclosure; a source of microwave energy that transmits microwave radiation into an interior of the enclosure; a microwave-shielded sensor positioned within the interior of the enclosure; a nozzle connected to provide steam and/or water mist to the enclosure to form humidified air therein; and a control connected to receive a signal from the microwave-shielded sensor indicative of the wet-bulb temperature within the enclosure and in response modulate a flow of steam and/or water mist into the enclosure to maintain the wet-bulb temperature of the humidified air therein at or above a predetermined value and to actuate the source of microwave energy to transmit the microwave radiation into the interior of the enclosure, whereby the microwave radiation and the humidified air simultaneously cook the food products and kill microorganisms in the interior of the microwave cooking enclosure and on the surface of and within the food products.

The present disclosure relates to sous-vide cooking in an oven of a cooking appliance. A temperature probe senses a temperature of a water bath or the food in the water bath, which is placed in the oven cavity. The sensed temperature is used as a feedback input for a controller that controls a heating element of the appliance in a manner that causes the water and food to reach a desired final temperature of the food in equilibrium with the water bath, which in turn is in equilibrium with the air in the cavity.

A method and apparatus for continuous pressure cooking product includes a pressure cooking section, an isolating chamber, and an output section. A first product and fluid valve is between the pressure cooking section and the isolating chamber. A second product and fluid valve is between the isolating chamber and the output section. A fluid valve is between a source of pressurized fluid and the isolating chamber. Product is provided to the pressure cooking section and cooked. The fluid valve is opened so that the isolating chamber becomes substantially the same pressure as the pressure cooking section. The first controllable product and fluid flow valve is opened and product enters the isolating chamber, and then closed to isolate product in chamber. The second controllable product and fluid valve is opened and product moves from the chamber to the output section. Then the second controllable product and fluid valve is closed.

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; 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; apply, via a secondary pressurized fluid outlet positioned above the primary conveying substrate and pointed toward the primary conveying substrate, secondary pressurized fluid so that the food pieces are held flat to a primary conveying substrate; heat, via a heating mechanism, air within a chamber to provide an environment suitable for dehydrating the food pieces passing through the chamber; and convey the food pieces for at least a portion of the conveyance path through the chamber and hold the food pieces flat with a secondary conveying subsystem.