A system and method for storing, preserving and cooking meals using the sous-vide technique. The system and method of the present invention is designed to automatically cook, upon request a meal having various ingredients by immersing bagged food in temperature-controlled liquid. The cooking time may be manually or automatically programmed from downloaded cooking direction associated with the food. The cooking request may be given by a user from the physical apparatus or using a mobile device application.

Systems and methods are disclosed that include providing a cooking system that comprises a burner assembly and a heat exchanger submerged in a vessel. The burner assembly includes a high velocity burner and a low velocity burner, the high velocity burner configured to provide the necessary high velocity, volumetric flowrate through a fluid duct of the heat exchanger that includes a plurality of compactly-arranged, alternatingly-disposed vertical and horizontal tubes passing through the fluid duct, and the low velocity burner configured to significantly reduce and/or substantially eliminate “lift off” that could result from operation of only the high velocity burner. The heat exchanger is submerged in the vessel with the tubes of the heat exchanger open to the vessel to allow ingress and egress of a fluid contained within the vessel.

Systems and methods are disclosed that include providing a cooking system that comprises a burner assembly and a heat exchanger submerged in a vessel. The burner assembly includes a high velocity burner and a low velocity burner, the high velocity burner configured to provide the necessary high velocity, volumetric flowrate through a fluid duct of the heat exchanger that includes a plurality of compactly-arranged, alternatingly-disposed vertical and horizontal tubes passing through the fluid duct, and the low velocity burner configured to significantly reduce and/or substantially eliminate “lift off” that could result from operation of only the high velocity burner. The heat exchanger is submerged in the vessel with the tubes of the heat exchanger open to the vessel to allow ingress and egress of a fluid contained within the vessel.

A lightweight portable heating device consisting of a container assembly and lid assembly that house a tub assembly for the purpose of heating liquids and food submerged in aforementioned liquids by means of a multi-fuel burner. Container assembly provides for several structures that improve ergonomics and handling of the lightweight portable heating device. For instance, container assembly includes an integrated handle that surrounds the container assembly proximate the top portion of the container assembly and is molded into the container assembly. Integrated handle allows for the ease of moving of the lightweight portable heating device by personnel. Proximate the bottom of container assembly are lifting handles that enable the lifting of the device above shoulder level while also functioning as a tie down point.

A lightweight portable heating device consisting of a container assembly and lid assembly that house a tub assembly for the purpose of heating liquids and food submerged in aforementioned liquids by means of a multi-fuel burner. Container assembly provides for several structures that improve ergonomics and handling of the lightweight portable heating device. For instance, container assembly includes an integrated handle that surrounds the container assembly proximate the top portion of the container assembly and is molded into the container assembly. Integrated handle allows for the ease of moving of the lightweight portable heating device by personnel. Proximate the bottom of container assembly are lifting handles that enable the lifting of the device above shoulder level while also functioning as a tie down point.

Methods and apparatus for automatically preparing food for consumption in which preparation comprises dispensing, manipulation, heating, and other operations using a wide variety of ingredients. The methods and apparatus described use ingredients efficiently and maintain their quality, while avoiding contact between ingredients and apparatus to minimize the risk of system contamination.

Methods and apparatus for automatically preparing food for consumption in which preparation comprises dispensing, manipulation, heating, and other operations using a wide variety of ingredients. The methods and apparatus described use ingredients efficiently and maintain their quality, while avoiding contact between ingredients and apparatus to minimize the risk of system contamination.

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.

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.

A compression chamber for a compression type ramen cooker is capable of cooking ramen by compression by blocking a discharge of air in a cooking container while cooking ramen. The compression chamber includes a lid, a chamber container having an upper portion on which the lid is mounted and a bottom surface to which the cooking container is coupled to seal the cooking container, a heater installed through the lid and mounted inside the chamber container to heat the water stored in the chamber container, a supply valve unit installed through the lid to supply water to the inside of the chamber container, a discharge valve unit installed through the lid to supply water in the chamber container to the cooking container, and a vapor discharge unit on a lower side of the chamber container to discharge compressed steam inside the cooking container.