Predictive cooking systems and methods. A representative system can include a cooking device submergible in a container of fluid and a memory device storing instructions for causing a processor to receive information and determine heater set point temperature and on time. The processor can receive information indicative of one or more characteristics of a food item to be cooked in the fluid and a desired food temperature. The processor can perform a control process that can include sending instructions for controlling a heater, obtaining a temperature measurement of the fluid from a temperature sensor, determining a measurement of power delivered to the heater, determining constants related to corresponding physical characteristics of the fluid and/or the container based on at least one of the temperature measurement and the measurement of power, and determining a food temperature of the food item.

A method of using a storage and cooking device having multiple thermal containers includes disposing a first food item in a first thermal container, a second food item in a second thermal container, and a third food item in a third thermal container. A volume of fluid is cooled and circulated through at least a portion of the device such that thermal energy from at least one of the first, second, or third food item is transferred to the cooled fluid. The device is transitioned from a first operating mode to a second operating mode in response to a criterion being satisfied. When in the second configuration, the volume of fluid is heated and circulated through at least a portion of the device such that thermal energy is transferred from the volume of fluid to at least one of the first, second, or third food item.

A method of using a storage and cooking device having multiple thermal containers includes disposing a first food item in a first thermal container, a second food item in a second thermal container, and a third food item in a third thermal container. A volume of fluid is cooled and circulated through at least a portion of the device such that thermal energy from at least one of the first, second, or third food item is transferred to the cooled fluid. The device is transitioned from a first operating mode to a second operating mode in response to a criterion being satisfied. When in the second configuration, the volume of fluid is heated and circulated through at least a portion of the device such that thermal energy is transferred from the volume of fluid to at least one of the first, second, or third food item.

An immersion circulator cooking device comprising: a motor for drawing fluid used for cooking past a heating element; a heating element for heating the fluid; a first switching device used in a first power mode for controlling the heating element; a second switching device used in a second power mode for controlling the heating element; a temperature sensor for sensing a sensed device temperature of the first switching device; and a controller for selecting which of the first power mode and second power mode is selected based on the sensed device temperature of the first switching device.

An immersion circulator cooking device comprising: a motor for drawing fluid used for cooking past a heating element; a heating element for heating the fluid; a first switching device used in a first power mode for controlling the heating element; a second switching device used in a second power mode for controlling the heating element; a temperature sensor for sensing a sensed device temperature of the first switching device; and a controller for selecting which of the first power mode and second power mode is selected based on the sensed device temperature of the first switching device.

An apparatus for cooking noodles is disclosed herein. The apparatus permits a user to cook lasagna noodles safely and effectively, while minimizing danger and minimizing the amount of work that the user must perform. More specifically, the apparatus of the present invention is for a sleeve with an interior pocket that can accommodate a lasagna noodle. Once a noodle is placed within the sleeve, the sleeve can be placed in a pot of boiling water to cook the noodle. The sleeve ensures that the noodle cooks appropriately in a variety of different pots, including smaller pots without causing the noodle to break. Moreover, the sleeve prevents the noodles form sticking to each other and to the pot. Once cooked, the noodles may be easily removed from the sleeve for consumption or additional preparation.

An apparatus for cooking noodles is disclosed herein. The apparatus permits a user to cook lasagna noodles safely and effectively, while minimizing danger and minimizing the amount of work that the user must perform. More specifically, the apparatus of the present invention is for a sleeve with an interior pocket that can accommodate a lasagna noodle. Once a noodle is placed within the sleeve, the sleeve can be placed in a pot of boiling water to cook the noodle. The sleeve ensures that the noodle cooks appropriately in a variety of different pots, including smaller pots without causing the noodle to break. Moreover, the sleeve prevents the noodles form sticking to each other and to the pot. Once cooked, the noodles may be easily removed from the sleeve for consumption or additional preparation.

A Lasagna noodle cooking and drying rack comprising, a plurality of noodle cooking shelves formed from a plurality of horizontal shelf arms and a plurality of horizontal support members with the horizontal shelf arms attached to a plurality of vertical shelf support structures at an incline to hold the noodles securely on their individual shelves during the cooking process. Cooking the noodles on their individual shelves prevents the noodles from sticking together and promotes even cooking of the noodles which in turn prevents them from breaking apart when they are removed from the cooking water. The Lasagna noodle cooking and drying rack has a removable handle which can be hooked on to the two end vertical support structures to lift the rack from the cooking pot. The Lasagna noodles can be drained and dried on their individual shelves after the rack is lifted out of the cooking water.

A Lasagna noodle cooking and drying rack comprising, a plurality of noodle cooking shelves formed from a plurality of horizontal shelf arms and a plurality of horizontal support members with the horizontal shelf arms attached to a plurality of vertical shelf support structures at an incline to hold the noodles securely on their individual shelves during the cooking process. Cooking the noodles on their individual shelves prevents the noodles from sticking together and promotes even cooking of the noodles which in turn prevents them from breaking apart when they are removed from the cooking water. The Lasagna noodle cooking and drying rack has a removable handle which can be hooked on to the two end vertical support structures to lift the rack from the cooking pot. The Lasagna noodles can be drained and dried on their individual shelves after the rack is lifted out of the cooking water.

A sous-vide circulator cooker that sounds an audible alarm when the system raises the temperature of the water to a determined temperature. The sous-vide circulator cooker includes temperature sensors, heaters and a pump to circulator temperature controlled fluids. The system also contains a speaker or buzzer that can play alarms or music when the system comes to a predetermined temperature. In at least one embodiment, the sous-vide circulator can also distinguish between self-heating and user-induced temperature changes, and will sound alarms accordingly.