A thermal stabilization vessel may include a double walled tube. The tube may have an outer wall, an inner wall, and a sealed off volume located between the inner and outer walls. A removable base may close off a bottom opening of the tube and conduct heat to or from a container placed within the vessel. A top may partially close off a top opening of the tube. The top may include an annulus of elastomeric material. The annulus may have a plurality of resilient tabs extending radially inward toward a central axis of the tube. When a container such as a bottle of wine is placed within a vessel, the tabs of the annulus may resiliently deflect as needed to accommodate the container and then restrict air exchange between an ambient environment and a space located interior to the inner wall of the tube and exterior to the container.

An additive delivery system may incorporate a cartridge system, including a container cap and a reservoir assembly that provides for storage of an additive. The container cap includes a mixing nozzle for mixing of the additive with a base fluid as the base fluid flows from the base fluid container through the cartridge. A one-way valve prevents backflow of base fluid and/or mixed base fluid/additive from an area downstream of the mixing nozzle such that the base fluid supply remains in a pure state.

An actively heated mug, travel mug, baby bottle, water bottle or liquid container is provided. The mug, travel mug, baby bottle, water bottle or liquid container can include a body that receives a liquid therein and a heating or cooling system at least partially disposed in the body. The heating or cooling system can include one or more heating or cooling elements that heat a surface of the receiving portion of the body and one or more energy storage devices. The mug, travel mug, baby bottle, water bottle or liquid container can include a wireless power receiver that wirelessly receives power from a power source and control circuitry configured to charge one or more power storage elements and to control the delivery of electricity from the one or more power storage elements to the one or more heating or cooling elements. The mug, travel mug, baby bottle, water bottle or liquid container also can have one or more sensors that sense a parameter of the liquid or sense a parameter of the heating or cooling system and communicates the sensed information to the control circuitry. The control circuitry can turn on, turn off, and/or operate the heating or cooling element to actively heat or cool at least a portion of the body to maintain the liquid in a heated or cooled state generally at a user selected temperature setting based at least in part on the sensed parameter information. The mug, travel mug, baby bottle, water bottle or liquid container can also be paired with a remote device or mobile electronic device to send or receive communications or commands.

A cooling element for cooling a body, comprising a heat conduction layer coterminous with a proximal side of the cooling element, a heat retardant layer coterminous with a distal side of the cooling element, and a heat sink volume disposed between the heat conduction and heat retardant layers, extending from a proximal boundary with the heat conduction layer to a distal boundary with the heat retardant layer. The heat sink volume comprises a porous material including a first substance; and the heat conduction layer comprises a porous material including a second substance. The first and second substances have thermal properties such that the first substance will solidify at a first temperature, the second substance being in the liquid state at the first temperature. The heat retardant layer has a lower mean thermal conductivity than the heat conduction layer.

An actively heated or cooled food container can have a lid movable between an open and a closed position and an insulated body to which the lid can be attached. The insulated body can have a sidewall that defines a perimeter of the container body and a base, the sidewall and base defining one or more chambers that can be sealed by the lid. The food container can have a temperature control system that can include one or more heating or cooling elements in thermal communication with one or both of the sidewall and the base and operable to heat or cool one or both of the sidewall and the base to thereby heat or cool the one or more chambers in the food container.

An insulating container can be configured to retain a volume of liquid, and include a canister having a first inner wall having a first end having an opening extending into an internal reservoir, and a second outer wall forming an outer shell. The opening can be sealed by a spout adapter, the spout adapter having a spout channel extending between the internal reservoir and a spout opening, smaller than the opening of the canister. The spout opening may be sealed with a cap having a magnetic top surface, and the spout adapter may be further removably coupled to a lid that may be used as a cup into which a volume of the liquid can be poured. In addition, spout adapter assembly with an adapter that releasably attaches to the canister and a plug that is received within the adapter that moves to place the spout adapter assembly into an open and a closed orientation. The plug may have a means to provide tactile feedback to a user that the spout adapter assembly is in an optimal pouring condition.

An insulated container for food particulate and beverages is described. The insulated container includes a double-walled structure composed of a metal, and a glass structure arranged within a hollow interior of the double-walled structure. The glass structure includes a body and a sipping portion extending from the body. The sipping portion isolates the user's lips from contacting the double-walled structure. The glass structure may be repeatably removed for cleaning or replacement. The insulated structure includes a deformable flange that secures the glass structure to the double-walled structure. The insulated container may be vacuum-insulated.

A food storage and warmer apparatus for storing food at safe temperatures and heating food for consumption includes a housing defining a housing inside. The housing has an outer wall separated from an inner wall defining a wall cavity. A divider wall is coupled to the housing within the housing inside and defines a plurality of compartments. A lid is coupled to the housing. A heating coil and a battery are coupled within the wall cavity of the bottom side. A control unit is coupled to the housing and is in operational communication with the heating coil and the battery. A temperature probe is coupled to the housing within the wall cavity and extends through the inner wall to the housing inside. The temperature probe is in operational communication with the control unit.

A container for heating an object. The container comprises a top surface, a bottom surface, and a plurality of side surfaces. The top surface, the bottom surface, and the plurality of side surfaces define an interior of the container in which the object is placed. The container further comprises a heating shell associated with at least one of the side surfaces, the top surface, or the bottom surface, the heating shell configured to radiate heat into the interior of the container, and a temperature control module configured to control the amount of heat radiated by the heating shell.

An example portable heating device includes a container, one or more heating elements, an electronic device, one or more temperature sensors, a controller, a power supply, and a power supply controller. The one or more heating elements are in thermal contact with the container. The electronic device is configured to receive a user input selecting a target temperature to heat a substance in the container to and to display the target temperature. The controller is configured to cause the one or more heating elements to heat the substance to the target temperature in response to determining the current temperature of the substance measured by the one or more temperature sensors is less than the target temperature. The power supply is configured to provide power to the one or more heating elements, the electronic device, the one or more temperature sensors, and the controller.