The present disclosure relates to an aerosol delivery device and a related method. The aerosol delivery device includes a heating chamber having an aerosol precursor composition disposed therein. A microwave radiation emitting device is operably engaged with the heating chamber and is configured to heat the aerosol precursor composition therein with the microwave radiation to form an aerosol from the aerosol precursor composition. An outlet port is formed in a housing of the aerosol delivery device and is in fluid communication with the heating chamber. The heating chamber is responsive to a suction applied to the outlet port for the aerosol to be drawn through the outlet port outwardly from the housing.

A microwavable food packaging can be configured to absorb fluid. The packaging can include a first sheet and a flexible second sheet. The first sheet can include a first polymeric layer. The first sheet can define an upper portion of a food pocket. The flexible second sheet can include an absorbent layer. The absorbent layer can include a paper-based side and a polymer-based side. The paper-based side can include paper fibers, define a bottom of the food pocket and be configured to absorb fluid released from food disposed within the food pocket. The first polymeric layer can be bonded to the polymer-based side through the paper-based side to form a non-hermetic seal, the non-hermetic seal enabling passage of moisture therethrough.

Crockery (100) comprising a phase-change material mixture, wherein the phase-change material mixture comprises one or more organic phase-change materials to be selected from the group of organic acids, organic alcohols and organic esters, and one or more organic microwave susceptors, to be selected from the group of glycols, wherein the phase-change material mixture is contained in a plastic package (120), wherein the phase-change material mixture is positioned under a central portion of the crockery which is intended for placing food on, and not under an edge portion of the crockery which is intended for being free of food and for handling of the crockery, wherein the phase-change material mixture can be melted by means of microwave irradiation.

A packaged food product and methods of making and using it. In some embodiments. The packaged food product may comprise a cup containing multiple ingredients in sealed pouches suitable for use in making an omelet or other egg-based entres, with the cup being suitable for microwave cooking of an egg-based entre. The ingredients may include vegetable components that offer organoleptic properties similar to those of fresh vegetables after an extended period of time. Ideally, time required for processing, shipment, storage, etc., which may be, e.g., several weeks, may pass without unacceptable degradation of taste, texture, mouth feel, flavor, aroma, color, nutritional content or other important qualities. In some embodiments, the ingredients may also include additional components, such as, for example, one or more meats, and/or one or more varieties of cheese.

The invention relates to an apparatus for boiling an egg, comprising a device for providing microwave radiation in a confined space, comprising a holder with at least one cavity adapted to the shape of an egg with an eggshell, said cavity provided with a first layer surrounding the eggshell, said first layer: is in heat exchanging contact with the shell of the egg; has a dielectric constant with an imaginary part, , between 20-500 at a temperature between 0 C.-100 C. and at a microwave frequency of 2.45 GHz, andhaving a layer thickness d of 1-6 millimeter and varying less than 30% over the egg, or said holder for holding at least one egg assembly adapted for cooking an egg using microwave radiation.

A method of coating a wide variety of foodstuffs with tasty marshmallow material simply by enclosing foodstuffs with marshmallows in the same container that permits gaseous venting, but otherwise secures the enclosed foodstuffs. Microwaving the container for one minute or less causes the marshmallow, responding to the microwaves, to radically expand many times its original size. The expanding marshmallow quickly and conveniently coats the secured foodstuffs in the container with a layer of marshmallow material to produce a tasty food treat. The addition of a stick or other handling means is highly desirable, as is a means of easily extracting the food treat from the enclosure and aids in keeping hands clean while eating the food treat.

An automated, on-demand baking system including a computer controllable injector configured to be operative to programmably inject liquid baking ingredients through a wall of and into a mixing, baking and dispensing container, a computer controllable rotator configured to be operative to programmably rotate the mixing, baking and dispensing container containing baking ingredients, thereby mixing the baking ingredients into a dough, a heating generator operative to cause baking of the dough in the mixing, baking and dispensing container and a controller operative to govern the operation of the computer controllable injector, the computer controllable rotator and the heating generator.

A container formed from a blank, a forming, tool and a method of forming a container are disclosed. The container includes features that are formed by a plurality of score lines in a marginal portion of the blank. The container has a bottom wall, a side wall, and a flange extending from the side wall. The flange has a thickness that is greater than a thickness of the blank.

The invention relates to a bottom part intended to receive food thereon, and a container part where the bottom part and the container part are intended to enclose the food. The package is provided with means to hold the bottom part and the container part together in a detachable fashion and means to separate the bottom part from the container part fully or partially. Separating takes the form of removing the bottom part with the bottom part of the package standing in an essentially horizontal position on a serving surface so that the food is so arranged as to come into contact with the serving surface, as a consequence of which the container part is essentially retained it its position enclosing the food. The invention also relates to a method for transferring food from a package to a serving surface.

RFID tags are provided for incorporation into the packaging of a microwavable food item, with the RFID tag being configured to be safely microwaved. The RFID tag includes an antenna defining a gap and configured to operate at a first frequency. An RFID chip is electrically coupled to the antenna across the gap. A shielding structure is electrically coupled to the antenna across the gap and overlays the RFID chip. The shielding structure includes a shield conductor and a shield dielectric at least partially positioned between the shield conductor and the RFID chip. The shielding structure is configured to limit the voltage across the gap when the antenna is exposed to a second frequency that is greater than first frequency. In additional embodiments, RFID tags are provided for incorporation into the packaging of a microwavable food item, with the RFID tag being configured to be safely microwaved. The RFID tag includes an RFID chip and an antenna electrically coupled to the RFID chip. The antenna may have a sheet resistance in the range of approximately 100 ohms to approximately 230 ohms, optionally with an optical density in the range of approximately 0.18 to approximately 0.29. Alternatively, or additionally, the antenna may be configured to fracture into multiple pieces upon being subjected to heating in a microwave oven. Alternatively, or additionally, the RFID tag may be incorporated in an RFID label that is secured to the package by a joinder material with a greater resistance than that of the antenna, such as a sheet resistance in the range of approximately 100 ohms to approximately 230 ohms.