A system and method for inductive heating applications includes positioning one or more inductive heating elements in a location, delivering electromagnetic radiation, by a radiation source, to heat at least a portion of the one or more inductive heating elements, and detecting, by a detector, the h
A system and method for inductive heating applications includes positioning one or more inductive heating elements in a location, delivering electromagnetic radiation, by a radiation source, to heat at least a portion of the one or more inductive heating elements, and detecting, by a detector, the heat generated by the one or more inductive heating elements. The system and method also include controlling, by a processing unit, a condition based on the detected heat.
대표청구항▼
1. A method comprising: positioning one or more inductive heating elements in a location;directing the electromagnetic radiation to a capsule encasing the one or more inductive heating elements and swallowed by a subject;delivering electromagnetic radiation, by a radiation source, to heat at least a
1. A method comprising: positioning one or more inductive heating elements in a location;directing the electromagnetic radiation to a capsule encasing the one or more inductive heating elements and swallowed by a subject;delivering electromagnetic radiation, by a radiation source, to heat at least a portion of the one or more inductive heating elements;controlling a temperature of the capsule by adjusting an amount of the electromagnetic radiation delivered to the capsule;detecting, by a detector, the heat generated by the one or more inductive heating elements; andcontrolling, by a processing unit, a condition based on the detected heat, wherein controlling the condition comprises tracing a path followed by the capsule within the subject. 2. The method of claim 1, wherein the one or more inductive heating elements are ferrofluid. 3. The method of claim 2, wherein the ferrofluid is encased in the capsule. 4. The method of claim 1, further comprising: injecting one or more second inductive heating elements into a bloodstream of a subject; anddetecting heat emanated from the one or more second inductive heating elements for identifying a duration of travel of the one or more inductive heating elements within the bloodstream of the subject. 5. A method comprising: positioning one or more inductive heating elements in a location, wherein the positioning comprises positioning a thermal paper in contact with a ferrous substrate formed of the one or more inductive heating elements;delivering electromagnetic radiation, by a radiation source, to heat at least a portion of the one or more inductive heating elements, wherein the delivering the electromagnetic radiation comprises targeting the electromagnetic radiation to the ferrous substrate in a pattern for heating portions of the ferrous substrate along the pattern;detecting, by a detector, the heat generated by the one or more inductive heating elements; andcontrolling, by a processing unit, a condition based on the detected heat, wherein the controlling the condition comprises transferring heat from the heated portions of the ferrous substrate to the thermal paper for forming the pattern on the thermal paper. 6. The method of claim 5, further comprising a computing device connected to the radiation source for controlling the delivery of the electromagnetic radiation to the ferrous substrate along the pattern. 7. A method comprising: positioning one or more inductive heating elements in a location, wherein the positioning comprises injecting the one or more inductive heating elements into a tumor of a subject;delivering electromagnetic radiation, by a radiation source, to heat at least a portion of the one or more inductive heating elements;detecting, by a detector, the heat generated by the one or more inductive heating elements; andcontrolling, by a processing unit, a condition based on the detected heat, wherein the controlling the condition comprises targeting the electromagnetic radiation to the one or more inductive heating elements for destroying the tumor from the heat emanated by the one or more inductive heating elements. 8. The method of claim 7, further comprising adjusting an amount of the electromagnetic radiation delivered to the one or more inductive heating elements for avoiding destruction of body tissue surrounding the tumor. 9. A method comprising: positioning one or more inductive heating elements in a location, wherein the positioning comprises injecting the one or more inductive heating elements in a plant;delivering electromagnetic radiation, by a radiation source, to heat at least a portion of the one or more inductive heating elements;detecting, by a detector, the heat generated by the one or more inductive heating elements; andcontrolling, by a processing unit, a condition based on the detected heat, wherein the controlling the condition comprises monitoring a path followed by the one or more inductive heating elements by detecting the heat emanated by the one or more inductive heating elements as the one or more inductive heating elements travel within the plant.
Souder ; Jr. James J. (630 Archwood Ann Arbor MI 48103) Waldorf Lindsey E. (3888 Loch Alpine Drive Ann Arbor MI 48103), Container for inductively heating food.
Sunthankar Mandar B. (1713 Hull St. Fort Collins CO 80526), Environmentally safe methods and apparatus for depositing and/or reclaiming a metal or semi-conductor material using sub.
Meier Herman (Littau CHX) Witzig Martin (Horgen CHX), Tray transport cart having electromagnetic induction heaters for heating meals to be placed on the trays.
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