Apparatus and method for heating a fluid by induction heating
First Claim
1. A permanent magnet heating apparatus, comprising:
- (a) a substantially non-magnetic heating element having(i) a first side, and(ii) a second opposing side,(b) a first rotating member carried on a shaft, the first rotating member placed adjacent the first side of the heating element, said first rotating member having at least one permanent magnet to produce eddy currents in the heating element when a relative motion is produced between the first rotating member and the heating element by rotation of said shaft; and
(c) a second rotating member carried on said shaft, the second rotating member placed adjacent the second side of the heating element, said second rotating member having at least one permanent magnet to produce eddy currents in the heating element when a relative motion is produced between the second rotating member and the heating element by rotation of said shaft.
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Accused Products
Abstract
In a heating apparatus for the heating of a solid or fluid medium, several permanent magnets are arranged on the periphery of a rotor which produce a magnetic field in whose region an electrically-conducting medium is arranged. The magnetic field from the permanent magnets is radiated approximately radially. By rotation of the rotor, a relative motion arises between the permanent magnets and the electrically-conducting medium, and eddy currents are effected within the medium, thereby causing heating of the same. Electrically-conductive water can be provided as the medium to be heated. In this embodiment electrically-conductive water is fed through a helical conducting coil, with an inlet and outlet side arranged around the rotor in proximity thereto, and is connected to a line which feeds to a user from the outlet side and back to the inlet side in a closed cycle. With this heating apparatus, heat is transferred to the medium with an improved efficiency. In a second embodiment, permanent magnets are arranged on opposing rotating discs so that they produce a magnetic field between the discs. An electrically-conductive material to be heated is placed between the disks, within the magnetic field. In a third embodiment, permanent magnets are arranged on opposing sides of a centrifugal pump having an electrically-conductive impeller. The discs are stationary. Heat is generated in the impeller when it is rotated. The impeller provides both the heating and the flow of the heated fluid.
95 Citations
7 Claims
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1. A permanent magnet heating apparatus, comprising:
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(a) a substantially non-magnetic heating element having (i) a first side, and (ii) a second opposing side, (b) a first rotating member carried on a shaft, the first rotating member placed adjacent the first side of the heating element, said first rotating member having at least one permanent magnet to produce eddy currents in the heating element when a relative motion is produced between the first rotating member and the heating element by rotation of said shaft; and (c) a second rotating member carried on said shaft, the second rotating member placed adjacent the second side of the heating element, said second rotating member having at least one permanent magnet to produce eddy currents in the heating element when a relative motion is produced between the second rotating member and the heating element by rotation of said shaft. - View Dependent Claims (2, 3, 4, 5)
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6. A method of magnetically heating a fluid, comprising:
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(a) passing the fluid through a substantially non-magnetic heating element; (b) rotating a shaft carrying a first member and a second member, said first and second members carrying at least one permanent magnet each and disposed on opposite sides of and in proximity to the heating element; and (c) heating the heating element and the fluid therein by producing eddy currents in the heating element by the rotation of the first and second members. - View Dependent Claims (7)
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Specification