NL8800588A - Environmental kinetic to electrical conversion using magnetic flux - energy from kinetic particles or photon field into electron current in conductor surrounding permanent magnet - Google Patents

Abstract

The energy conversion method uses a permanent magnet (11) which is installed in the space within a sec. coil (13) which lies within and concentric with a pref. superconducting prim. winding (12). The axis of magnetisation lies in a plane parallel to the upper and lower boundary planes of the coils (12, 13), which are accommodated between thermally conductive plants (14, 16) of e.g. Cu or Al with outwardly projecting ribs (15, 17) of the same material. Alternating current through the prim. coil (12) generates an alternating magnetic field at right angles to that of the magnet (11). The resultant field traverses the sec. coil (13) and induces a useful voltage in it. Energy drawn from the sec. coil (13) is replaced by heat transfer from the surroundings through the plates (14, 16) and ribs (15, 17) on either side of the structure.

Description

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Electromagnetic energy converter, method for converting environmental energy, or magnetic energy into electrical energy, as well as a device for carrying out this method.

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Superconductors have been known for some time and are currently mainly used for generating strong magnetic fields. The great advantage with magnets with superconducting coils is that strong magnetic fields can be generated with low energy absorption.

Suitable constructions make it possible to convert the magnetic energy generated with superconducting coils into electrical energy. Although the superconducting wires currently offered need to be strongly cooled, eg with liquid nitrogen, to achieve the superconducting property, it can be expected that superconducting wires will become available in the near future which will also have their superconducting property at higher temperatures. to own.

20 In my Dutch patent application no. 8702366,

A method for manufacturing a permanent superconductor, as well as a device for carrying out this method, filed on 05.10.1987, a method and device have already been described for manufacturing "hot" superconductors. Recent developments in the field of magnetic ceramic materials, such as eg based on Neodymium, Boor, IJzer, (NdBFe), cf. S.

Cedighian - Die Magnetischen Werkstoffe -, VDI-Verlag,

Duesseldorf have made it technically possible to let the magnetic energy flow at any desired angle, or in any desired direction, with respect to a conductor or electric coil. As a result, magnetic turbulences and fluctuations in conductors can be created which have hitherto only been possible by adding mechanical or electrical energy.

In my Dutch patent application no. 8700869,

Apparatus for converting magnetic energy into electrical energy, filed on 13.04.1987, has already been described that environmental energy, or magnetic energy, 8800588 2;

./ can be converted into electrical energy using electromagnetic fluctuations.

In my Dutch patent application no. 8701835, Magnet cell, device for converting magnetic energy into electrical energy, filed on 04.08.1987, it has already been described that ambient energy, or magnetic energy, can be converted into electrical energy using magnetic turbulence.

In my Dutch patent application no. 8703016, 10 Magnetic core resonance converter, method for converting ambient energy into electrical energy, as well as device for carrying out this method, filed on 14.12.1987, it has already been described that ambient energy or magnetic energy can be converted into electrical energy using magnetic core resonance.

The electromagnetic energy converter, method for converting environmental energy, or magnetic energy, into electrical energy, as well as a device for carrying out this method, is a general method with varied applications of the same basic principles already described in the above-mentioned patent applications, viz. the absorption of energy from the environment and its conversion into electrical energy. The above energy conversion according to the invention is effected by means of magnetic flux variations in a hybrid energy absorption transformer, consisting of a superconducting primary winding and a non-superconducting secondary winding, for example of ordinary copper wire.

The use of said hybrid energy absorption transformer according to the invention has the advantage that the electric energy delivered from the secondary winding of the transformer is substantially greater than the electric energy absorbed by the primary winding 35 of the transformer, as a result of which an amplification of the supplied electric energy is created.

The invention is elucidated on the basis of the following figures:

Fig. 1 is a very schematic representation of a, 8 8 0 0 5 δ b> 3 electromagnetic energy converter.

Fig. 2A and 2B are top view or cross section I-I of a hybrid energy absorption transformer with an air core.

The figures are only for the purpose of explanation and explanation of the method and the device according to the invention, and the invention is not limited solely to the application shown. A person skilled in the art will be able to devise many variations, which are based on the same principle and the same method according to the invention.

Fig. 1 is a very schematic representation of two essential parts in an embodiment of the device according to the invention. This embodiment includes a small activation transformer consisting of a primary winding 11, preferably made of insulated copper wire or other suitable conductor and a secondary winding 12, also preferably made of insulated copper wire or other suitable conductor, and a core 13 , preferably made of laminated soft iron (transformer tin) or other magnetic or magnetizable medium, which inductively connects the two coils 11 and 12. This embodiment according to the invention also contains a larger power transformer, consisting of a primary winding 14, made of insulated superconducting wire and which is electrically connected to the secondary winding 12 of the activation transformer. The secondary power winding 15 is non-superconducting and preferably consists of insulated copper wire or other suitable electrical conductor. The windings 14 and 15 are inductively connected to each other by means of the core 16, preferably made of laminated soft iron (transformer tin) or other suitable magnetic or magnetizable medium. The activation transformer and the power transformer are both housed in a suitable housing to shield magnetic stray fields.

The electrical energy is supplied to the terminals 18 while the electrical power is generated. 88 0 05 B 8.

4 is discharged via terminals 19.

In order to clarify the method of the device according to the invention, fig. 1 as an example, the dimensioning of the transformer windings below has been chosen, in which the iron cores are dimensioned according to the usual manner for transformers: - winding 11: 1000 turns, 220 Volt / 50 Hz, 5 Amp full load 10 - winding 12: 1 winding, 5000 Amp - winding 14: 1000 windings, 5000 Amp - winding 15: 1100 windings, 4500 Amp, 220 Volt / 50 Hz

The above example shows that with 5000 Amp windings from coil 12, a flux variation of 5,000,000 15 Amp windings can be generated with the superconducting coil 14 and consequently an generated power of 990 kWatt can be taken off at the terminals 19 with an input power of the terminals 18 of 1.1 kWatt, which corresponds to a power gain of 20 approximately a factor of 1000.

In the embodiment according to the invention, as indicated in Fig. 1, is based on a two-phase system. Of course, according to the invention, a device according to the three-phase system can also be implemented. Also, in the above-described embodiment, a mains frequency of 50 Hz is assumed; a device according to the invention can of course also be designed for other frequencies. At very high frequencies it is preferable to use a ferrite or air core hybrid transformer as shown in FIG. 2A and 2B. Of the two coils, the superconducting coil 23 should preferably have the largest diameter. The power coil 24, preferably made of insulated copper wire or other suitable conductor, 35 is electrically and thermally separated by the insulator 29 of the superconducting coil 23. A person skilled in the art will be able to devise different variations for devices according to the invention, which are based on the same principle and the same method according to the invention.

.8800588

Claims (5)

1. Electromagnetic energy converter, method for converting ambient energy, or magnetic energy, into electrical energy, and device for carrying out this method, characterized in that energy is extracted from the environment and converted into electrical energy. 2. Electromagnetic energy converter, method for converting ambient energy, or magnetic energy, into electrical energy, and device for carrying out this method according to claim 1, characterized in that the energy absorption and the energy conversion by electromagnetic induction is accomplished. 3. Electromagnetic energy converter, method for converting ambient energy, or magnetic energy, into electrical energy, and device for carrying out this method according to claims 1 and 2, characterized in that the amount of electrical energy delivered is greater than the amount of electrical energy absorbed and, consequently, by adding ambient energy, an electrical energy amplification takes place. 4. Electromagnetic energy converter, method for converting environmental energy, or magnetic energy, into electrical energy, and device for carrying out this method according to claims 1 to 3, characterized in that the device inter alia has an energy absorption hybrid transformer, consisting of at least one primary winding of insulated superconducting wire, and at least one secondary winding of insulated non-superconducting wire, or insulated copper wire or other suitable electrically conductive material, and a suitable magnetic or magnetizable medium, which primary and inductively connects secondary coils. Electromagnetic energy converter, method for converting environmental energy, or magnetic energy, into electrical energy, and a device for carrying out this method according to claims 1 to 4, characterized in that the device includes, among other things, an activation transformer. Contains 8800588 * tor, consisting of at least one primary winding made of insulated copper wire or other suitable electrical conductor and at least one secondary winding, also made of insulated copper wire 5 or other suitable electrical conductor, and a suitable magnetic or magnetizable medium, which inductively connects the primary and secondary coils, and the secondary winding of which is electrically connected to the superconducting primary winding of the 10-energy absorption hybrid transformer, as defined in claim 4. 8800500