Re: Selfrunning Free Energy devices up to 5 KW from Tariel Kapanadze

Machine translation of the Melnichenko patent (WO/2003/061110) as mentioned here on p. 336

METHOD FOR ENERGY GENERATION BY MEANS OF ELECTROMAGNETIC WAVES AND DEVICE FOR CARRYING OUT SAID METHOD (VARIANTS)

Field of technology

The claimed invention relates to energy and electrical engineering and can be used to create a stand-alone power plants or their parts, power supplies, generators and heat.

Background Art

There is a method of energy generation, which consists in the fact that the receiver delivers the energy transferred by a special transmitter (see U.S. Patent N ? 645578 Tesla on March 20, 1900). The disadvantage of this method is that generated by the receiver electromagnetic energy has a positive increment.

In addition, a process of power generation on the basis of the same unit consists in the fact that the receiver delivers the energy transferred by a special transducer (U.S. Patent N ? 649621 Tesla on May 15, 1900). The drawback of the solution is also a fact that generated by the receiver electromagnetic energy has a positive increment.

Technical result, which is aimed at achieving the claimed invention is to allow the generation of additional power to the abstracted from the primary source of energy. This technical result is achieved by the fact that the method of addition of the interference of waves on the load in the presence of electromagnetic waves guiding systems, or the method of the prior accumulation of energy of electromagnetic waves in the drive, with subsequent release of the load.

Disclosure of invention

Way of generating energy on the electromagnetic waves is a process in which the electromagnetic waves from one or more emitters in phase work in a single load, or first accumulated in the storage (Volumetric or other cavity, coaxial or waveguide line, or in the form of standing waves in the coils, wires, and other types of feeder lines), and then sent to a load. Load may serve as a reception area, transmitting antenna, resistance, straightening rektenna absorbing dielectric, such as water, etc. To generate the load adds the amplitudes of electromagnetic waves (superposition principle), and the energy of the electromagnetic field is proportional to the square of the amplitude of the total field. The energy of electromagnetic waves is a non-additive (arithmetic does not add up) quantity, so the load of the energy released is proportional to the square of the amplitude of the total, which is more than the energy of the incident electromagnetic waves each individually. The load is in-phase addition of the amplitudes of waves. The load can be used absorbent dielectric-transfer medium (eg, water), passing through the waveguide or other part of the feeder line, or straightening rektennu, resistance, or the receiving antenna (pins and hinges coaxial wave transitions, etc.), power transmission in the feeder link.

In the case of electromagnetic waves of accumulation and storage, energy storage in the same proportional to the square of the amplitude of the electric and magnetic fields, that is, (at very low loss), total square of the amplitude of the waves that are included in the drive from the generator. Electromagnetic wave energy policy non-additive, that is not summed arithmetically, so the energy in the store is growing faster than is consumed in the drive from the generator (with small losses in the drive).

Device implementing a method of generating energy on the electromagnetic waves, which is a process in which the electromagnetic waves from one or more emitters in phase work in a single load, in general, consists of one or more of electromagnetic waves with emitters, power dividers and feeder lines, in which two or more emitters of electromagnetic waves simultaneously work on a single load, and the radiators are located around the load, or radiation from different emitters concentrated on load through reflectors or lenses.

Said device features the following realization:

1.1. The device, in which the waveguide (wire, strip, coaxial and other types of feeder lines), the load is in addition of the amplitudes of two (or more) back-to-traveling electromagnetic waves that fall on both sides of the load. Load, in this case, is located between the emitters.

1.2. The device, which is implemented on the basis of the cavity in which the emitters are arranged relative to the load so that the load is in addition of the amplitudes of electromagnetic waves from transmitters and reflected electromagnetic waves, for example, the emitters are located on different sides of the load inside the cavity.

1.3. The device, which are connected to a generator or generators of electromagnetic wave emitters are a system of ?-th number of narrowly focused (eg, horn) antennas operating in phase with the total load on all sides.

1.4. The device, which is implemented on the basis of the width of the waveguide in many wavelengths, in which emitters are arranged in a row across the waveguide, the concentration of electromagnetic waves at the load is achieved by a gradual narrowing of the waveguide in the load or geometric hub or hubs (mirror or mirrors, particular parabolic reflectors), or lenses that focus the electromagnetic wave to the load.

The best embodiment of the device

The best is the version of the device referred to in clause 1.2. This device operates as follows:

Electromagnetic energy passing from the generator through a power divider is fed to the radiators located inside the cavity. The load is also inside the cavity. Electromagnetic waves from transmitters and reflected from the walls of the cavity in phase interfere with the load, and the load is in addition of the amplitudes of electromagnetic waves. This device is the best location of radiators from different sides of the load.

In addition, the inventive method can be implemented using a different version of the device that implements a method of generating energy on the electromagnetic waves, which is a process in which the electromagnetic waves from one or more emitters first accumulate in the tank (or other bulk resonator, resonance coil or resonating part of the feed line, such as the length of the waveguide, coaxial, strip or wire line, etc.), and then sent to the load, in general, consists of one or more of electromagnetic waves with emitters, power dividers and feeder lines, direct drive and switch. In this case, the drive is connected to a generator of electromagnetic waves through a feeder line, or through a special agent. Load through feeder line is connected to the drive (for example, to the ends of the resonant coil) through the switch-switch. A switch can perform the switch based on transistors, ???-diodes, gas discharge punches, ferrite or ferroelectric gate controlled valves.

The device works in a two-phase mode. In the first phase, there is an accumulation of electromagnetic waves that are included in the cavity of the generator of electromagnetic waves, and switch-to-switch prevents the allocation of wave energy in the load. In the second phase, after the accumulation of electromagnetic waves, the switch-to-switch ceases to impede the energy of electromagnetic waves in the load, in this case, the accumulation of electromagnetic waves can be paused for a moment before resuming the switching of the first phase.

This version of the device features the following realization:

2.1. Device in which the generator through the feeder link or agent is connected to a cavity resonator, which in the feeder link (coaxial, waveguide, or wire, etc.) and a switch (based on transistors, ???-diodes, etc.) load is connected, the switch changes the impedance of the feed line, the load itself, or parts of it.

2.2. The device, in which the load is placed directly in the cavity, or is part of the cavity, or the load itself is a storage of electromagnetic waves, while periodically changing the resistance (impedance) of the load itself, or parts of it due to its physical properties (nonlinear resistance load), or due to external or internal control impedance.

The best embodiment of the device

The best is the version of the device referred to in section 2.1. This device operates as follows: Electromagnetic waves coming from the generator to the drive (resonator) that a standing electromagnetic wave whose amplitude is in the ideal case (loss) by the sum of the amplitudes of electromagnetic waves that are included in the cavity. In the first phase, there is an accumulation of electromagnetic waves that are included in the cavity of the generator of electromagnetic waves, and switch-to-switch prevents the allocation of wave energy in the load. In the second phase, after the accumulation of electromagnetic waves, the switch-commutators ceases to impede the energy of electromagnetic waves in the load, in this case, the accumulation of electromagnetic waves can be paused for a moment before resuming the switching of the first phase.

Industrial Applicability

Way of generating energy on the electromagnetic waves and the device for its implementation can be implemented based on the existing technology of microwave and UHF (magnetrons, klystrons, amlitrony, waveguides, feeders, etc.).

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