RU2332816C1 - Device for electric power accumulation - Google Patents

Abstract

FIELD: electricity.

SUBSTANCE: lightning arrester is performed as conductor with minimum resistance to atmospheric electricity. Elements for picking-up energy are located near the lightning arrester. At that, element for picking-up energy contains inductance coil, semiconductor element and capacity connected in parallel and creating single electric circuit. Inductance coil and semiconductor element has resistance to current no more than 1 Ohm, and element for picking-up energy is located at distance of 0.1 to 10 m from lightning arrester.

EFFECT: widening of functionality.

4 cl, 3 dwg

Description

The invention relates to physics, namely to electrical devices for using the electrical energy of lightning and the atmosphere as a whole. It can be used in areas where thunderstorms often occur, as energy sources for industrial and economic purposes.

A device for using atmospheric electric energy containing a vertically mounted lightning rod connected to a grounding device and an element for removing energy (USSR Author's Certificate No. 781, class N05F 7/00, 1925). This device can be used to store electrical energy.

However, the known device does not allow the use of electrical energy of lightning, because it is not adapted to lightning, and the energy released during lightning strikes it. At the same time, for the accumulation of electrical energy of the atmosphere, its current resistance parameters are very large.

The present invention is to obtain a cheap source of energy in areas where thunderstorms are frequent.

The technical result of the invention is the creation of a device that allows you to accumulate and electric energy released in a lightning rod when a lightning strike into it, and also to extract its excess from the atmosphere between lightning discharges.

The solution to this problem is achieved by the fact that in the known device for energy storage containing a vertically mounted lightning rod connected to the grounding device, and an element for removing energy, the lightning rod is made in the form of a conductor with the least resistance to the current of atmospheric electricity, near which one or more elements for energy removal.

In addition, the element for energy removal may contain, for example, an inductor, a semiconductor element and a capacitance connected in series with the formation of a single electrical circuit, while the inductor and the semiconductor element have the least current resistance of not more than 1 Ohm, and the element for energy removal is located at a distance of 0.1 to 10 m from the lightning rod.

In another case, the element for energy removal has an inductor, a semiconductor element and a capacitance connected in series to form a single electric circuit, the inductor is placed orthogonally to any plane passing through the axis of the lightning rod, and is made in the form of a toroid, the axis of symmetry of which coincides with the axis of the lightning rod, while the inductor and the semiconductor element have the least current resistance of not more than 1 ohm.

The grounding device in the proposed device for energy storage can be made in the form of an open or closed tank filled with electrolyte, and the lightning rod can be made, for example, in the form of a conductive rod.

Figure 1 shows the electrical diagram of a device for storing energy with an inductor located near the lightning rod, made in the form of a conductive rod. Figure 2 shows the electrical diagram of a device for storing energy with an inductor made in the form of a toroid, the axis of symmetry of which coincides with the axis of the lightning rod. Figure 3 shows a device for storing energy with a grounding device made in the form of an open container filled with an electrolyte, such as water.

A device for storing energy contains a lightning rod 1, for example, a vertically mounted conductive rod connected to grounding device 2, and an element 3 for energy removal. The lightning rod 1 is made in the form of a conductor along which one or more elements 3 for energy recovery are located, each of which has, for example, an inductor 4, a semiconductor element 5 and a capacitor 6 connected in series to form a single electrical circuit. The voltage accumulated on the capacitor 6 can be removed for further use.

The inductor 4 in the proposed device can be placed orthogonally to any plane passing through the axis of the lightning rod, and is made in the form of a toroid, the axis of symmetry of which coincides with the axis of the lightning rod, while the inductor and the semiconductor element have the least current resistance of not more than 1 Ohm (see figure 2).

A device for storing energy with a grounding device made in the form of a capacitance 7 (see FIG. 3) filled with an electrolyte, for example water, has a bottom made in the form of a conductive sheet 8 connected to a lightning rod 1. The proposed device may contain several tiers of solenoids 9 located coaxially with the lightning rod 1 inside the housing 10 provided with a cover 11. In this case, the housing 10 is installed on the foundation 11 in the soil 12.

The proposed device operates as follows.

When lightning strikes a lightning rod of an energy storage device, a current of the order I = (2-5) · 10 ⁵ A flows through the rod. This current creates a circular magnetic field H around itself, into which an inductor is placed. In this case, the EMF (E) arising in the inductor is accumulated on the capacitor 6.

Depending on the distance between the elements for energy removal and the rod 1, it is possible to obtain EMF (E) of different sizes. This EMF charge capacitor 6 (see figure 1).

As a lightning rod, for example, a wire with a diameter of (6-10) mm or a conductive cable is used.

From an electrical point of view, the device is a current transformer, with the only difference being that the secondary winding is closed to a conventional electric energy storage device - a diode capacitance. The accumulated electrostatic energy from the tank 6 can be directed to various consumers from lighting devices to electric motors, untwisting flywheels, accumulating mechanical energy, more advantageous than electrostatic.

Example 1

A device for energy storage with an inductor 3, which is placed at a distance of one to ten meters from the rod 1 and is oriented orthogonally to any plane passing through the rod (see figure 1).

Example 2

A device for energy storage with an inductor 3 made in the form of a toroid, the axis of symmetry of which coincides with the rod 1 (see figure 2).

We determine the magnitude of the EMF E, which occurs on the solenoid with a diameter d = 100 mm and the number of turns n = 10 ³ and the distance from the decrease R = 10 m.

where μ ₀ is the magnetic permeability of the void, equal to 4π · 10 ⁷ '

S is the cross-sectional area of the solenoid,

n is the number of turns.

The solenoid is oriented along the H line, and the change in the magnetic field intensity occurs impulse over time τ when the charge flows through the rod.

In this case, ΔН / Δt according to the Bio-Savard-Laplace law is determined from the relation

ΔН / Δt = I / (2π · R · τ), where I is the magnitude of the current flowing through the rod during a lightning strike.

Therefore, setting τ = 5 · 10 ^-3

By arranging many solenoids in several tiers in a circle, you can get a large number of DC sources that can be used to charge small batteries or one large one.

Example 3

When using the proposed device (figure 3) for water purification, steam arising from heating of the conductive sheet 8 is condensed in any known manner.

In addition, the generated steam can be used to actuate steam mechanisms that utilize the energy of the steam.

Thus, using the proposed device for energy storage, a significant part of the lightning energy can be used in the grounding device, having performed it in the form of a closed shell of the appropriate strength, which is equipped with pressure reducing valves, to produce pure water or pulsed steam engines. The piston of such an engine with a return spring can perform multiple oscillations, and when connected to a permanent magnet placed inside the solenoid, it can serve as the rotor of a linear current generator. In this case, in the device for storing energy, the element for removing energy can be placed at a distance of one to ten meters from the rod 1.

The technical effectiveness of the invention lies in the fact that due to the use of the proposed device in places where there are often thunderstorms, it is possible to utilize part of the lightning energy. The energy of atmospheric electricity, stored with the help of the proposed device during lightning discharges, can be converted into any other type of energy, for example:

- for the production of clean water during evaporation and condensation of steam in the drive;

- for rotation of flywheels of large mass;

- for the accumulation of mechanical energy.

The proposed device is simple both in manufacture and in operation. It can be used especially effectively in areas where thunderstorms are a very frequent atmospheric phenomenon.

Claims (4)

1. A device for storing electric energy, containing a vertically mounted lightning rod connected to the grounding device, and an element for removing electric energy, characterized in that the lightning rod is made in the form of a conductor with the least resistance to the current of atmospheric electricity, near which one or more elements for removal electrical energy, while the element for removing electrical energy contains an inductor, a semiconductor element and a capacitance connected by a follower to form a single electrical circuit and the inductance coil and the semiconductor element are not current resistance greater than 1 Ohm, and the element for removably energy located at a distance of 0.1 to 10 m from the lightning rod. 2. The device for storing electric energy according to claim 1, characterized in that the inductor is placed orthogonally to any plane passing through the axis of the lightning rod, and is made in the form of a toroid, the axis of symmetry of which coincides with the axis of the lightning rod, while the inductor and the semiconductor element have current resistance no more than 1 Ohm. 3. The device for storing electric energy according to claim 1, characterized in that the grounding device is made in the form of an open or closed container filled with an electrolyte. 4. The device for storing electrical energy according to claim 1, characterized in that the lightning rod is made in the form of a rod.

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