EA037097B1 - Electric power plant using atmospheric electricity - Google Patents

Abstract

An electric power plant using atmospheric electricity consists of an electric power network differing from prior art ones by the presence of a voltage converter, a device for the use of atmospheric electricity comprising a receiving unit made in the form of a cross-shaped antenna element located along the vertical, and triboelements vertically connected thereto, wherein the lower triboelement has a spherical shape and a needle fixed on it and connected to the upper disc of a capacitor; a grounded needle is fixed on the base of the device and connected by its vertex to the lower disc of the capacitor; connected to the needles is a network having a spark arrester on the upper branch, the second electrode of the spark arrester is connected to an inductance coil which is connected to the lower grounded needle, and the second self-induction coil is connected to a rectifier connected to a capacitor of high capacitance connected to a battery; a chamber of a dielectric material accommodating the capacitor with the upper and lower discs is fitted out with a spark arrester; the upper and lower needles have a dielectric coating; the receiving unit comprises a metal capsule containing a radioactive isotope, the triboelements are coated with a high-conductivity material; the role of a lift is played by metal supports connected on top with a metal ring covered with a dielectric material; a metal base; a remote control unit connected to a double switch on the upper and lower needles and to a battery charge indicator connected to the battery; a metal protective casing with an anticorrosive coating. The proposed technical solution - an electric power plant using atmospheric electricity - is able to operate independently in a continuous mode.

Description

(54) POWER PLANT USING ATMOSPHERIC ELECTRICITY

(43) 2019.07.31 (56) RU-C1-2366121 (96) 2018000019 (RU) 2018.01.31 RU-C1-2046210 RU-C2-2430455 (71) (73) Applicant and patentee: BLESKIN BORIS IVANOVICH (RU) US-A1-20130093261

(72) Inventor:

Bleskin Boris Ivanovich, Churakova Ekaterina Yurievna, Verbov Dmitry Valerievich, Bleskina Elizaveta Ivanovna, Bleskina Tatyana Ivanovich, Bleskin Vasily Ivanovich, Bleskin Ivan Borisovich, Ippolitov Viktor Petrovich (RU)

037097 Bl

037097 B1 (57) An electrical station using atmospheric electricity consists of an electrical network and differs from those previously known by the presence of a voltage converter, a device for using atmospheric electricity, containing a receiving unit made in the form of a cross-shaped antenna element located vertically and triboelements connected vertically to it, in this case, the lower triboelement is spherical and a needle connected to the upper disc of the capacitor is fixed on it, a grounded needle is fixed on the base of the device, connected by its top to the lower disc of the capacitor, a network is connected to the needles, which has a spark gap on the upper branch, the second electrode of which is connected to the coil inductance, which is connected to the lower grounded needle, and the second self-induction coil is connected to a rectifier, which is connected to a large capacitor connected to a battery; a dielectric chamber, in which a capacitor with upper and lower disks is located, is equipped with a spark gap, while the upper and lower needles are coated with a dielectric, the receiving unit has a metal capsule containing a radioactive isotope, triboelements covered with a material with high conductivity, a lift perform metal supports connected at the top with a metal ring covered with a dielectric, a metal base, a remote control unit connected to a double switch on the upper and lower needles and a battery charge indicator connected to the battery, a metal protective casing with an anti-corrosion coating. The proposed technical solution - a power plant using atmospheric electricity - is capable of operating autonomously in a continuous mode.

The invention relates to electrical engineering, namely to power plants operating using atmospheric electricity.

There are known power plants - hydroelectric power plants, heating plants, nuclear power plants that provide electricity to the power grid.

The disadvantage of these power plants is the high cost of electricity received for use, the harmful effects on the environment, as well as the inability to operate the power grid autonomously, in isolation, outside of communication with these power plants, including in the event of a power outage.

Known devices for using atmospheric electricity (RF patents No. 2332816, 2000128, 2369991, 2482640, 2030132, 2571237; Eurasian patent No. 028417).

These technical solutions are designed for the accumulation of atmospheric electricity in a constant mode in the conditions of the earth's surface, the sea, as well as in the atmosphere without contact with the earth's surface (Eurasian application for invention No. 201500585).

The purpose of the proposed technical solution is to create a new, previously unknown, device - an electric power plant, which differs from the previously known by the ability to work autonomously, without connection with electrical supply from known sources of electricity (hydroelectric power station, thermal power plant, nuclear power plant) and the ability to operate continuously in an environmentally friendly atmospheric electricity.

The proposed technical solution differs from the previously known ones in that it is a complex consisting of an electrical network, a device that accumulates electricity from the atmosphere, and a voltage converter.

The power station consists of an electrical network 7 and differs from those previously known by the presence of a voltage converter 25 (for example, 12 to 220 V), a device for using atmospheric electricity, consisting of a receiving unit made in the form of a cross-shaped antenna element 6 located vertically, connected to a metal ( for example, a steel) capsule 24 containing a radioactive isotope (for example, uranium or cobalt), triboelements 3, 4, 5; a needle 10, covered with a dielectric, descends from the lower spherical triboelement, the end of which is connected to the upper disc of the capacitor, which is enclosed in a dielectric chamber 17; from the base 8 of the chamber, there is a grounded needle 9 covered with a dielectric, at the top of which the lower disc of the capacitor is fixed. Triboelements are made of metal and are interconnected by means of a metal nose 4 vertically, in series. An air network is connected to the upper needle, on the upper branch of which there is a spark gap 11, the second electrode of which is connected to an inductance coil 12, which is connected to the lower grounded needle 9; the second self-inductance coil 15 is connected to a rectifier 16 connected to a large-capacity capacitor 13 connected to a battery 14. The capacitor is enclosed in a dielectric chamber and has a spark gap 18.

The role of the hoist of the receiving unit is performed by metal supports 2, connected at the top with a metal ring 19 covered with a dielectric, which fixes the lower triboelement 3, below the metal base 8. The receiving unit is made in the form of a cross-shaped antenna element 6 located vertically, connected to a metal (for example, steel) a capsule 24 containing a radioactive isotope (for example, uranium or cobalt) and triboelements 3, 4, 5, to enhance the accumulation of atmospheric electricity, is coated with a material with high conductivity (for example, high-purity gold). To protect the battery from excessive overcharging, a double switch 21 is introduced on the upper and lower needles, the battery charge indicator 22 is connected to it (to the battery). For remote control of the device, a remote control unit 23 is introduced, connected to a double switch and a battery charge indicator (for example, a voltmeter). The device is protected from external influences, operational safety is provided by a metal casing with an anti-corrosion coating 20.

The power plant operates as follows. Triboelements located vertically and connected to a cruciform antenna allow, with a minimum volume, to create a maximum surface for triboelectrization by various atmospheric factors. As a result, a potential difference arises between the capacitor disks located on the upper and lower needles. During snowstorms, rain, storms, thunderstorms, this process intensifies. The voltage build-up also depends on the rise height of the upper electrode with antenna and triboelements, since Ez is the vertical component of the Earth's electric field, up to 200 V / m from the Earth's surface, increasing during the period of disturbance. A metal capsule containing a radioactive isotope ionizes the air, creating a zone of electrical breakdown of the air, and increases the efficiency of capturing and collecting electrical energy from the atmosphere.

When the spark gap caused by an increase in voltage is broken through, an alternating current arises on the capacitor under the influence of atmospheric electricity in the self-induction coil, the electricity associated with the current in the coil flows through the rectifier into the high-capacity capacitor, from it to the battery, and from the battery through the voltage converter to the power grid.

The proposed technical solution is a power plant using an environmentally friendly

- 1 037097 atmospheric electricity, capable of operating autonomously in a constant mode without connection to the power grid, including in remote, hard-to-reach areas where electricity is not available under current conditions, in case of emergencies.

Claims (1)

An electrical station using atmospheric electricity, consisting of an electrical network, which differs from those known previously by the presence of an electrically connected voltage converter and a device for using atmospheric electricity, containing a receiving unit made in the form of a vertical cross-shaped antenna element having a metal capsule at the top containing a radioactive isotope , and triboelements electrically connected vertically to it; the lower triboelement of a spherical shape, on which an electrically conductive needle is electrically connected to the upper disk of the capacitor; on the base of the device, a grounded electrically conductive needle is fixed, electrically connected by its apex to the lower disc of the capacitor; a network is electrically connected to the needles, which has a spark gap on the upper branch, which is connected to an inductance coil connected to the lower grounded needle, which by electromagnetic action induces an electric current in the second self-induction coil, which is connected to a rectifier, which is connected to a large-capacity capacitor connected to a battery ; a dielectric chamber in which a capacitor with upper and lower disks is located is equipped with a spark gap, while the upper and lower needles are coated with a dielectric; triboelements are coated with a highly conductive material; the lift is made of metal supports connected at the top with a metal ring covered with a dielectric holding the receiving unit vertically, a metal base, a remote control unit connected to a double switch on the upper and lower needles to protect the battery from overcharging and a battery charge indicator connected to the battery, a metal protective casing with a corrosion-resistant coating, which contains: a chamber with a capacitor with discs, needles, a network, a large-capacity capacitor and a battery.