RU2735039C1 - Method for electric power generation from underwater sea currents and device for its implementation - Google Patents

Abstract

FIELD: electricity.

SUBSTANCE: group of inventions relates to a method of generating electric power from underwater sea currents and a device for its implementation. Method of electric power generation from underwater sea currents consists in the fact that on the flow path the receiving pipeline is installed, on which magnets are placed and in which metal electrodes are installed. Electromagnets are installed on receiving pipeline. Magnets are Horseshoe-shaped. Magnets and electromagnets provide separation of positive and negative water flows into positive and negative water ions flow. Then the pipeline is divided into two branches, in which metal electrodes are installed. Isolated electrodes are brought to land, where they are connected to inverter.

EFFECT: group of inventions is aimed at enabling the use of underwater sea currents energy to generate electric power.

3 cl

Description

The group of inventions relates to a method for generating electricity from underwater sea currents and a device for its implementation.

There is a known method of generating electricity from underwater sea currents, which consists in the fact that a receiving pipeline is installed on the flow path, on which magnets are placed and in which metal electrodes are installed, and a device for generating electricity from underwater sea currents containing a receiving non-metallic pipeline, magnets located on pipeline, metal electrodes located in the pipeline (see GB 2395369 A, 19.05.2004, H02K44 / 08).

The known method and device for generating energy from underwater sea currents are taken as the closest analogue (prototype).

The proposed group of inventions is aimed at using the energy of underwater sea currents to generate electricity by separating anions and cations of sea water in a non-metallic pipeline by horseshoe magnets and electromagnets into two separate branches of positive and negative ions.

The technical result is realized due to the fact that seawater has electrical conductivity and contains positive and negative ions.

The technical result is achieved in a method for generating electricity from underwater sea currents, which consists in the fact that a receiving pipeline is installed on the flow path, on which magnets are placed and in which metal electrodes are installed, according to the invention, electromagnets are installed on the receiving pipeline, the magnets are made U-shaped, while magnets and electromagnets provide separation in the flow of positive and negative ions of water into mainly positively charged and negatively charged water flows, then divide the pipeline into two branches, in which metal electrodes are installed, and isolated electrodes are brought out onto land, where they are connected to an inverter.

The technical result is also achieved by the fact that the device for generating electricity from underwater sea currents containing a receiving non-metallic pipeline, magnets located on the pipeline, metal electrodes located in the pipeline, according to the invention, is equipped with electromagnets mounted on the pipeline, the magnets are made in a horseshoe shape, while the receiving pipeline is divided into two branches, in which metal electrodes are installed, and the insulated electrodes are brought out to land and connected to the inverter.

In addition, the receiving part of the pipeline is made in the form of a funnel passing into a cylinder.

On the way of a part of the underwater sea current, a non-metallic pipeline is placed in the form of a funnel turning into a cylindrical pipeline. Permanent horseshoe magnets and electromagnets are installed on the pipeline. Electromagnets separate (attract) positive and negative ions in motion on opposite sides of the pipeline. The pipeline is divided into two branches. In one branch, predominantly positive ions will move, and in the other branch, predominantly negative ions will move. Thus, an electric ionic current will arise in each branch. The location of metal conductors in pipelines will make them an anode and a cathode, to which the charge of anions and cations is transferred. Water that has given a charge to the electrodes is returned to the flow. Through insulated conductors, the charges of the electrodes are taken out to land, where they are connected to an inverter. The AC voltage received at the output of the inverter is transformed for further use. This method of generating clean, renewable electricity will contribute to solving the energy problem. The capacity of the generated electricity will depend on the number of water intakes and transformation units.

Claims (3)

1. A method of generating electricity from underwater sea currents, which consists in the fact that a receiving pipeline is installed on the flow path, on which magnets are placed and in which metal electrodes are installed, characterized in that electromagnets are installed on the receiving pipeline, the magnets are horseshoe-shaped, while magnets and electromagnets provide separation in the flow of positive and negative water ions into predominantly positively charged and negatively charged water flows, then divide the pipeline into two branches, in which metal electrodes are installed, and isolated electrodes are brought out onto land, where they are connected to an inverter. 2. A device for generating electricity from underwater sea currents, containing a receiving non-metallic pipeline, magnets located on the pipeline, metal electrodes located in the pipeline, characterized in that the device is equipped with electromagnets mounted on the pipeline, the magnets are horseshoe-shaped, while the receiving pipeline is divided into two branches, in which metal electrodes are installed, and insulated electrodes are brought out to land and connected to an inverter. 3. The device according to claim. 2, characterized in that the receiving part of the pipeline is made in the form of a funnel passing into a cylinder.