RU2010146315A - METHOD FOR REDUCING ELECTRICITY COSTS IN ELECTROLYZIS AND INSTALLATION FOR ITS IMPLEMENTATION - Google Patents

Abstract

 1. The electrolysis method, in which the electrolyte is supplied to the electrodes to which the voltage is applied, the electrolyte decomposition under the influence of electric current, the discharge of the resulting gases, characterized in that an inverted vertical elevator type conveyor is installed in the electrolytic cell body, into which ladles it enters gas (s) and / or steam generated during electrolysis, while the ladles, when filled with gases, rise up under the action of the Archimedes force and fall down from the other side Oron conveyor after their release from the gases, thereby providing a movement of the conveyor, which ensures rotation of the shaft power generator, wherein the electric current supplied from the generator through a matching power supply or directly to the cell electrodes, reducing the power consumption of the external power source. ! 2. The method according to claim 1, characterized in that the gases generated during electrolysis are separated, and only the lightest gas, for example hydrogen, enters the conveyor buckets, and the other gas (s) and / or steam float to the surface independently or are removed from electrolyzer through a gas outlet, or enter the ladles of another conveyor. ! 3. The method according to claim 1, characterized in that in the upper positions of the buckets or close to it, the gas or gases in them are ignited using a spark discharge or in another way. ! 4. The method according to claim 1, characterized in that the installation uses only one bucket, which rises when it is filled with gas (s) and / or steam and falls under the action of its own gravity after the bucket is released from gases through

Claims (22)

1. The electrolysis method, in which the electrolyte is supplied to the electrodes to which the voltage is applied, the electrolyte decomposition under the influence of electric current, the discharge of the resulting gases, characterized in that an inverted vertical elevator type conveyor is installed in the electrolytic cell body, into which ladles it enters gas (s) and / or steam generated during electrolysis, while the ladles, when filled with gases, rise up under the action of the Archimedes force and fall down from the other side Oron conveyor after their release from the gases, thereby providing a movement of the conveyor, which ensures rotation of the shaft power generator, wherein the electric current supplied from the generator through a matching power supply or directly to the cell electrodes, reducing the power consumption of the external power source. 2. The method according to claim 1, characterized in that the gases generated during electrolysis are separated, and only the lightest gas, for example hydrogen, enters the conveyor buckets, and the other gas (s) and / or steam float to the surface independently or are removed from electrolyzer through a gas outlet, or enter the ladles of another conveyor. 3. The method according to claim 1, characterized in that in the upper positions of the buckets or close to it, the gas or gases in them are ignited using a spark discharge or in another way. 4. The method according to claim 1, characterized in that the installation uses only one bucket, which rises when it is filled with gas (s) and / or steam and falls under the action of its own gravity after releasing the bucket from gases through a special valve that opens in upper bucket position and lockable in lower bucket position. 5. The method according to claim 1 or 4, characterized in that the installation uses two buckets on different sides of the conveyor, when one bucket rises when it is filled with gas (s) and / or steam, at the same time the other bucket is lowered after it is released from gases and / or steam. 6. The method according to claim 1, characterized in that the gas (s) and / or steam generated during electrolysis, enter the storage tank, from which portions through the valve and exhaust enter the conveyor buckets or are used for other purposes. 7. The method according to claim 1, characterized in that in the installation or in the housing with a conveyor and / or housing with an electrolytic cell, increased or reduced pressure is created. 8. The method according to claim 1, characterized in that the conveyor in a separate housing is used as a stand-alone device to reduce the cost of electricity of individual cells or to receive electricity from other sources of gas and / or steam. 9. The method according to claim 1, characterized in that the electrolyte is supplied to the casing with the electrolyzer, and water is poured into the casing with the conveyor. 10. The method according to claim 1 or 9, characterized in that an electrolyte is supplied into the housing with the electrolyzer, and a liquid with a higher density is poured into the housing with the conveyor. 11. Installation for implementing the electrolysis method, characterized in that an inverted vertical elevator type conveyor is installed in the electrolytic cell body with the electrolyte, into the ladles of which gas (s) and / or steam produced during the electrolysis are supplied directly or through special devices, when filling them with gases, the buckets rise up under the action of the Archimedes force and fall down on the other side of the conveyor after releasing them from the gases, thereby ensuring the movement of the conveyor, which ensures rotation of the shaft of the generator, while the electric current from the generator flows through the matching power supply unit or directly to the electrodes of the electrolyzer, reducing the energy consumption from an external current source, while the shape and magnitude of the voltage on the electrodes of the electrolyzer, the number of shafts in the conveyor, the design and configuration of the conveyor, the place (a) of filling the buckets on the conveyor can be different depending on the design of the electrolysis unit and the electrolysis technology, while ETS electrolyzers and conveyors in the installation can also be different, and the cell (s) and Conveyor (s) may be located in one or in separate housings, each conveyor may operate on separate or common to several conveyors generator. 12. Installation according to claim 11, characterized in that the gases generated during electrolysis are separated, and only the lightest gas, for example hydrogen, enters the conveyor buckets, and the other gas (s) and / or steam float to the surface on their own, or are removed from the electrolyzer through the gas outlet, or through special devices enter the ladles of another conveyor. 13. Installation according to claim 11, characterized in that the upper part of the conveyor is higher than the liquid level in which it is located. 14. Installation according to claim 11, characterized in that in the upper position of the buckets or close to it, the gas or gases in them are ignited by means of a spark discharge or otherwise. 15. Installation according to claim 11, characterized in that only one bucket is installed on the conveyor, which rises when it is filled with gas (s) and / or steam and is lowered by its own gravity after the bucket is freed of gases through a special valve that opens in the upper position of the bucket and closing in the lower position of the bucket, while the poles of the generator or power supply are switched accordingly, or a reversible generator or two generators are used, or using a special mechanical stroystva provided generator shaft rotation in one direction. 16. Installation according to clause 15, characterized in that instead of the conveyor, a vertical guide is installed for the movement of the bucket. 17. Installation according to claim 11 or 15, characterized in that two buckets are installed on the conveyor on opposite sides of the conveyor, when one bucket rises when it is filled with gas (s) and / or steam, at the same time another bucket, after it is released from gases and / or steam is lowered. 18. Installation according to claim 11, characterized in that the gas (s) generated during electrolysis enters the storage tank, from which it enters the conveyor buckets through the valve and gas outlet in portions, while opening and closing the valve can be provided through a special device conveyor movement, valve weight, or other means. 19. The installation according to claim 11, characterized in that in the installation or in the housing with a conveyor and / or housing with an electrolyzer, increased or reduced pressure is created. 20. Installation according to claim 11, characterized in that the conveyor in a separate housing is used as a stand-alone device to reduce the cost of electricity of individual cells or to receive electricity from other sources of gas (s) and / or steam. 21. The installation according to claim 11, characterized in that electrolyte is supplied into the housing with the electrolyzer, and water is poured into the housing with the conveyor, using special devices for supplying gas (s) and / or steam to the conveyor ladles. 22. Installation according to claim 11 or 21, characterized in that electrolyte is supplied into the housing with the electrolyzer, and a liquid with a higher density is poured into the housing with the conveyor, using special devices for supplying gas (s) and / or steam to the ladles conveyor.