RU2422558C1 - Installation for production of compressed gas by electrolysis of water - Google Patents

Abstract

FIELD: metallurgy. ^ SUBSTANCE: installation for production of compressed gas consists of electrolyser immersed into basin, of pipeline connected with electrolyser for withdrawal of gas generated at electrolysis, of chamber for gas compression, and also of device designed for gas outlet installed in upper part of said chamber. The installation is equipped with a reservoir opened in its upper part. The reservoir is positioned in the basin with its upper part above level of water in the basin. The electrolyser is assembled in a bottom part of the reservoir and is equipped with the pipeline for supply of water into it. The pipeline is ejected through the reservoir to depth of the basin. The chamber for gas compression is open in its lower part and closed in an upper part of a tank located in the basin with its upper part above level of water in the basin. The pipeline for withdrawal of gas generated at electrolysis is ejected from the reservoir and is positioned in the tank so, that its ejecting section is placed in the tank above level of water in the basin. ^ EFFECT: simplified design of installation. ^ 2 cl, 1 dwg

Description

The invention relates to the field of production of compressed gases, and in particular to installations for producing compressed gas using an electrolyzer immersed in a pond.

Known installations that use electrolyzers located at a depth of a pond that produce gas under the influence of hydrostatic pressure, the value of which is determined by the immersion depth of the electrolyzer [see, for example, JP 4156241, JP 57017401, RU 2042050].

As the closest analogue, the author selected the installation for producing compressed gas [RU 2042050], which includes an electrolyzer suspended in cables, immersed in a pond. The gas generated during electrolysis is discharged from the electrolyzer using a pipe connected to it into the gas collector and then fed to an intermediate tank equipped with a system of intake and exhaust valves, pre-filled with water. The intermediate tank is connected via a pipeline to a gas compression chamber equipped with an intake and exhaust valve system pre-filled with compressible gas, in particular air. Moreover, due to the fact that the gas generated during electrolysis and entering the intermediate tank is under the influence of hydrostatic pressure, water flows from the intermediate tank into the gas compression chamber and compresses the air in it. In the upper part of the chamber for gas compression there is a valve designed to release compressed air.

The installation in question can be used to compress various gases. However, it is complex in design due to the presence of suspension cables of the electrolyzer, a gas collector, an intermediate tank connecting these structural components of pipelines, and the presence of valve systems. In addition, the installation in question is not convenient enough in operation, since for repair and preventive maintenance of an electrolyzer located in an aqueous medium, it is necessary to periodically raise it to the surface.

The task of the invention is to simplify the design of the installation.

The essence of the invention lies in the fact that the installation for producing compressed gas, including an electrolyzer immersed in a pond, a pipeline for removing gas generated during electrolysis associated with the electrolyzer, a gas compression chamber, and also means for producing compressed gas located in the upper part the specified chamber, according to the invention contains an open tank in the upper part, placed in a pond so that its upper part is located above the water level in the pond, the electrolyzer is mounted in the don part of the tank and is equipped with a pipe used to supply water to the electrolyzer, led through the tank to the depth of the reservoir, the gas compression chamber is designed as open in the lower part and closed in the upper part of the tank, placed in the reservoir in such a way that its upper part is located above the level of water in the reservoir, the pipeline for discharging the gas generated during electrolysis is removed from the reservoir and placed in the tank so that its outlet section is located in the tank above the water level in the reservoir.

In the particular case of carrying out the invention, the container contains means for gas inlet located in its upper part.

The presence in the inventive installation immersed in a pond electrolyzer provides for the electrolysis of water in the pond. The presence of a tank placed in a reservoir in the manner indicated above, and the location of the electrolyzer in its bottom, as well as the presence of a pipe for supplying water to the electrolyzer, brought through the tank to the depth of the reservoir, allows the electrolyzer to be installed at a depth that determines the value of hydrostatic pressure, under the influence of which gas is formed during electrolysis. The placement of the electrolyzer in the tank eliminates the use of suspension cables, which simplifies the design of the installation.

The presence of a chamber for compressing gas, made in the form of an open in the lower part and closed in the upper part of the tank, placed in the reservoir in the manner indicated above, and the presence of a pipeline for the removal of gas generated during electrolysis, removed from the tank and placed in the tank so that its output the site is located in it above the water level in the reservoir, allows you to supply gas to the upper part of the tank under the influence of hydrostatic pressure, use the specified part of the tank as a gas collector, as well as compress e gas under the influence of the pressure of the column located in the water tank. The implementation of the collection of gas and its compression in the volume of one and the same capacity helps to simplify the design of the inventive installation.

The presence located in the upper part of the tank means intended for the release of compressed gas, allows its selection directly from the tank. As the indicated means, an exhaust valve may be used.

In the event that two gases are formed during the electrolysis (hydrogen and oxygen), the installation can be equipped with an additional pipeline for the removal of another gas generated during electrolysis and an additional chamber made in the form of a container for compressing the specified gas, while the additional pipeline is placed in such an additional container so that its outlet section is located in the tank above the water level in the reservoir.

Thus, the technical result achieved when using the claimed invention is to simplify the design of the installation, which is achieved through the use of simple components in its structure, rational layout of the nodes and minimizing their number.

In addition, the placement of the cell in a tank isolated from the aquatic environment, provides the possibility of repair and maintenance of the cell without lifting it to the surface, which increases the usability of the inventive installation.

In the case where the container contains a means for gas inlet located in its upper part, it is possible to obtain a compressed gas, which is a mixture of gas formed during the electrolysis of water and gas introduced into the upper part of the tank using the above means. An inlet valve may be used as said means.

The drawing shows a General view of the inventive installation.

The installation contains immersed in a reservoir 1 open in the upper part of the tank 2, made, in particular, in the form of a tank made of waterproof material. As a reservoir 1 is used, in particular, a section of the sea. The tank 2 is mounted on the supports 3 fixed at the bottom of the reservoir 1 in such a way that the upper part of the reservoir 2 is located above the water level 4 in the reservoir 1. In the bottom of the reservoir 2 is placed an electrolyzer 5 connected to a direct current or constant voltage source (not shown), in particular, an electrolyzer with unseparated anode and cathode spaces, which allows the process of electrolysis of sea water to produce hydrogen. The cell 5 is equipped with a pipe 6 serving for supplying water to it, withdrawn through the tank 2 to the depth of the reservoir 1.

The installation also contains a container 7 open in the lower part and closed in the upper part, placed in the reservoir 1 in such a way that its upper closed part is located above the water level 4 in the reservoir 1. The container 7 is made, in particular, in the form of an extended glass whose height exceeds the height of the tank 2 and which adjoins part of its side surface to part of the side surface of the tank 2.

A pipe 8 is connected to the electrolytic cell 5 to discharge the gas generated during electrolysis, which is removed from the tank 2 and placed in the tank 7 so that its outlet section is located in the tank 7 above the level 4 of water in the reservoir 1.

In the upper closed part of the tank 7, exhaust valves 9, 10 and an intake valve 11 are installed.

Inside the tank 2 is located along its lateral surface of the shaft 12 for an elevator (not shown), designed to move maintenance personnel and equipment.

Installation works as follows.

Before starting work, the water level in the tank 7 corresponds to the level 4 of the water in the reservoir 1. Valves 9, 10, 11 are closed.

To obtain compressed hydrogen in the electrolysis cell 5, the process of electrolysis of sea water entering it through the pipeline 6 is carried out. Hydrogen generated during the electrolysis process under the influence of hydrostatic pressure, the value of which is determined by the depth of the electrolyzer 5, enters through the pipe 8 into the upper part of the tank 7 not filled with water Accumulating in the upper part of the tank 7, hydrogen displaces part of the water from the tank 7 through its lower open part. In this case, the water level in the tank 7 decreases to a certain level (shown by a dashed line), upon reaching which the gas pressure in the upper part of the chamber becomes equal to the value at which the outlet valve 9, which serves to release hydrogen, is activated. After the valve 9 is opened, hydrogen from the upper part of the tank 7 under the pressure of a column of water located in the tank 7 is discharged through the valve 9 into the compressed hydrogen cylinder (not shown) connected to it, while the water in the tank 7 rises to the initial level corresponding to the level 4 water in the reservoir 1. After the selection of hydrogen valve 9 is closed and the installation cycle is repeated.

To obtain a mixture of gases, for example, a mixture of hydrogen and oxygen, the desired amount of oxygen is introduced into the upper part of the tank 7 through the inlet valve 11 before starting work.

Further, the operation of the installation is carried out as described above, while the compressed gas in the form of a mixture of hydrogen obtained during electrolysis and previously introduced into the upper part of the oxygen tank 7 is discharged through the exhaust valve 10 into a cylinder (not shown) connected to it.

Claims (2)

1. Installation for producing compressed gas, including a cell immersed in a pond, a pipe for removing gas generated during electrolysis, connected to the cell, a gas compression chamber, and also means for producing compressed gas located in the upper part of the specified chamber, characterized in that it contains a tank open in the upper part, placed in a pond in such a way that its upper part is located above the water level in the pond, the cell is mounted in the bottom of the tank and equipped with an employee for supplying water to the electrolyzer with a pipe withdrawn through the reservoir to the depth of the reservoir, the gas compression chamber is made in the form of an open container in the lower part and closed in the upper part, placed in the reservoir in such a way that its upper part is located above the water level in the reservoir, the pipeline for removal of gas generated during electrolysis, it is removed from the tank and placed in the tank so that its outlet section is located in the tank above the water level in the reservoir. 2. Installation according to claim 1, characterized in that the container contains means for gas inlet located in its upper part.