RU99485U1 - PLANT FOR ELECTROLYSIS OF AQUEOUS SALT SOLUTION - Google Patents

Abstract

 1. Installation for the electrolysis of an aqueous solution of salt, including a pipe for supplying water, an electrode chamber and a unit for preparing an aqueous solution of salt, containing interconnected first chamber for a solid salt and a second chamber for an aqueous solution of salt connected to the electrode chamber, characterized in that the node for the preparation of an aqueous solution of salt is made in the form of a container divided by a vertical plate-like partition into the first and second compartments, the partition is installed with the formation of a gap between its lower part and the bottom of the tank, the first compartment is used as the first chamber, the second compartment is used as the second chamber, a pipe for supplying water is installed with the possibility of its supply to the first compartment, and the second compartment is connected to the electrode chamber. ! 2. Installation according to claim 1, characterized in that the capacitance and the electrode chamber are placed in a single housing. ! 3. Installation for the electrolysis of an aqueous solution of salt, including a pipe for supplying water, an electrode chamber and a unit for preparing an aqueous salt solution, comprising a first chamber for solid salt and a second chamber for an aqueous salt solution connected to each other, connected with an electrode chamber, characterized in that the site of preparation of an aqueous solution of salt is made in the form of a container divided by two vertical plate-like partitions into the first, second and third compartments, each of the partitions is installed with the formation of a slotted ora between its lower part and the bottom part of the container, the second compartment is disposed between the first and third compartments and used as the first chamber, a water supply nozzle mounted to

Description

The utility model according to the first and second options relates to electrochemistry and can be used in installations for the electrolysis of an aqueous salt solution, in particular, an aqueous solution of an alkali metal salt, for example, sodium chloride.

Known installations for the electrolysis of an aqueous salt solution, in which the node for the preparation of an aqueous salt solution is made in the form of two chambers communicating with each other, in one of which the dissolution of the solid salt is carried out, and the solution of the salt for electrolysis is taken from the other [see, for example, RU 2057821, RU 96100995, RU 2119555].

As the closest analogue, the author selected the installation for the electrolysis of an aqueous salt solution [RU 2119555].

The installation in question comprises a housing in which a receiving chamber, an electrode chamber, a chamber for collecting the finished product and a unit for preparing an aqueous salt solution are arranged, comprising a solid salt chamber and a chamber for an aqueous salt solution interconnected. The housing contains three compartments formed by vertically oriented walls. The first compartment is a receiving chamber containing a regulator float installed in it, connected to a pipe for supplying water to the installation. The second compartment contains successively arranged one below the other chamber for collecting the finished product, an electrode chamber and a chamber for an aqueous solution of salt, separated by horizontal partitions. The third compartment is a solid salt chamber. The receiving chamber communicates with the electrode chamber, and the electrode chamber communicates with the chamber for collecting the finished product, which is connected through the metering pump to the selection line of the finished product.

In the vertical wall separating the chamber for solid salt and the chamber for an aqueous solution of salt, there are elements by which these chambers communicate with each other, made in the form of holes, slots and the like.

In the installation under consideration, the solid salt is washed by water flowing through the above elements in a vertical wall; in this case, when the solid salt dissolves, only its surface layers contact water, which leads to an increase in the duration of the process for obtaining a concentrated salt solution.

The objective of the claimed utility model for the first and second options is to reduce the time of dissolution of the salt to obtain a concentrated aqueous solution of salt.

The essence of the claimed utility model according to the first embodiment is that in the installation for electrolysis of an aqueous salt solution, including a pipe for supplying water, an electrode chamber and a unit for preparing an aqueous salt solution, comprising a first solid salt chamber and a second aqueous solution chamber interconnected salt, connected to the electrode chamber, according to a utility model, the unit for preparing an aqueous salt solution is made in the form of a container divided by a vertical plate partition into the first and second compartments The partition is installed with the formation of a gap between its lower part and the bottom of the tank, the first compartment is used as the first chamber, the second compartment is used as the second chamber, the water supply pipe is installed with the possibility of its supply to the first compartment, and the second compartment is connected with an electrode chamber.

In the particular case of performing the utility model according to the first embodiment, the capacitance and the electrode chamber are placed in a single housing.

The essence of the claimed utility model according to the second embodiment is that in an installation for electrolysis of an aqueous salt solution, including a pipe for supplying water, an electrode chamber and a unit for preparing an aqueous salt solution, comprising a first solid salt chamber and a second aqueous solution chamber interconnected salt, connected to the electrode chamber, according to a utility model, the unit for preparing an aqueous salt solution is made in the form of a container divided by two vertical plate partitions into the first, w The second and third compartments, each of the partitions is installed with the formation of a gap between its lower part and the bottom of the tank, the second compartment is located between the first and third compartments and is used as the first chamber, the water supply pipe is installed with the possibility of its supply to the first compartment, the third compartment is used as the second chamber and is connected to the electrode chamber.

In the particular case of the utility model of the second embodiment, the capacitance and the electrode chamber are placed in a single housing.

It is fundamentally important in the claimed utility models that, due to the above-described structural features of the inventive installation according to the first and second options, an aqueous salt solution is formed when water seeps through a layer of solid salt placed in the first chamber, which makes it possible to obtain an aqueous solution in the second chamber high concentration salts. In this case, when water seeps through the salt layer, the contact surface of the salt particles with water increases significantly, which accelerates the formation of a high concentration salt solution.

So, in the utility model according to the first embodiment, due to the fact that the pipe for supplying water is installed in a container containing two compartments, with the possibility of its supply to the first compartment, and due to the fact that the first and second compartments communicate with each other through a slotted gap located in the bottom of the tank, fluid is supplied to the second compartment from the bottom of the first compartment. With this installation design, the water entering the first compartment seeps through a layer of salt placed in the first compartment, and a concentrated salt solution is formed, which enters the second compartment through the slotted gap. The specified concentrated salt solution from the second compartment is fed into the electrode chamber.

In the utility model according to the second embodiment, due to the fact that the water supply pipe is installed in a container containing three compartments, with the possibility of its supply to the first compartment, and due to the fact that all three compartments communicate with each other through slotted gaps located in the bottom capacity, the flow of fluid into each subsequent compartment from the previous from the bottom of the corresponding compartment is ensured. With this design of the installation, water entering the first compartment seeps through a layer of salt located in the second compartment, and a concentrated salt solution is formed, which is supplied from the third compartment to the electrode chamber.

Thus, the technical result achieved when using the claimed utility model according to the first and second options is to reduce the time of dissolution of the salt to obtain a concentrated aqueous solution of salt.

In the case when in the utility model according to the first and second options, the capacitance and the electrode chamber are placed in a single housing, the convenience of transportation and installation of the installation is ensured.

Figure 1 presents a General view of the inventive installation according to the first embodiment.

Figure 2 presents a General view of the inventive installation according to the second embodiment.

The installation according to the first embodiment of the utility model (Fig. 1) comprises an electrode chamber 1 including electrodes 2 connected to a constant voltage or direct current source (not shown in the drawing). The installation also contains a node for the preparation of an aqueous solution of salt, made in the form of a tank 3, divided by a vertical plate partition 4 into a first compartment 5 and a second compartment 6. The partition 4 is installed with the formation of a gap gap 7 between its lower part and the bottom of the tank 3.

The first compartment 5 of the tank 3 is designed to accommodate solid salt and is connected to a pipe 8 for supplying water. The second compartment 6 of the tank 3 is connected using a pipe 9, in which the pump 10 is placed, with the electrode chamber 1.

Installation according to the first embodiment of the utility model works as follows.

In the compartment 5 of the tank 3 load solid salt. Through the pipe 8 in the compartment 5 of the tank 3, water is supplied in an amount that ensures the presence of solid salt under a layer of water.

Water seeps through a layer of salt placed in compartment 5, whereby a concentrated aqueous salt solution is formed, which enters compartment 6. Said concentrated salt solution from compartment 6 is supplied via line 9 via pump 10 to electrode chamber 1.

In the electrode chamber 1, the process of electrolysis of an aqueous salt solution is carried out to obtain the target products. The target electrolysis products are selected from the electrode chamber 1 using means for selecting finished products (not shown in the drawing).

The installation according to the second embodiment of the utility model (FIG. 2) comprises an electrode chamber 1 including electrodes 2 connected to a constant voltage or direct current source (not shown in the drawing). The installation also contains a unit for the preparation of an aqueous solution of salt, made in the form of a container 3, divided by vertical plate partitions 4 and 5 into the first compartment 6, the second compartment 7 and the third compartment 8. The partitions 4 and 5 are installed with the formation of gap gaps 9 and 10, respectively, between the bottom part of each of the partitions 4 and 5 and the bottom of the tank 3.

The first compartment 6 of the tank 3 is connected to the pipe 11 for supplying water. The second compartment 7 of the tank 3 is designed to accommodate solid salt. The third compartment 8 is connected using a pipe 12, in which the pump 13 is placed, with the electrode chamber 1.

Installation according to the second embodiment of the utility model works as follows.

In the compartment 7 of the tank 3 load solid salt. Through the pipe 11 in the compartment 6 of the tank 3, water is supplied in an amount ensuring that the solid salt is in the compartment 7 under a layer of water. Water entering the compartment 7 seeps through a layer of the salt placed in it, and a concentrated aqueous solution of salt is formed, which is supplied from the compartment 8 through a pipe 12 using a pump 13 to the electrode chamber 1.

In the electrode chamber 1, the process of electrolysis of an aqueous salt solution is carried out to obtain the target products. The target electrolysis products are selected from the electrode chamber 1 using means for selecting finished products (not shown in the drawing).

Claims (4)

1. Installation for the electrolysis of an aqueous solution of salt, including a pipe for supplying water, an electrode chamber and a unit for preparing an aqueous solution of salt, containing interconnected first chamber for a solid salt and a second chamber for an aqueous solution of salt connected to the electrode chamber, characterized in that the node for the preparation of an aqueous solution of salt is made in the form of a container divided by a vertical plate-like partition into the first and second compartments, the partition is installed with the formation of a gap between its lower part and the bottom of the tank, the first compartment is used as the first chamber, the second compartment is used as the second chamber, a pipe for supplying water is installed with the possibility of its supply to the first compartment, and the second compartment is connected to the electrode chamber. 2. Installation according to claim 1, characterized in that the capacitance and the electrode chamber are placed in a single housing. 3. Installation for the electrolysis of an aqueous solution of salt, including a pipe for supplying water, an electrode chamber and a unit for preparing an aqueous salt solution, comprising a first chamber for solid salt and a second chamber for an aqueous salt solution connected to each other, connected with an electrode chamber, characterized in that the site of preparation of an aqueous solution of salt is made in the form of a container divided by two vertical plate-like partitions into the first, second and third compartments, each of the partitions is installed with the formation of a slotted The gap between its lower part and the bottom of the tank, the second compartment is located between the first and third compartments and is used as the first chamber, the water supply pipe is installed with the possibility of its supply to the first compartment, the third compartment is used as the second chamber and connected to the electrode chamber . 4. Installation according to claim 3, characterized in that the capacitance and the electrode chamber are placed in a single housing.