RU194318U1 - Device for electrochemical treatment of water and aqueous solutions - Google Patents

Abstract

The utility model can be used in agriculture for processing seed and planting material, as well as for medical and domestic purposes. A device for the electrochemical treatment of water and aqueous solutions contains a tank 1 for water and aqueous solutions, in which the electrodes are mounted: cathode 3 and anode 2, made in the form of flow channels, connected to a direct current source, tanks for anolyte 5 and catholyte 6. Channels in the electrodes are made adjustable by installing valves 4 to change the flow rate of anolyte 5 and catholyte 6. The utility model allows you to change the flow rate of anolyte and catholyte.

Description

The utility model relates to the field of electrochemical technology, in particular to installations for the preparation of alkaline and acidic media for use in agriculture for the treatment of seed and planting material, for medical and domestic purposes.

A device for the electrochemical treatment of water and aqueous solutions (RF patent No. 155959, published October 20, 2015, Bull. No. 29, authors: Zefirov I.V., Kuznetsova N.I., Martynov P.S.), comprising a housing in the form of a container with a cover, an anode chambers with an ion-permeable diaphragm and a cathode are installed in the casing, electrodes are installed in the respective chambers — an anode and a cathode attached to the cap, and a direct current source connected to the electrodes and the anode and cathode chambers are connected non-conductively channel with a valve (faucet) that allows you to separate the anode and cathode activation chambers when receiving alkaline and acidic media hydraulically and electrically at the same time as turning off the power source when closing the valve, which prevents the neutralization of positively and negatively charged ions of water or aqueous solution

The disadvantages of this device are: inseparable design of the device, which does not allow to disconnect the capacity of the anolyte from the capacity of the catholyte.

A device for the electrochemical treatment of water and aqueous solutions is known (RF patent No. 184255, published October 19, 2018, Bull. No. 29, authors: Gaididei S.V., Zefirov I.V., Kuznetsova N.I., Zefirov M. I.), which consists of an anode capacitance with a lid in which an electrode is mounted connected to the plus of the direct current source, a container with a lid in which is mounted an electrode connected to the minus of the direct current source. Gates are attached to the anode and cathode capacities, which are connected by a removable channel. Water or an aqueous solution is poured into the anode and cathode tanks with open valves. When donning covers with electrodes on the anode and cathode capacitance and connecting a DC source, the process of electrochemical treatment of water or an aqueous solution begins. As alkaline and acidic media form, the valves close, the removable channel is removed, and the containers with anolyte and catholyte are ready for use.

The disadvantages of this device are: non-flowing design of the device, which does not allow to obtain separately anolyte and catholyte.

The closest in technical essence to the claimed utility model is a device (RF patent No. 189424, published May 22, 2019, Bull. No. 15, authors: Gaididei SV, Zefirov I.V., Zefirov M.I., Kuznetsova N. I.) for the electrochemical treatment of water and aqueous solutions, containing a container with an aqueous solution in which the cathode and anode electrodes are mounted, made in the form of calibrated flow channels, connected to a direct current source, the containers for anolyte and catholyte are made separately and do not have an electric and hydraulic contact and between themselves and with a container for water and aqueous solutions.

The disadvantage of this device is that there is no possibility of changing the flow rate of anolyte and catholyte.

The problem, which the utility model is aimed at, is to create a device that allows you to change the flow rate of anolyte and catholyte.

The specified technical result in the implementation of the utility model is achieved by the fact that in the inventive device in the tank for water and aqueous solutions are two flow-through electrodes connected to a constant current source - an anode and a cathode. Unlike the known device for electrochemical treatment of water and aqueous solutions, the anode and cathode have adjustable channels that allow you to change the flow rate of anolyte and catholyte by installing valves.

The new proposed solution is the ability to change the flow rate, and, consequently, the degree of dissociation of water molecules and aqueous solutions.

The claimed population is unknown, i.e. it meets the condition of "novelty." Since the claimed is implemented through the use of known nodes, it meets the condition of "industrial applicability". The specified device is shown in the figure.

The device consists of a tank (1) for water and aqueous solutions, in which electrodes are mounted - the anode (2) and the cathode (3), made in the form of adjustable channels that allow you to change the flow of anolyte and catholyte due to installed valves (4), located below two tanks for anolyte (5) and catholyte (6), into which anolyte and catholyte merge during operation of the device.

The device operates as follows. Water or an aqueous solution is poured into a container (1). In this case, anolyte and catholyte are formed near the electrodes (2) and (3), made in the form of adjustable channels with valves (4) designed to change the flow rate of anolyte and catholyte. The resulting anolyte and catholyte enter the respective containers with anolyte (5) and catholyte (6).

Claims (1)

A device for the electrochemical treatment of water and aqueous solutions, containing a container for water and aqueous solutions, in which the electrodes are mounted: a cathode and anode made in the form of flow channels, connected to a direct current source, containers for anolyte and catholyte, characterized in that the channels are the electrodes are made adjustable by installing valves to change the flow rate of anolyte and catholyte.

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