RU133825U1 - INSTALLATION FOR OBTAINING SODIUM HYPOCHLORITE SOLUTION - Google Patents

Abstract

An apparatus for producing a sodium hypochlorite solution containing a power supply unit, an electrolyzer with a water trap and a hose with a fitting for removing gaseous substances, a container for preparing the initial solution with a hose for overflowing the initial solution and draining the sodium hypochlorite solution, the capacitance and the reaction chamber of the electrolyzer being located at different levels for gravity fluid movement, characterized in that at least two electrodes installed in the water trap of the electrolyzer are additionally placed in a box-shaped housing from non-conductive material.

Description

A utility model relates to the field of inorganic compounds by electrolytic methods. The installation can be used in medical institutions, rest homes, sanatoriums, catering and utilities, schools, kindergartens, swimming pools, water supply stations, etc.

A known installation for producing sodium hypochlorite containing a power supply, a tank for preparing the initial solution and an electrolyzer (Medical medical electrochemical installation "KRONT-ECO-30", passport R. 941714.01.000 PS, 1997). The disadvantage of this installation is the inability to provide sufficient mass transfer of a solution of electrolyte saline. The installation does not provide sealing, therefore, it is possible that the released gases can enter the room. In addition, for refueling the tank, it is necessary to disassemble its cover and disconnect its elements. Also known is a plant for producing sodium hypochlorite, containing a power supply and an electrolyzer (Electrolysis plants for producing sodium SANER-5, TU 9452-5-20644372, M., 1994). The disadvantage of this installation is the inability to provide sufficient mass transfer of a solution of electrolyte saline. Refueling the electrolysis tank requires removing the cap, which is not tightly attached. The drain of the sodium hypochlorite solution is regulated using a tap, however, since the solution is extremely aggressive, for this case the tap should not have metal elements, since any metal will corrode.

The closest technical solution to the claimed one is an installation for producing sodium hypochlorite containing a power supply unit and an electrolytic cell with a water trap and a fitting for removing gaseous substances, a container for preparing the initial solution with a hose for overflowing the initial solution and draining sodium hypochlorite, and the container and reaction chamber of the electrolyzer are located on different levels for gravity flow of fluid, ("Installation for the production of sodium hypochlorite", RF patent No. 2176982, IPC СВВ 11/06, СВВ 9/00, publ. 12/20/2001) The purpose of this setup is the inability to ensure sufficient mass transfer of the saline electrolyte solution.

The objective of the utility model is to increase the degree of use of saline solutions.

EFFECT: intensification of the process of mixing the saline solution and improvement of mass transfer of the solution of the electrolyte of the saline solution.

The specified technical result is achieved by the fact that the installation for producing a solution of sodium hypochlorite, containing a power supply unit, an electrolyzer with a water trap and a hose with a fitting for removing gaseous substances, the capacity of the initial saline solution with a hose for overflowing the initial solution and draining the sodium hypochlorite solution, moreover, the capacity and chamber reactions of the electrolyzer are located at different levels for the purpose of gravity flow of liquid, and at least two electrodes installed in the water trap of the electrolyzer, additionally Substitute in a box-shaped case of non-conductive material.

The utility model is illustrated by the drawing, where in Fig.1 a schematic diagram of the installation; figure 2 shows a General view of the installation.

The apparatus for producing a sodium hypochlorite solution contains a container for preparing the initial solution and discharging sodium hypochlorite 1, a hose 2 for overflowing the initial solution and discharging sodium hypochlorite, a flexible hose with a nozzle 3 for venting gaseous substances, an electrolyzer 4, a power supply 5, electrodes 6, box the housing 7, the fastening elements 8 of the electrodes 6 to the box-shaped housing 7, a water seal 9.

The initial solution (400 g of sodium chloride per 9 l of water) is poured into a container 1, from where it flows by gravity into the reaction chamber of the electrolyzer 4. By means of an electric current 6, the voltage from the power supply unit 5 is supplied to the electrodes 6. decomposition of sodium chloride with the formation of a solution of sodium hypochlorite. The evolving gases are collected by a water trap 9, which is made in the form of a cap, inside of which electrodes 6 are located, located in a box-shaped case 7 made of non-conductive material and held onto the electrodes 6 by fasteners 8. By placing the electrodes 6 inside the box-shaped case 7 we achieve significant improvement (minimum 10 times) the mass transfer of the solution of the electrolyte of the saline by moving the liquid from the bottom and overflowing together with the released gases inside the box-shaped housing 7, due to the effect of elevator. On the cover of the hydraulic lock 9 there is a flexible hose with a fitting 3 for the removal of gaseous substances. Water lock 9 eliminates the ingress of gases into the room. At the end of the electrolysis process, the resulting sodium hypochlorite solution flows through the drain hose 2 into the tank 1. The gravity-free movement of the liquid is achieved by the difference between the levels of the tank 1 of the prepared initial solution and the discharge of the resulting sodium hypochlorite solution, and the reaction chamber of the electrolyzer 4.

Installation for the production of sodium hypochlorite allows you to intensify the movement of saline in the electrolysis zone and to provide the target product of the desired concentration.

Claims (1)

An apparatus for producing a sodium hypochlorite solution containing a power supply unit, an electrolyzer with a water trap and a hose with a fitting for removing gaseous substances, a container for preparing the initial solution with a hose for overflowing the initial solution and draining the sodium hypochlorite solution, the capacitance and the reaction chamber of the electrolyzer being located at different levels for gravity fluid movement, characterized in that at least two electrodes installed in the water trap of the electrolyzer are additionally placed in a box-shaped housing from non-conductive material.

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