SU666917A1 - Method of cleaning articles from alkali metals and their compositions - Google Patents

Abstract

A METHOD FOR CLEANING PRODUCTS FROM ALKALINE METALS AND THEIR COMPOUNDS by rinsing with a liquid while simultaneously removing the hydrogen formed, characterized in that, in order to improve intrinsic safety and quality of cleaning, rinsing is carried out with continuous vacuum.

Description

This invention relates to methods for cleaning products from alkali metals and. their compounds and can be used in the nuclear energy and chemical industries.

A known method of cleaning products from an alkali metal by washing with water, using a spray of inert gas pressure, circulates the resulting gaseous mixture and removes all the hydrogen along with the gaseous mixture.

However, the use of inert gas increases the cost of cleaning; the alkali metal is not removed from narrow gaps, cracks, threaded joints, etc., since the circulation of the gas / gas mixture in these places is impracticable, the formation of maximum permissible hydrogen concentration in the system is possible, which represents a potential danger of formation of an explosive mixture; and it is possible that the alkali metal that has accumulated in one place can ignite when it comes down to an aqueous solution of alkali flowing down the surface of the product being cleaned.

There is also known a method of cleaning products from alkali metals and their compounds by washing with liquid while simultaneously removing the formed hydrogen as it accumulates.

The disadvantages of this method include the possibility of explosive processes resulting from the instantaneous transformation of water into steam upon contact with an alkali metal, and the possibility of the formation and release of aerosols, such as sodium oxide, in the form of smoke. In addition, the complete and final removal of the alkali metal from narrow gaps in the slots, threaded connections, etc. is not ensured; corrosion is not excluded due to the reaction products forming on the structural material and its shape.

due to a decrease in the temperature effect of the reaction.

The presence of hydrogen under higher than atmospheric pressure in an alkali metal containing tank poses a potential hazard of an explosive mixture.

The aim of the invention is to improve the explosion safety and quality of cleaning, V

This goal is achieved in that the washing is carried out with continuous vacuuming.

The method consists in the following.

The product to be cleaned is placed in an airtight container. Air is removed from the tank by a vacuum pump, and water is then introduced into the tank while the vacuum pump is running. The hydrogen produced by the interaction of water with an alkali metal is continuously sucked with a vacuum pump and discharged into the atmosphere. At the same time, the water supply is regulated so that the amount of hydrogen produced does not exceed the capacity of the vacuum pump used.

A flow meter, such as a rotameter with a lightweight float, serves to indicate the flow rate of hydrogen in the cleaning process on the vacuum line. The start of the reaction of an alkali metal / 1a with water is determined by raising the rotameter float. The purification process is controlled by the amount of water supplied to the vessel. The end of cleaning is determined by the position of the rotameter float on the bottom stop,

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Water vapor, which is carried along with hydrogen from the reaction zone, is condensed in a condenser installed on the vacuum line. After complete. The NILE reaction of the vacuum pump is turned off, the tank is communicated with the atmosphere, the aqueous alkali solution is drained, and the parts are washed and dried. This completes the cleaning process. At atmospheric pressure and higher, the interaction of water with an alkali metal is accompanied by the generation of heat sufficient to melt it. Molten alkali metal reacts with water to explode. Character

The interaction of water with an alkali metal changes significantly if this process takes place at a pressure below atmospheric. In this case, water and alkali metal are separated by a layer.

water vapor, t, e. alkali metal reacts directly. not with water, but with its vapors. The heat released during the reaction is distributed in this case so that a part of it is now spent on the vaporization of water, thereby preventing melting

explosion. Under these conditions, aerosols, such as metal oxides, in the form of smoke, and temperatures do not emit. The temperature of the process does not exceed the melting point of the alkali metal, which virtually eliminates the corrosive effect of the reaction products on the equipment material;

Thus, the proposed method eliminates the formation of explosive processes, due to the continuous-. By removing hydrogen from the tank with a vacuum pump, it allows quality cleaning of products of any complexity and size, since filling the tank with water at a pressure below atmospheric allows the liquid to penetrate any microspot and micropore. In addition, aerosol particles, such as sodium oxide, are not emitted in the form of smoke into the atmosphere, as a result of which the method is environmentally friendly to the environment, and there is virtually no corrosive effect of reaction products on the material of the product.

Claims (1)

METHOD FOR CLEANING PRODUCTS FROM ALKALI METALS AND THEIR COMPOUNDS by washing with a liquid while removing the generated hydrogen, characterized in that, in order to increase the explosion safety and quality of cleaning, washing is carried out with continuous vacuum,.