SU1370669A1 - Evaporator for radioactivity-contaminated liquid - Google Patents

Abstract

This invention relates to a technique for the processing of radioactive waste, and more specifically to evaporators. The aim of the invention is to increase efficiency and reliability. The goal is achieved by the fact that the evaporator is equipped with a shell and a removable container for the bottoms residue introduced with a gap in the shell. By abandoning the special drainage pipe of the bottom residue, collecting the bottom residue in a container installed directly in the apparatus in such a way that the design of the apparatus is a protective cover from radioactive radiation, it is possible to increase the efficiency and reliability of the evaporator. 1 il. with (L

Description

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The invention relates to heat energy; e, in particular, to designs of evaporators for processing by distilling radioactively contaminated liquids formed during the operation of nuclear power plants and radiochemical laboratories.

The aim of the invention is to increase the efficiency and reliability of operation of an evaporator for radioactively contaminated liquid,

The drawing shows a diagram of the proposed device.

The evaporator for radioactively contaminated liquid contains a vertical case 1 inside which is placed a heating water pipe section 2 located in the liquid volume of the evaporator. The heating section is divided into external 3 and internal 4 evaporation zones. In the steam volume of the body there is a unit 5 for cleaning steam. With the help of the shell 6, a chamber is formed in the outer zone, in which a removable container 7 is installed, the latter is wound up with a gap in the shell and installed at the level of the pipes of the heating section. The container 7 is provided with a branch pipe with shut-off valves 8 and a guide cone, which ensure the connection of the removable container with the branch pipe to the shut-off valves 9 and the supply of concentrated radioactive contaminated liquid from the internal evaporation zone to the container. The container is introduced into the shell by a telescopic lift 10 and is transported by a trolley 11 with a radiation shielding.

The evaporator is equipped with a pipe for removal of secondary steam 12 and pipes for supplying heating steam 13 and condensate drain 14.

The source water is introduced into the apparatus through the nozzle 15 through the unit for washing the steam enters the liquid volume of the housing 1.

The outer zone 3 of the heating section 2 contains heat exchange pipes 16 fixed in tube plates 17 and 18. The inner zone 4 of the heating section contains heat exchange tubes 19 fixed in tube plates 17 and 20. The container is inserted into chamber A, the directions of the circulating streams are indicated by arrows (see drawing).

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Evaporator works as follows.

Heating steam through the nozzle 13 enters the annular space of the heating section 2 and during the condensation process transfers heat to the evaporated radioactively contaminated liquid, which enters the evaporator through the nozzle 15 to the inside of the heating tubes of the external evaporation zone 3. Condensate heating steam is discharged through the pipe 14.

The radioactively contaminated liquid, partially evaporated in the outer evaporation zone, is transferred through the flow pipes to the internal evaporation zone. In the inner zone, the radioactively contaminated liquid, partially evaporated in the outer evaporation zone, is contacted and discharged into the container 7, which, after filling, is replaced with an empty one.

The resulting evaporation in the external evaporation zone is removed to the vapor space of the evaporator, passes through the evaporator cleaning device 5 and is removed from the evaporator through the pipe 12. The evaporation from the internal evaporation zone passes through the evaporator cleaning device of this zone, and then through the node 5 for steam cleaning is removed from the evaporator through the nozzle 12.

Thus, the advantage of the proposed evaporator for a radioactively contaminated liquid in comparison with the known one is an increase in efficiency due to the failure of the special drainage pipe of the bottom residue, collecting the bottom residue in a container installed directly in the device so that the design of the device is protective cover from radioactive radiation into the surrounding space for a container containing highly radioactive impurities.

In this case, the reliability of operation of the evaporator is increased, since the VAT residue enters directly into the container and the length of the drainage pipeline, the required radiation protection device, is reduced.

Such a solution allows creating a transportable installation with an evaporator for continuous processing of radioactively contaminated liquid with radiation protection as

Claims (1)

Claim Evaporator for radioactively contaminated liquid in zhidkost- prefecture screen housing which is placed on a heating pipe section consisting of the outer and inner zones _with you parivaniya with its tubesheet ^J E, and in the steam screen housing is an assembly for cleaning vapor of t Leach the fact that, in order to increase efficiency and reliability, the evaporator is equipped with a shell and a removable container, and the shell is installed in the outer zone and secured from the outer side of the tube plate of the inner zone, 15 and the container is installed with a gap ohm in the shell.