CS212043B1 - Equipment for processing trichlorethylene or tetrachlorethylene radioactive waste - Google Patents

Abstract

The invention relates to a device for processing trichloroethylene or tetrachloroethylene radioactive waste, in particular waste generated during the deactivation of operating equipment of nuclear power plants before their disposal. In the device according to the invention, the waste inlet and the inflow of aqueous solutions are connected to the inlet part of the extractor, in which the aqueous phase is located, and the outlet part of the extractor is provided with a drain and is connected to a mixer equipped with a dispenser, which mixer is connected to a combustion chamber connected by a pipe through a fan to the chimney. This device further enables the use of trichloroethylene and tetrachloroethylene deactivation solutions for the deactivation of operating equipment of nuclear power plants before their disposal. The entire device is relatively simple and when used, only small volumes of aqueous radioactive waste are discarded, in which almost all radioactive substances are concentrated, which are processed in the usual way. The invention can be used in particular in the processing of waste generated during the deactivation of operational equipment components of nuclear power plants before their disposal.

Description

The invention relates to a device for the treatment of trichlorethylene or tetrachlorethylene radioactive wastes, in particular wastes arising from the deactivation of nuclear power plant operating equipment prior to their disposal.

In the apparatus according to the invention, the inlet of waste and the inlet of aqueous solutions are connected to the inlet part of the extractor, in which the aqueous phase is located and the outlet part of the extractor is provided with an outlet and connected to a mixer equipped with a metering device. through the fan to the chimney. Furthermore, this device allows the use of trichlorethylene and tetrachlorethylene deactivation solutions to deactivate nuclear power plant operating equipment prior to disposal. The whole apparatus is relatively simple and only small volumes of aqueous radioactive waste are dispensed with, where almost all radioactive substances are concentrated which are processed in the usual way.

In particular, the invention can be used in the treatment of wastes arising from the deactivation of process equipment components of nuclear power plants prior to their disposal.

The invention relates to a device for the treatment of trichlorethylene or tetrachlorethylene radioactive wastes, in particular wastes arising from the deactivation of nuclear power plant operating equipment prior to their disposal.

Deactivation of nuclear power plant operating equipment prior to disposal results in large volumes of liquid radioactive waste, which must be treated so that the radioactive substances are concentrated to a small volume and ticked into solid matrices that are stored in radioactive waste repositories.

Meanwhile, only aqueous deactivation solutions are used to deactivate these devices. The process of treating aqueous radioactive waste is very complex and costly. A method of deactivation of nuclear power plant operating equipment prior to their disposal using trichlorethylene or tetrachlorethylene deactivation solutions was also proposed. However, there is no known device for the treatment of trichlorethylene or tetrachlorethylene radioactive wastes resulting from said deactivation.

The present invention solves the problem of treating trichlorethylene and tetrachlorethylene radioactive waste. SUMMARY OF THE INVENTION The device consists of an inlet of waste and an inlet of aqueous solutions which are connected to the inlet part of the extractor in which the aqueous phase is located and the outlet part of the extractor is provided with a drain and connected to a mixer provided with a dispenser. connected to the combustion chamber, connected through a duct through a fan to the chimney.

The advantage of the device according to the invention is that it allows the use of trichlorethylene and tetrachlorethylene deactivation solutions to deactivate the nuclear power plant operating equipment prior to their disposal, which has not been possible so far. The device is relatively simple and only small volumes of aqueous radioactive waste are disposed in its use, in which almost all radioactive substances are concentrated which are processed in the usual way. The facility enables the deactivation of nuclear power plant operating equipment, prior to their disposal, even when the situation does not allow the treatment of large quantities of aqueous radioactive waste, which has not been possible until now.

A suction channel can be connected to the duct between the combustion chamber and the fan so that the combustion products can be mixed with air within very wide limits before they reach the atmosphere through the chimney. In this way, harmless concentrations of radioactivity in the atmosphere can be achieved more easily.

The extractor may be a glass cylinder, either loose or a portion of it may be filled with a rigid charge, preferably glass tubes whose length is equal to their width. Glass is readily available, cheap and inactivable. Its transparency allows visual inspection of the levels of the two-phase phases in the extractor. The solid charge allows a higher degree of extraction of radioactive substances into the aqueous phase.

The aqueous phase may contain at least one complexing agent, preferably a complexone, i.e., for example, sodium ethylenediaminetetraacetic acid or nitrilotriacetic acid, or citric or oxalic acid or 5-sulfosalicylic acid, or a mixture of sodium polyphosphates or sodium fluoride. This substantially increases the degree of extraction of the radioactive substances into the aqueous phase.

A burner may be placed in the combustion chamber. This allows faster and more complete combustion of the flammable liquid mixture.

- A tank may be connected between the extractor and mixer. This ensures that a larger volume of the extracted phase is collected to facilitate the smooth delivery of this phase through the mixer to the combustion chamber for combustion.

The lower part of the tank can be connected to the inlet part of the extractor via a connecting line. This makes it possible, if necessary, to recirculate the extracted phase for repeated extraction into the extractor.

The pump may be located between the waste inlet and the aqueous solution inlet on the one hand and between the extractor inlet on the other hand. This arrangement has the advantage that the same pump can also be used to pump waste and aqueous solutions into the extractor.

A radioactivity meter can be placed in the lower part of the tank, which has the advantage that the radioactivity of the extracted phase can be continuously monitored and accordingly operatively decided whether this phase can be burned and the combustion products released into the atmosphere or whether this phase needs to be extracted again. aqueous solution of another complexing agent to reduce its radioactivity to an acceptable level.

At the top of the tank there may be at least one drain connected by bypass to the connecting line in the joint so that the pump is between the joint and the inlet part of the extractor. this bypass allows the aqueous phase to be pumped from the top of the tank if this phase enters the tank.

An exemplary embodiment of the device according to the invention is shown schematically in the accompanying drawing, in which Fig. 1 represents a diagram of the device according to the invention and Fig. 2 shows a diagram of an alternative embodiment.

The inlet part 1 of the extractor 2 has an inlet 3 of waste and an inlet 4 of aqueous solutions. The extractor 2 is a glass cylinder containing a water phase 5 with a bottom descending to the outlet 6. The outlet part 7 of the extractor 2 is connected via the outlet 6 to a mixer 8 provided with a dispenser 9, in our example an alcohol dispenser. The mixer 8 is connected to a combustion chamber 10 connected by a duct 11 via a fan 12 to a chimney 13. The suction channel 14 is connected to the duct 11 and the combustion chamber 10 is provided with a ventilation duct 15. The outlet 6 of the extractor 2 is connected to the outlet 16.

To the extractor 2, the required volume of an aqueous solution containing 5% by weight of citric acid is fed by the inflow of 4 aqueous solutions to form the aqueous phase 5. Thereafter, trichlorethylene radioactive wastes flowing through the aqueous phase 5 are slowly fed through the waste inlet 3, her. The extracted trichlorethylene phase is collected in the outlet part 7 of the extractor 2, from which it is passed through the outlet 6 to the mixer 8, where it is mixed with ethanol (alcohol) from the dispenser 9 and this mixture is mixed. leads to the combustion chamber 10, where it is combusted and the combustion products are sucked through the duct 11 through the fan 12 into the chimney 13. In this case, the fan 12 sucks in the ventilation duct 15 the air needed to burn in the combustion chamber 10 and simultaneously dilution of incineration products. Upon completion of the extraction, the aqueous phase 5 is discharged through the effluent 16, which also takes samples of the extracted phase to observe the decrease in bulk radioactivity during extraction.

When trichlorethylene or tetrachlorethylene radioactive wastes are contaminated with a mixture of uranium fission products and the use of the water phase in a volume of one tenth of the volume of said waste, more than 91% of the radioactivity is transferred to the aqueous phase in one extraction cycle.

An example of another embodiment of the invention is shown schematically in FIG. 2. In contrast to the previous example, in the example of this apparatus, we have two extractors 2 arranged in parallel. These extractors 2 have a rigid charge 17, which in our example is glass tubes whose length is the same as the width. Between the outlet 6 of the extractor 2 and the mixer 8 there is a tank 18 with a bottom sloped down to the outlet 19 via a connecting conduit 20 with an inlet part 1 of the extractor

2. In the upper part of the tank there are four outlets 21 connected by bypass 22 to the connecting line 20 at the connection point 23. Between the connection 23 and the extractor 2 are connected to the connecting line 20: waste inlet 3, inlet 4 of aqueous solutions and pump 24. A burner 25 with a blower 26 is located in the chamber 10. A radioactivity meter 27 is installed near the outlet 19. The outlet 19 is also connected to the outlet 28. At the mouth of the chimney 13 there is a gas radioactivity meter 29. The rest is the same as in the previous example.

First, the required volume of aqueous solution containing 10% by weight of ethylenediaminetetraacetic acid disodium salt is pumped through the pump 24 via the inlet 4 of the aqueous solutions to both extractors 2 to form the aqueous phase 5. Then the pump 24 is slowly pumped through the pump 24 through the waste 3 inlet of tetrachlorethylene radioactive waste. which, after extraction in the extractors 2, are collected in a tank 18 and their radioactivity is continuously monitored by a radioactivity meter 27. If the radioactivity of the extracted tetrachlorethylene phase is within the permissible limits, it is released into the mixer 8 where it is mixed with alcohol in such a proportion could be incinerated in a burner 25 to which air is pumped through the blower 26. If the radioactivity of the extracted phase in the tank 18 exceeds the allowable limit, the pumping of tetrachlorethylene waste to the extractors 2 is stopped, to determine which radioactive chemical elements have not been sufficiently extracted and according to the results of these analyzes, select the chemical composition of the new aqueous solution with other complexing agents to form a new water phase 5. The depleted highly radioactive old water phase 5 is omitted. The effluents 16 to be treated according to the old known processes and the new aqueous solution is pumped by the pump 24 through the inlet 4 of the aqueous solutions to the extractors 2 so as to form a new water phase 5 and the extraction process repeated. extractors 2 back into the tank. If the water phase 5 enters the tank 18, which can be detected by sampling successively from all four outlets 21 through the bypass 22 and the outlet 28, it can either be discharged in the same way or pumped back through the pump 24 to the extractors 2. a gas radioactivity meter 29 which continuously monitors whether the gases entering the atmosphere have residual bulk radioactivity within the allowable limits. The other functions are the same as in the previous example.

When the trichlorethylene or tetrachlorethylene radioactive wastes were contaminated with a mixture of uranium fission products and using a water phase of one tenth the volume of said wastes, more than 97.5% of the radioactivity was transferred to the aqueous phase in one extraction cycle.

The invention can be used in the treatment of trichlorethylene and tetrachlorethylene radioactive waste, in particular waste; arising from the inactivation of plant components of nuclear power plant components prior to their disposal, especially if large volumes of aqueous radioactive waste cannot be treated by conventional means.

Claims (11)

SUBJECT An apparatus for the treatment of trichlorethylene and tetrachlorethylene radioactive wastes, characterized in that it consists of an inlet (3) of waste and an overspray (4) of aqueous solutions connected to the inlet part (1) of the extractor (2) in which it is located an aqueous phase (5), wherein the outlet portion (7) of the extractor (2) is provided with an outlet (16) and is connected to a mixer (8) provided with a metering device (9), which mixer (8) is connected to the combustion chamber (10); connected via a duct (11) via a fan (12) to a chimney (13). Device according to claim 1, characterized in that a suction channel (14) is connected to the duct (11). Device according to claim 1, characterized in that the extractor (2) is designed as a glass cylinder. Device according to claim 1, characterized in that at least a part of the extractor (2) is filled with a solid filling, preferably glass tubes, the length of which is equal to the width. Device according to claim 1, characterized in that the aqueous phase (5) comprises at least one complexing agent, preferably either a complexone or citric acid, OF THE INVENTION or oxalic acid, or 5-sulfosalicylic acid, or a mixture of sodium polyphosphates or sodium fluoride. 6. Apparatus according to claim 1, characterized in that a burner (25) is arranged in the combustion chamber (10). Device according to claim 1, characterized in that a tank (18) is connected between the extractor (2) and the mixer (8). Device according to claim 7, characterized in that the lower part of the tank (18) is connected to the inlet part (1) of the extractor (2) via a connecting line (20) on which the pump (24) is provided. Device according to claim 8, characterized in that the pump (24) is connected between the waste inlet (3j) and the aqueous solution inlet (4) on the one hand and between the inlet part (i) of the extractor (2) on the other. Device according to claim 8, characterized in that a radioactivity meter (27) is located in the lower part of the tank (18). Apparatus according to claim 8, characterized in that at least one drain (21) connected by a bypass (22) to the connecting pipe (20) in the joint (23) and the inlet part (1) of the extractor is connected in the upper part of the tank (18). (2).