KR20040036977A - electrochemical decontamination system for the removal of surface contamination in radioactive metal waste and method thereof - Google Patents

Abstract

PURPOSE: An electrochemical decontamination system for removing surface contamination of radioactive metal waste is provided to remove effectively the contaminated radioactive material by using a rotary motor and gases. CONSTITUTION: An electrochemical decontamination system for removing surface contamination of radioactive metal waste includes an electrochemical decontamination container(10), a holder(40), a power supply(20), and a low-speed motor(30). The electrochemical decontamination container(10) includes a predetermined region(11) to store neutral salt electrolyte. The holder(40) is used for supporting a cathode electrode(21a) and a cathode electrode(21b) to insert the cathode electrode(21a) and the cathode electrode(21b) into the inside of the electrochemical decontamination container(10). The power supply(20) provides the constant current density to the cathode electrode(21a) and the cathode electrode(21b). The low-speed motor(30) is installed in the inside of the electrochemical decontamination container. The low-speed motor includes a basket for storing radioactive metal waste(60).

Description

Electrolytic decontamination system for the removal of surface contamination in radioactive metal waste and method

The present invention relates to an electrolytic decontamination apparatus for removing surface contamination of radioactive metal waste, and more particularly, a hollow electrolytic desalination tank in which neutral salts are stored, a holder introduced into the electrolytic desalination tank, and a negative support supported by the holder. The entire surface of the radioactive metal waste is configured to include a power supply unit for applying current to the anode electrode, and a low-speed rotating motor in which the radioactive metal waste is mounted on the bottom such that the radioactive metal waste contaminated by the negative electrode and the anode electrode is charged. The present invention relates to an electrolytic decontamination device for removing surface contamination of radioactive metal waste, which enables efficient operation due to radioactive removal even in such contaminated or complicated shape radioactive metal waste.

The present invention also relates to an electrolytic salt removing method for removing surface contamination of radioactive metal waste.

In general, radioactive metal wastes include wastes generated from equipment in power plants and tools used in the power generation process. The decontamination processes of metal wastes contaminated by radioactive materials as described above include physical decontamination, chemical decontamination, and the like. There is an electrolytic salt technology.

The physical decontamination process can be easily applied when the contamination level is low and the surface adhesion is weak, but it requires a lot of labor and there is a fear of exposure during decontamination. In addition, it is inadequate for the treatment of a large amount of waste, in particular, glass contamination is easy to remove, but there was a problem that difficult to remove, such as adherent contamination.

In addition, the chemical decontamination process uses sulfuric acid, nitric acid, and the like as the decontamination liquid to submerge the decontamination liquid, which is effective for radioactive metal waste of complex shapes such as curved pipes and valves. However, the chemical decontamination process has a slower decontamination rate than the electrolytic decontamination process, so it takes a long time for decontamination to reduce the radioactive level of radioactive metal waste below the background level. Because of the secondary wastes generated, there was a problem of disposal.

On the other hand, in the case of electrolytic decontamination, the decontamination coefficient is relatively higher than that of the physical decontamination process or the chemical decontamination process, and the application time of decontamination of the electrolytic decontamination process is relatively shorter than that of the physical decontamination process or the chemical decontamination process, and general chemical decontamination is performed. Compared with the generation of secondary waste.

However, the existing electrolytic decontamination method has problems in decontaminating the entire surface of the waste because it removes radioactivity from radioactive metal waste by replacing radioactive metal waste with an anode and replacing the cathode as a counter electrode. There was also an unsuitable problem in the decontamination of waste.

An object of the present invention for improving the above problems is, if the entire surface of the radioactive metal waste is contaminated, so as to remove the radioactivity of both sides of the metal waste, as well as to remove the radioactivity of the metal waste of a complex shape. Electrolyte salt device for removing surface contamination of radioactive metal wastes to increase the stirring effect of the electrolytic salt bath to enhance the electrolytic salt reaction, and to facilitate the rotation and detachment of metal wastes to reduce the worker's working time in the radioactive zone. And providing a method.

1 is a cross-sectional view showing an electrolytic salt device for removing radioactive metal waste surface contamination according to the present invention.

Figure 2 is a cross-sectional view showing an electrolytic decontamination apparatus for removing radioactive metal waste surface contamination according to another embodiment of the present invention.

Figure 3 is a cross-sectional view of the transfer device is installed in the electrolytic decontamination apparatus for removing radioactive metal waste surface contamination according to another embodiment of the present invention.

Figure 4 is an operating state of the electrolytic salt control device for removing radioactive metal waste surface contamination according to another embodiment of the present invention.

Figure 5 is a block diagram showing an electrolytic decontamination method for removing radioactive metal waste surface contamination according to the present invention.

<Code Description of Main Parts of Drawing>

10 electrolytic salt bath 13 gas supply unit

20 Power supply 30 Low speed motor

40 ... holder 50 ... transfer

52 ... vertical feed shaft 53 ... support

60.Metal waste

In order to achieve the above object, the present invention is an electrolytic salt tank having a predetermined space in which the neutral salt electrolyte is stored inwardly in an open hollow shape;

A holder for supporting the negative and positive electrode electrodes so that the negative and positive electrode electrodes are introduced into the electrolyte salt tank;

A power supply unit connected to the negative and positive electrode electrodes supported by the holder to apply a constant current density to the negative and positive electrode electrodes;

It is made of a configuration including a low-speed rotary motor is placed inside the electrolytic salt tank and the radioactive metal waste is mounted on the bottom so that the electrolytic salt reaction by the negative electrode, the positive electrode.

In addition, the electrolyte salt tank according to the present invention is connected to the gas supply unit for supplying a gas so that the smooth flow of the neutral salt electrolyte stored inside the electrolyte salt tank to the bottom and one side, the gas supply unit, the gas is stored It is characterized in that it is configured as a gas storage unit, a gas control valve for adjusting the amount of gas discharged from the gas storage unit, and a gas flow meter for measuring the flow rate of the discharged gas.

In addition, the low-speed rotary motor according to the present invention is characterized in that a basket having a storage space in which the metal waste of the complex shape is accommodated so that the metal waste of the complex shape is mounted on the bottom thereof.

In addition, the low speed rotation motor according to the present invention, the low speed rotation motor is provided with a vertical rotation shaft which is coupled to the horizontal rotation shaft connected to one side so as to rotate at a predetermined angle and the horizontal rotation shaft is installed so that the low speed rotation motor is raised and lowered. Characterized in that the transfer device is further installed.

In addition, the present invention, the step of injecting the neutral salt which is the electrolyte in the electrolyte salt tank formed a predetermined space inside;

Injecting radioactive metal waste mounted on the bottom of the low-speed rotary motor into the electrolytic salt bath in which the neutral salt is injected;

Injecting a positive electrode and a negative electrode electrode, which are spaced a predetermined distance into the electrolyte salt tank, and applying a constant current density to the positive electrode and the negative electrode electrode;

Rotating the radioactive metal waste mounted on the low speed rotation motor at a low speed so that the electrolytic decontamination reaction of the radioactive metal waste generated by the positive electrode and the negative electrode electrode may be performed to completely decontaminate the entire surface of the radioactive metal waste.

In addition, the step of injecting the radioactive metal waste mounted on the bottom of the low-speed rotation motor into the electrolytic salt tank in which the neutral salt is injected according to the present invention, the low-speed rotation motor is provided with a horizontal rotation axis and a vertical feed axis so as to rotate rotation at an angle The low speed rotary motor is moved to the center of the electrolytic salt bath by the device.

In addition, the step of injecting the radioactive metal waste mounted on the bottom of the low-speed rotary motor into the electrolytic salt tank in which the neutral salt is injected according to the present invention, the radioactive metal waste of complex shape such as a curved pipe or valve is installed It is characterized in that the basket is installed in the bottom of the anti-corrosion metal waste of a complicated shape is introduced into the electrolyte salt tank.

In addition, the step of completely decontaminating the entire surface of the radioactive metal waste by rotating the radioactive metal waste mounted on the low speed rotary motor at a low speed, so that the stirring in the electrolytic salt bath is smoothly to increase the electrolytic desalination reaction of the radioactive metal waste The gas supply unit is connected to one side or the bottom of the electrolytic salt tank to inject gas.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

The present invention, as shown in Figure 1, to remove the radioactive material contaminated on the surface of the radioactive metal waste 60, the radioactive metal waste 60 in the electrolytic salt tank 10 in which the neutral salt of the electrolyte is stored to the inside. It is composed of a configuration for dissolving the radioactive contaminants of the radioactive metal waste 60 into the electrolyte by an induction current generated by applying a predetermined current density to the electrode rod 21 introduced into the neutral salt electrolyte.

Neutral salt stored in the electrolytic salt tank 10 is a salt that does not show acidic or basic when dissolved in water, it is preferable to use an aqueous solution of sodium sulfate (Na ₂ SO ₄ ) or sodium nitrate (NaNO ₃ ). Do.

The electrolyte salt tank 10, the predetermined space 11 is formed to store the neutral salt to the inside, the gas is sucked to one side and the gas is ejected in one direction to increase the stirring effect of the neutral salt inside the electrolyte salt tank. The gas supply unit 13 is installed to make.

The gas supply part 13 is installed so that gas is injected into the electrolyte salt tank 10 to one side of the electrolyte salt tank 10 or drawn into the bottom.

The gas supply unit 13 may include a gas storage unit 13a in which gas is stored, a gas control valve 13b for adjusting an amount of gas discharged from the gas storage unit 13a, and a gas discharge unit. It is comprised as the gas flow meter 13c which measures a flow volume.

In addition, the holder 40 positioned above the electrolyte salt tank 10 is connected to one side of the low speed rotation motor 30 and is connected to one side of the electrolyte salt tank 10 with negative and positive electrode rods 21 a and 21 b. The negative and positive electrode electrodes 21a and 21b are fixed to the lead.

The power supply unit 20 connected to the negative and positive electrode electrodes 21a and 21b applies a current density to the negative and positive electrode electrodes 21a and 21b so that an induced current occurs so that the negative and positive electrode electrodes 21a are generated. Is connected to the upper end of 21b).

In this case, it is preferable that the negative electrode electrodes 21a and 21b are made of titanium and platinum coated titanium in consideration of efficiency and durability.

On the other hand, the low-speed rotary motor 30, the radioactive metal waste 60 is fixed to the bottom by a rotating bolt and the radioactive metal waste 60 when an induced current flows through the negative electrode electrodes (21a) (21b) Rotate at a low speed so that the entire surface of both sides of the radioactive metal waste 60 is decontaminated.

As shown in FIG. 2 or FIG. 4, the low speed rotation motor 30 may accommodate the radioactive metal waste 60 having a complicated shape inwardly so that the radioactive metal waste 60 having a complicated shape may be mounted at the bottom thereof. A basket 31 in the form of a net bag having a storage space therein may be provided.

In addition, the low speed rotation motor 30 is one side, it is preferable that the low speed rotation motor 30 is further provided so that the transfer device 50 is capable of vertical movement and rotational rotation of a certain angle.

As shown in FIG. 3, the transfer device 50 includes a horizontal rotation shaft 51 and a vertical feed shaft 52 supported by the support 53, wherein the vertical feed shaft 52 is installed at an upper portion thereof. It consists of a handle 52c, a screw 52a extending downward in the handle 52c, and a bearing 52b provided at the bottom end of the screw 52a.

The horizontal rotation shaft 51 is connected to the end of the screw 52a is connected to the connecting piece 51a which is connected to the screw 52a at one end and the connecting piece 51a is formed to extend the low speed rotation motor ( The connecting rod 51b coupled to 30 is configured to rotate after connecting up and down by the screw 52a, thereby rotating the connecting piece 51a so that the connecting piece 51b extended to the connecting piece 51a is also rotated.

Referring to the operation of the present invention configured as described above in detail as follows.

As shown in FIG. 5, neutral salt as an electrolyte is injected into an electrolytic salt bath having a predetermined space formed therein, and radioactive metal waste mounted to the bottom of the low-speed rotating motor is injected into the electrolytic salt bath in which the neutral salt is injected. At this time, the position of the low-speed rotating motor equipped with radioactive metal waste is adjusted by using a horizontal rotating shaft and a vertical feeding shaft connected to the horizontal rotating shaft so that the low-speed rotating motor rotates and descends at an angle. .

On the other hand, when the radioactive metal waste mounted on the bottom of the low speed rotary motor is a radioactive metal waste having a complicated shape such as a curved pipe or a valve, a mesh basket having a storage space is mounted on the bottom of the low speed rotary motor to provide an electrolytic salt bath. You may inject inward.

After the radioactive metal waste is introduced into the electrolyte salt bath, a current density is applied from the power supply unit to the positive electrode and the negative electrode rod installed at a predetermined distance apart from the radioactive metal waste.

Subsequently, the electrolytic decontamination reaction of the radioactive metal waste generated by the anode and cathode electrode rods is rotated at a low speed so as to smoothly decontaminate the entire surface of the radioactive metal waste.

At this time, the stirring in the electrolyte salt tank is smoothly connected to the gas supply unit connected to one side or the bottom of the electrolyte salt tank to inject the gas so that the electrolytic salt reaction rate of the radioactive metal waste.

The metal waste from which the radioactive material has been removed is replaced with other radioactive metal waste by adjusting the horizontal rotating shaft and the vertical feed shaft connected to one side of the low speed rotating motor and repeating the above process.

As described above, the present invention can efficiently remove the radioactive material contaminated on the surface of the radioactive metal waste by rotating the radioactive metal waste contaminated on the surface of the radioactive metal waste in an electrolytic salt bath using a low-speed rotating motor and gas. There is an advantage.

In addition, even if the shape of the radioactive metal waste has a complex shape with the advantage that can remove the radioactive radioactive material, there is an advantage that the working time is reduced in the radioactive zone by transporting the radioactive metal waste by the rotary device.

While the invention has been shown and described with respect to particular embodiments, it will be appreciated that the invention can be variously modified and varied without departing from the spirit or scope of the invention as provided by the following claims. It will be clear to those skilled in the art that it is very easy to know.

As described above, according to the present invention, an electrolytic decontamination reaction is carried out using a rotating motor and a gas with radioactive metal waste contaminated on the surface of the radioactive material, so that the contaminated radioactive material can be efficiently removed.

In addition, even if the entire surface of the radioactive metal waste is contaminated, the radioactivity of both sides of the metal waste can be removed by the rotation of the metal specimen, and the contaminated surface of the radioactive metal waste of complex shape can be removed. It is.

In addition, by injecting gas into the side or bottom of the electrolytic salt bath, the stirring effect of the electrolytic salt bath is increased to enhance the electrolytic salt reaction, and the movement and operation of radioactive metal waste is easy, thereby reducing the working time in the radioactive zone. It is.

Claims (8)

An electrolytic salt bath (10) having a predetermined space (11) in which the neutral salt electrolyte is stored inward in an open hollow shape, A holder 40 supporting the negative and positive electrode rods 21a and 21b so that the negative and positive electrode rods 21a and 21b are introduced into the electrolyte salt tank 10; A power supply unit 20 connected to the negative and positive electrode electrodes 21a and 21b supported by the holder 40 to apply a constant current density to the negative and positive electrode electrodes 21a and 21b; A low-speed rotary motor 30 is introduced into the electrolyte salt tank 10 and the radioactive metal waste 60 is mounted on the bottom thereof so that the electrolyte salt reaction occurs by the negative and positive electrode electrodes 21a and 21b. Electrolytic salt removal device for removing surface contamination of radioactive metal waste, characterized in that configuration. According to claim 1, The electrolyte salt tank 10 is connected to the gas supply unit 13 for supplying a gas so that the smooth flow of the neutral salt electrolyte stored inside the electrolyte salt tank 10 to the bottom and one side is connected. The gas supply unit 13 includes a gas storage unit 13a in which gas is stored, a gas control valve 13b for adjusting the amount of gas discharged from the gas storage unit 13a, and a gas discharge unit. Electrolytic salt removal device for removing surface contamination of radioactive metal waste, characterized in that it is configured as a gas flow meter (13c) for measuring the flow rate. The low-speed rotary motor 30 of claim 1, wherein the low-speed rotary motor 30 has a basket 31 having a storage space in which the metal waste 60 of the complex shape is accommodated inward so that the metal waste 60 of the complicated shape is mounted on the bottom thereof. Electrolytic salt removal device for removing radioactive metal waste surface contamination, characterized in that the mounting. According to claim 1, wherein the low speed rotation motor 30, the low speed rotation motor 30 is engaged with the horizontal rotation shaft 51 and the horizontal rotation shaft 51 is connected to one side so as to rotate rotation at a predetermined angle and the low speed rotation Electrolytic decontamination apparatus for radioactive metal waste surface contamination removal, characterized in that the transfer device 50 is further provided with a vertical feed shaft 52 is installed so that the motor 30 is raised, lowered. Injecting a neutral salt as an electrolyte into an electrolyte salt tank having a predetermined space formed therein; Injecting radioactive metal waste mounted on the bottom of the low-speed rotary motor into the electrolytic salt bath in which the neutral salt is injected; Injecting a positive electrode and a negative electrode electrode, which are spaced a predetermined distance into the electrolyte salt tank, and applying a constant current density to the positive electrode and the negative electrode electrode; The radioactive metal salt is completely decontaminated by rotating the radioactive metal waste mounted on the low speed rotary motor at a low speed so that an electrolytic decontamination reaction of the radioactive metal waste generated by the positive electrode and the negative electrode electrode is performed smoothly. Electrolyte salt method for removing metal waste surface contamination. The method of claim 5, wherein the step of injecting the radioactive metal waste mounted on the bottom of the low-speed rotary motor into the electrolytic salt tank in which the neutral salt is injected, the low-speed rotary motor is provided with a transverse rotation axis and a longitudinal feed axis so as to rotate rotation at an angle And a low speed rotary motor is moved to the center of the electrolytic salt bath by an apparatus. The method of claim 5, wherein the step of injecting the radioactive metal waste mounted on the bottom of the low-speed rotary motor into the electrolytic salt tank in which the neutral salt is injected, the radioactive metal waste of complex shape such as a curved pipe or valve is installed. An electrolytic decontamination method for removing surface contamination of radioactive metal waste, characterized in that a basket is installed at the bottom to accommodate an anti-corrosion metal waste having a complicated shape and is introduced into the electrolytic salt bath. The method of claim 5, wherein the step of completely decontaminating the entire surface of the radioactive metal waste by rotating the radioactive metal waste mounted on the low speed rotary motor, the electrolytic decontamination reaction of the radioactive metal waste by smoothly stirring in the electrolytic salt bath Electrolytic salt treatment method for removing surface contamination of the radioactive metal waste, characterized in that for spraying the gas by connecting the gas supply to one side or the bottom of the electrolytic salt tank to increase the speed.