KR200377504Y1 - Decontamination device for surface of radioactive contaminated metallic waste - Google Patents

Abstract

The present invention relates to an electrolytic decontamination apparatus for a radioactive contamination metal waste surface of a nuclear power plant, comprising: a container having a towing means and a power supply and having an inner space; A desalination tank in which a quantity of a cathode operated by a power supply device is installed in the inner space of the container and a cathode rod is installed at an upper portion thereof, and an electrolyte is filled therein; A low speed rotary motor capable of driving an agitator to promote an electrolytic reaction in the decontamination tank; A hood installed on the decontamination tank for collecting the gaseous radioactive material to be discharged to the outside; An air purifier connected to an outlet of an upper portion of the hood and the container to discharge the collected gaseous radioactive material to the outside; A temperature control unit connected to an inlet pipe for injecting the electrolyte solution of the electrolytic bath; A replenishment tank connected to the tube of the temperature control unit to replenish the electrolyte solution; Radiocontaminated metal waste surface decontamination apparatus comprising a centrifugal separator connected to a pump for discharging the radioactive contamination electrolyte from the lower part of the electrolytic tank and centrifuging the electrocontaminated electrolyte to remove radioactive contaminants. To provide.

Description

Radioactive Contaminated Metal Waste Surface Decontamination Equipment {DECONTAMINATION DEVICE FOR SURFACE OF RADIOACTIVE CONTAMINATED METALLIC WASTE}

The present invention relates to a radioactive contamination metal waste surface decontamination apparatus, and more particularly to an electrolytic decontamination apparatus for radioactive contamination metal waste surface of a nuclear power plant.

In general, in nuclear power plants, radioactive pollution is generated by the operation of equipment. Pollution in nuclear power plants occurs when performing parts replacement of various facilities such as power plants, and the work of removing unwanted radioactive substances on the contaminated area is called decontamination.

 It is produced in the primary system of nuclear power plants, and radionuclides produced by nuclear fission products and neutron irradiation, and radionuclides generated by neutron irradiation are radioactive nuclides generated by neutron irradiation. . The radioactive material generated in this state flows in the primary system of the power plant or adheres to the inner wall of the pipe or part, and is leaked to the outside by air exposure during leakage or periodic maintenance, thereby polluting the surrounding environment.

In particular, most of the facilities or tools used in nuclear power facilities are contaminated with radioactivity. Radioactive decontamination is essential when repairing, reusing, replacing, or disposing of such equipment or equipment.

Conventionally, conventional methods for removing radioactive contamination (such as ultrasonic cleaning, water washing using a brush or a scrubbing brush) can remove only glassy contamination present on a surface, and sticky contamination is difficult to remove.

In addition, radioactive metal wastes generally include wastes generated from equipment in power plants and tools used in the process of power generation. As described above, the decontamination process of metal wastes contaminated by radioactive materials may include physical decontamination and chemicals. Decontamination and decontamination technology.

The physical decontamination process can be easily applied when the pollution 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 not suitable 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.

The chemical decontamination process uses sulfuric acid, nitric acid, and the like as the decontamination liquid to submerge the decontamination liquid and is effective for radioactive metal wastes of complex shapes such as curved pipes and valves. However, the chemical decontamination process is slower than the electrolytic decontamination process, so it takes a long time for decontamination to reduce the radioactivity level of radioactive metal waste below the background level, and it is difficult to treat the waste liquid due to the high concentration of sulfuric acid or nitric acid. 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 is less.

In the conventional electrolytic decontamination method, since only one metal is decontaminated, the decontamination takes a long time and there is a risk of increasing the worker's exposure dose.

In addition, in the case of continuous decontamination of a large amount of contaminated metal parts, it is difficult to treat the contaminated electrolyte salt solution, and a large amount of secondary waste is generated, thereby causing a problem of treatment. In addition, these electrolytic decontamination facilities are also far away from nuclear-related facilities, which makes it difficult to pack or transport metals for decontamination.

Therefore, an object of the present invention for solving the above problems is to place the radioactive metal waste over a plurality of racks attached to the anode to make it possible to decontaminate several metals at once, and to attach the stirrer to the electrolytic salt bath to improve the electrolytic decontamination efficiency. The present invention provides a radiocontaminating metal waste surface decontamination apparatus that is capable of removing sludge as well as moving means by purifying radioactively contaminated electrolyte solution by a centrifuge.

In order to achieve the above object, a radioactive contamination metal waste surface decontamination apparatus of the present invention includes a container having a towing means and a power supply and having an inner space; A desalination tank in which a quantity of a cathode operated by a power supply device is installed in the inner space of the container and a cathode rod is installed at an upper portion thereof, and an electrolyte is filled therein; A low speed rotary motor capable of driving an agitator to promote an electrolytic reaction in the decontamination tank; A hood installed on the decontamination tank for collecting the gaseous radioactive material to be discharged to the outside; An air purifier connected to an outlet of an upper portion of the hood and the container to discharge the collected gaseous radioactive material to the outside; A temperature control unit connected to an inlet pipe for injecting the electrolyte solution of the electrolytic bath; A replenishment tank connected to the tube of the temperature control unit to replenish the electrolyte solution; It is characterized in that it comprises a centrifugal separator connected to the pump for discharging the radioactive contamination electrolyte from the lower part of the electrolytic tank and centrifuged to remove the radioactive contaminants by centrifuging the electrolyte contaminated with radioactivity.

In addition, the positive and negative electrode is characterized in that the platinum coated titanium.

In addition, the anode rod is characterized in that a plurality of racks (rack) to put the metal is further formed.

In addition, the air purifier is characterized in that consisting of a pre-filter, hepa (HEPA) filter, activated carbon filter, hepa (HEPA) filter.

In addition, the lower portion of the container is characterized in that the moving means is provided.

In addition, a fan (pan) for containing the sludge (sudge) is installed below a predetermined interval of the centrifuge.

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

1 is a perspective view of an embodiment of a radioactive contamination metal waste surface decontamination apparatus according to the present invention, Figure 2 is a longitudinal cross-sectional view of FIG. As shown therein, the radioactive metal waste surface decontamination apparatus 100 of the present invention includes a towing means 180 and a power supply unit 180 that can be connected to other transportation means, and the inside of the container 120 having an internal space. To be prepared.

In the inner space of the container 120, the quantity of the cathode operated by the power supply device 220, the cathode rods (240, 250) is installed on the top, and the decontamination tank 200 is filled with the electrolyte therein is provided. Here, the positive and negative electrode rods 240 and 250 are made of platinum coated titanium to increase efficiency and durability. The anode rod 240 is further provided with a rack 280 in which metal can be placed.

When a plurality of radioactively contaminated metals are seated on the plurality of racks 280 of the anode rod 240 of the decontamination tank 200, and a predetermined current density is applied to the cathodes 240 and 250, which are charged in the neutral salt electrolyte. At this time, the contaminants of the radioactive contaminated metal are dissolved into the electrolyte by the induced current generated.

Neutral salt stored inside the decontamination tank 200 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 ). .

In addition, a low speed rotary motor 260 capable of driving the stirrer 270 for promoting the electrolytic reaction in the decontamination tank 200 is provided.

In addition, a hood 300 is installed on the decontamination tank 200 to collect the gaseous radioactive material to the outside, and the hood 300 is discharged to the outside to discharge the collected gaseous radioactive material to the outside. ) And an air purifier 320 connected to the discharge port 340 of the upper portion of the container 120.

The air purifier 320 is preferably composed of a pre-filter 320a, a HEPA filter 320b, an activated carbon filter 320c, and a HEPA filter 320b.

There is a temperature controller 400 connected to the input pipe 290 and the pipe for the electrolyte solution of the electrolytic bath 200. In addition, the temperature controller 400 is preferably provided with a heater 400b and a cooler 400a separately.

In addition, it is connected to the tube of the temperature control unit 400, and is provided with a replenishment tank 420 to replenish the electrolyte, the pump for discharging the radioactive contamination electrolyte from the lower portion of the electrolytic water tank ( And a centrifuge 440 which is connected to P1) and centrifugs the electrolyte contaminated with radioactivity to easily remove sludge which is a precipitate of radioactive contaminants.

In addition, it is preferable that a fan 460 for containing sludge is installed below a predetermined interval of the centrifuge 440.

In addition, a movement means 140 such as wheels may be provided under the container 120 to facilitate movement.

Hereinafter, the operation of one embodiment of the radiocontamination metal waste surface decontamination apparatus of the present invention configured as described above will be described in detail.

The metal waste contaminated by the radiation operation is opened on a shielding door (not shown) installed in the container 120 and seated on the metal rack 280 of the anode rod 240 of the decontamination tank 200. And using the replenishment tank 420 to fill the decontamination tank 200 with the electrolytic solution. Then, when the current density flows in the positive and negative pole rods 240 and 250 in the power supply unit 220, the contaminants of the radioactive contaminated metal are dissolved into the electrolyte by the induced current generated at this time.

The gaseous radioactive material generated during the electrolytic salt is collected by the hood 300 and is discharged to the outside through the air purifier 320 to reduce radioactive contamination. Then, the contaminant precipitated in the decontamination tank 200 is discharged to the centrifuge 440 through the pump (P1), the contaminant is discharged to the outside in the centrifuge 440, the reusable decontamination solution is pump ( P2) is collected into the replenishment tank 420.

In the decontamination operation, the electrolyte is appropriately adjusted using a temperature controller composed of a heater 400b and a cooler 400a in order to adjust an appropriate temperature.

In addition, since the small wheel, which is the moving means 140, is mounted on the container so as to be able to move freely in the radioactive workplace, decontamination, packaging, transporting, and installation of the decontamination apparatus is facilitated.

The present invention has been described with reference to the embodiments shown in the drawings, which are merely exemplary and various modifications and equivalent other embodiments are possible to those skilled in the art.

According to the surface decontamination apparatus for radioactive contaminated metal waste according to the present invention, by using a plurality of radioactive metal parts mounted on the plurality of metal racks of the anode as described above, the decontamination time is reduced compared to the conventional decontamination method, the operator's coating dose This is suppressed, there is an advantage that can improve the decontamination work efficiency.

In addition, in the case of continuous decontamination compared to the conventional method of electrolytic desalination, the treatment of the contaminated electrolytic desalination solution has been economical by allowing secondary waste generation to be suppressed and reused through centrifuges and hoods. In addition, by removing the sludge by filtering the radioactive contaminated electrolyte, cleanliness and rapidity of decontamination is ensured, and the decontamination device is made portable so that it is easy to move between nuclear facilities, reducing work time due to decontamination, packaging, etc. It is effective.

1 is a perspective view of one embodiment of a radioactive contamination metal waste surface decontamination apparatus according to the present invention.

2 is an internal longitudinal cross-sectional view of FIG. 1.

<Description of the symbols for the main parts of the drawings>

100: radioactive contamination metal waste surface decontamination apparatus 120: container

140: moving means 160: external power connection

180: towing means 200: decontamination tank

220: power supply unit 240: anode rod

250: cathode rod 260: low speed motor

270 stirrer 280 metal rack

290: electrolyte supply pipe 300: hood

320: air purification means 340: discharge hole

400: temperature controller 420: supplement tank

440: centrifuge 460: fan

Claims (6)

A container having a towing means and a power supply and having an inner space; A desalination tank in which a quantity of a cathode operated by a power supply device is installed in the inner space of the container and a cathode rod is installed at an upper portion thereof, and an electrolyte is filled therein; A low speed rotary motor capable of driving an agitator to promote an electrolytic reaction in the decontamination tank; A hood installed on the decontamination tank for collecting the gaseous radioactive material to be discharged to the outside; An air purifier connected to an outlet of an upper portion of the hood and the container to discharge the collected gaseous radioactive material to the outside; A temperature control unit connected to an inlet pipe for injecting the electrolyte solution of the electrolytic bath; A replenishment tank connected to the tube of the temperature control unit to replenish the electrolyte solution; Radiocontaminated metal waste surface decontamination apparatus comprising a centrifugal separator connected to a pump for discharging the radioactive contamination electrolyte from the lower part of the electrolytic tank and centrifuging the electrocontaminated electrolyte to remove radioactive contaminants. . The method of claim 1, The positive and negative electrode rod radioactive contamination metal waste surface decontamination apparatus, characterized in that the platinum coated titanium. The method of claim 2, Radioactive contamination metal surface decontamination apparatus is characterized in that a plurality of rack (rack) to put the metal is further formed on the anode rod The method of claim 3, The air purifier is a radioactive contamination metal surface decontamination apparatus, characterized in that consisting of a pre-filter, HEPA filter, activated carbon filter, HEPA filter. The method according to any one of claims 1 to 4, Radiocontaminated metal waste surface decontamination apparatus, characterized in that provided with a moving means in the lower portion of the container. The method of claim 5, Radiocontaminated metal waste surface decontamination apparatus, characterized in that a fan (pan) for containing a sludge is installed below a predetermined interval of the centrifuge.