KR101278210B1 - Movable melting decontamination equipment for radioactive metal waste - Google Patents

Abstract

The present invention relates to a molten decontamination apparatus for radioactive metal waste, and the conventional molten decontamination apparatus or methods are installed in each site where radioactive metal waste is generated or loaded to process the waste by installing a facility for molten decontamination and According to the present invention, in order to solve problems such as an increase in installation cost, a license for a treatment facility for each treatment site, and a secondary waste from such a decontamination plant, the waste is generated. Alternatively, by directly moving to the loaded site and treating the waste directly at the site of generating the radioactive metal waste, it is possible to reduce costs and increase the recycling efficiency of the metal waste compared to the conventional installed melt decontamination apparatus, and to generate secondary waste. Provided is a mobile radioactive metal waste melt decontamination apparatus that can reduce the number of particles.

Description

Movable melting decontamination equipment for radioactive metal waste

The present invention relates to a melt decontamination apparatus for radioactive metal waste, and more particularly, to a mobile radioactive metal waste melt decontamination apparatus capable of treating radioactive metal waste by moving to a site where radioactive metal waste is generated or loaded.

In general, various facilities installed in a nuclear power plant should be replaced at the end of a predetermined life. In the case of a steam generator of a nuclear power plant, the weight thereof is about 300 tons. Metal waste is generated.

In addition, these waste disposal costs are also very expensive, thus eliminating radioactive contaminants in metal waste and converting them into self-disposable waste or recycling the waste by uniformizing the concentration of contaminants in the metal waste and reducing the volume of waste. As one of the methods for more stable and efficient disposal, the so-called melt decontamination method is used.

In addition, as an example of the prior art of the melt decontamination method, for example, "melt decontamination treatment system of radioactive contaminated scrap metal" as disclosed in Korean Patent No. 10-1016223 (registered on February 14, 2011). There is this.

More specifically, the "melt decontamination system of radioactive scrap metals of radioactive contamination" of the above Patent No. 10-1016223, conventionally used induction furnace furnace wall is made of graphite or high temperature ceramic, which is, In order to solve the inconvenience of having to replace periodically due to high temperature corrosion, and the problem that large quantity of secondary radioactive waste is generated due to radioactive contamination of the refractory, the surface of metal waste such as carbon steel, stainless steel and copper discharged as waste from nuclear facilities and The present invention aims to provide a molten decontamination treatment system of radioactively contaminated scrap metal to remove the radioactivity contained therein to recycle the reduced radioactive metal and to reduce the final volume of radioactive waste.

To this end, the Patent No. 10-1016223, the housing is formed in the opening and closing portion; An upper melting furnace installed inside the housing and having upper and lower portions opened; A lower melting furnace, the upper opening of which is tightly coupled to the lower outer circumferential surface of the upper melting furnace and into which coolant flows out; Heating unit for heating the lower melting furnace; A lift unit coupled to a lower portion of the lower melting furnace to lift the lower melting furnace; A slag forming agent placed on the upper melting furnace; A radioactive contamination metal input unit positioned above the upper melting furnace; A gas discharge part for filtering and discharging the gas generated in the housing; And a slag discharge unit for discharging slag combined with radioactivity upon melting of the contaminated scrap metal, wherein the slag forming agent input unit comprises: an input hopper; Gravimetric means for measuring the weight of the slag injected through the injection hopper; And a screw feeder for transferring the injected slag to the lower melting furnace through the upper melting furnace.

In addition, as another example of the prior art for the molten decontamination as described above, for example, "batch decontamination system for metal radioactive waste as disclosed in Korean Patent No. 10-0822862 (registered on April 10, 2008) and Decontamination method using the same ".

More specifically, the "patent decontamination system for metal radioactive waste and decontamination method using the same" of the above-mentioned Patent No. 10-0822862, conventionally, metal radioactive waste generated in the nuclear research institute, the surface coating metal radioactive Waste and surface uncoated metal radioactive waste. Among them, surface-coated metal radioactive waste has difficulty in removing paint, and it takes a lot of time even if the paint is removed, and most of the volume generated by waste of manpower In order to solve the problem that has been loaded, it is possible to batch decontamination of all types of surface-coated metal radioactive waste and surface uncoated metal radioactive waste to provide a batch decontamination system and decontamination method of metal radioactive waste to minimize the cost and manpower consumption. I would like to.

To this end, the Patent No. 10-0822862, a paint removal device for removing the paint of the surface-painted metal radioactive waste by scratching after supporting the surface-coated metal radioactive waste in the paint removal liquid; An electrolytic decontamination apparatus for removing the radioactive material of the surface uncoated metal radioactive waste by electrolytic salting the surface uncoated metal radioactive waste; And a melting and forming apparatus for melting the metal waste decontaminated in the paint removing apparatus and the electrolytic decontamination apparatus into a plate shape, wherein the paint removing apparatus comprises: a glove box body; A paint removal solution tank installed in an inner space of the glove box body and containing a paint removal solution to support the surface-coated metal radioactive waste; Scratching means for scratching and removing paint of said surface-painted metal radioactive waste; A cyclone device having an inlet and an outlet formed in the lower portion of the scratching means and collecting paint sludge generated by scratching; And a drier for drying the metal waste from which the paint has been removed using the scratching means.

In addition, another example of the prior art for the molten decontamination as described above, for example, "a method of treating radioactive metal waste as disclosed in Japanese Patent Application Laid-Open No. 2007-147606 (published on June 14, 2007) and Treatment facilities ".

More specifically, the "treatment method and treatment facility for radioactive metal waste" in Japanese Unexamined Patent Application Publication No. 2007-147606 discloses radioactive metals because all conventional radioactive metal waste treatment includes decontamination, measuring, and conveying processes. The disposal cost for decontaminating and non-radioactive wastes is high, and a large area is required for storing radioactive wastes. Moreover, since the work is carried out in individual facilities, there is a change in the work scale including regular inspection work. In order to solve the problem that large and difficult personnel have been secured, the radioactive metal wastes can be used in combination with the processing of radioactive metal wastes. It is to provide a treatment method and treatment equipment.

To this end, Japanese Unexamined Patent Publication No. 2007-147606 discloses a radioactive metal reduction treatment for decontaminating radioactive metal waste and confirming that the radioactive metal waste is non-radioactive and melting the non-radioactive metal waste. A method for treating radioactive metal waste, characterized in that the treatment facilities in a public building perform at least two treatments selected from a recyclables manufacturing process for solidifying and producing recycled products and a device inspection process for inspecting equipment separated from a nuclear power plant. Is starting.

As described above, in the past, various studies have been made on the melt decontamination apparatus and method, but the conventional melt decontamination apparatus and method as described above had the following problems.

That is, in the conventional melt decontamination apparatus or methods as described above, it was common to install a facility for melt decontamination at each site where radioactive metal waste is generated or loaded to treat wastes. The installation of a decontamination facility to deal with waste has a number of difficulties, including an increase in costs such as the cost of manufacturing and installing the facility, and a license for the treatment facility as a disposal facility at each treatment site.

In addition, radioactive metal waste is generated in each nuclear facility, such as a nuclear power plant, and all of them must be decontaminated and reduced in recycle, or safely disposed and stored as waste. Even if it installs every time, as mentioned above, secondary waste will also generate | occur | produce from such molten salting installation.

On the other hand, if a mobile radioactive metal waste melt decontamination apparatus capable of treating radioactive metal waste by moving directly to a site where waste is generated or loaded, rather than a fixed facility as in the prior art, directly at the site of generating radioactive metal waste The waste can be treated to reduce the amount of secondary waste as described above.

Therefore, as described above, by efficiently melt decontamination and reduction treatment of radioactive metal waste at a lower cost than conventional installation type melt decontamination apparatus to reduce the disposal cost of radioactive metal waste, and improve the recycling efficiency of metal waste However, it is desirable to provide a new melt decontamination apparatus that can reduce the generation of secondary waste by the melt decontamination apparatus, but there are still no devices or methods that satisfy all such requirements.

In addition, as described above, it is desirable to provide a mobile melt decontamination apparatus capable of treating radioactive metal waste by directly moving to a site where waste is generated or loaded, but still provide an apparatus or method that satisfies all such requirements. This is not true.

The present invention is to solve the problems of the prior art as described above, and therefore the object of the present invention is to efficiently melt melt decontamination and reduction treatment radioactive metal waste at a lower cost than conventional installation type melt decontamination apparatus radioactive metal The purpose of the present invention is to provide a mobile radioactive metal waste melt decontamination apparatus capable of reducing the disposal cost of waste and increasing the recycling efficiency of metal waste and at the same time reducing the generation of secondary waste by the melt decontamination apparatus.

That is, the present invention, in order to solve the problems of the prior art as described above, to provide a mobile radioactive metal waste melt decontamination apparatus capable of treating the radioactive metal waste by moving directly to the site where the waste is generated or loaded. .

In order to achieve the object as described above, according to the present invention, a mobile radioactive metal waste melt decontamination apparatus, comprising: a mobile metal molten container in which the radioactive metal waste is melted, decontaminated and reduced in volume; A mobile radioactive metal waste melt decontamination apparatus is provided; and a mobile cooling and exhaust gas treating container in which exhaust gas is generated during cooling and melting of the mobile metal melting container.

Here, the movable metal melting container, the electric induction melting furnace for melting and decontamination of radioactive metal waste; A power supply for supplying power to the electric induction melting furnace; A melt mold bogie for conveying the melt produced from the induction melting furnace; A trolley trajectory for movement of the melt mold trolley; And an exhaust pipe for discharging the exhaust gas generated in the melting process of the radioactive metal waste.

In addition, the movable metal molten container is characterized in that it further comprises a door.

Here, the door is characterized in that the door of the two-door type.

In addition, the melt mold bogie, characterized in that it comprises a melt mold for melting in the electro-induction melting furnace and desalted and reduced-treated metal melt is charged to generate an ingot.

In addition, the mobile cooling and exhaust gas treatment container, the cooling device for supplying a cooling water for cooling the mobile metal molten container; And an exhaust gas treating unit for treating the exhaust gas generated during the melting treatment of the radioactive metal waste in the mobile metal melting container.

Here, the cooling device unit, a cooling facility for generating cooling water; An open cooling device installation room in which the cooling facility is installed; A cooling water pump for supplying the cooling water produced by the cooling facility to the movable metal melting container; And a hydraulic device for supplying a hydraulic pressure to allow the electric induction melting furnace to be tilted when the melt is charged into the melt mold.

The exhaust gas processing unit may further include: an exhaust gas collecting pipe configured to collect exhaust gas generated during melting processing of metal waste in the mobile metal melting container; An enclosed exhaust gas processing chamber for processing exhaust gas collected by the exhaust gas collecting pipe; A dust collector and an exhaust gas treatment device mounted in the hermetic exhaust gas treatment chamber; An exhaust gas outlet for discharging the exhaust gas treated in the closed exhaust gas treatment chamber to the outside; An exhaust gas monitor for monitoring leakage of exhaust gas to the outside of the closed exhaust gas treatment chamber; And an exhaust fan for collecting and discharging the exhaust gas.

In addition, the device is characterized in that it further comprises an entrance door installed between the cooling device unit and the exhaust gas treatment unit.

Here, the door is characterized in that the door of the two-door type.

Further, the exhaust gas collection pipe is connected to the exhaust pipe of the hermetic exhaust gas treatment chamber.

In addition, the device, characterized in that it further comprises a moving means for the movement of the mobile radioactive metal waste melt decontamination apparatus.

As described above, according to the present invention, by providing a mobile radioactive metal waste melt decontamination device composed of a mobile electric induction melting device, a cooling device and an exhaust gas treatment device, the metal waste melt decontamination device is radioactive without any additional installation work. It is possible to provide a mobile radioactive metal waste molten salt decontamination apparatus capable of efficiently decontaminating and reducing metal waste by moving to the generation and loading site of metal waste.

That is, according to the present invention, by providing a mobile radioactive metal waste melt decontamination apparatus as described above, by conventionally installing a treatment facility for melt decontamination and reduction treatment of radioactive metal waste for each site where the waste is generated or loaded This can reduce the cost and the hassle of having to obtain a license for the treatment facility as a disposal facility at each site.

In addition, according to the present invention, by providing a mobile radioactive metal waste melt decontamination apparatus as described above, it is possible to more efficiently melt decontamination and reduction treatment of radioactive metal waste than the conventional, reducing the disposal cost of radioactive metal waste and metal waste Can increase the recycling efficiency.

In addition, according to the present invention, by providing a mobile radioactive metal waste molten salt decontamination apparatus as described above, in the social acceptance of the treatment facility for the decontamination and reduction treatment of radioactive metal waste, the same difficulties as the installation of residents near the installation site Can be prevented.

Figure 1 is a block diagram schematically showing the overall configuration of a mobile radioactive metal waste melt decontamination apparatus according to an embodiment of the present invention.
FIG. 2 is a view schematically showing the overall configuration of the mobile metal melting container of the mobile radioactive metal waste melt decontamination apparatus according to the embodiment of the present invention shown in FIG. 1, FIG. 2A is a front view thereof, and FIG. 2B is a plan view thereof.
3 is a view schematically showing the overall configuration of the mobile cooling and exhaust gas treatment container of the mobile radioactive metal waste melt decontamination apparatus according to the embodiment of the present invention shown in FIG. 1, FIG. 3A is a front view thereof, and FIG. Top view.

Hereinafter, with reference to the accompanying drawings, the contents of a specific embodiment of the mobile radioactive metal waste melt decontamination apparatus according to the present invention will be described.

Here, it should be noted that the contents described below are only examples for carrying out the present invention, and the present invention is not limited to the contents of the embodiments described below.

That is, the mobile radioactive metal waste melt decontamination apparatus according to the present invention is composed of a mobile electric induction dissolving device, a cooling device and an exhaust gas treatment device, as described below, so that the metal waste melt decontamination device is not required. The present invention relates to a mobile radioactive metal waste melt decontamination apparatus capable of efficiently decontaminating and reducing metal waste by moving to a generation and loading site of radioactive metal waste.

In addition, the present invention is to reduce the cost required by installing a treatment facility for the molten decontamination and reduction treatment of radioactive metal waste at each site where the waste is generated or loaded, and to the treatment facility as a waste facility for each site The present invention relates to a mobile radioactive metal waste melt decontamination apparatus capable of eliminating the inconvenience of having to obtain a separate license.

In addition, the present invention can melt and decontaminate radioactive metal waste more efficiently than in the past, thereby reducing the disposal cost of radioactive metal waste and increasing the recycling efficiency of metal waste, while decontaminating and reducing radioactive metal waste. The present invention relates to a mobile radioactive metal waste melt decontamination apparatus that can prevent the occurrence of problems such as the opposition of the installation of residents near the installation site for treatment.

Next, with reference to the drawings, the details of specific embodiments of the mobile radioactive metal waste melt decontamination apparatus according to the present invention will be described.

First, referring to FIG. 1, FIG. 1 is a view schematically showing the overall configuration of a mobile radioactive metal waste melt decontamination apparatus according to an embodiment of the present invention.

That is, as shown in Figure 1, the mobile radioactive metal waste melt decontamination apparatus 10 according to the embodiment of the present invention, the mobile metal molten container 11 loaded with the electric induction melting device, the cooling device and the exhaust gas treatment It is comprised including two containers of the mobile cooling and exhaust gas processing container 12 which loaded the apparatus.

That is, the mobile radioactive metal waste molten salt decontamination apparatus 10 according to the embodiment of the present invention as shown in FIG. 1, as described later, melting, decontamination, and reduction treatment of radioactive metal waste in the mobile metal molten container 11. And the exhaust gas generated during the cooling and melting of the movable metal molten container 11 by the movable cooling and exhaust gas treatment container 12.

Next, with reference to FIG. 2, the more specific content of the above-mentioned movable metal melting container 11 is demonstrated.

Referring to FIG. 2, FIG. 2 is a view schematically showing the overall configuration of the mobile metal melting container 11 of the mobile radioactive metal waste melt decontamination apparatus 10 according to the embodiment of the present invention shown in FIG. Is its front view, and FIG. 2B is its plan view.

That is, as shown in Figures 2a and 2b, the movable metal melting container 11 of the mobile radioactive metal waste melt decontamination apparatus 10 according to the embodiment of the present invention, the power supply device 21 for supplying power , The trolley track for the movement of the melt-molding bogie 23 and the melt-molding bogie 23 for transporting the melt generated from the electro-induction melting furnace 22 for melting and decontamination of radioactive metal waste. And an exhaust pipe 25 for exhausting exhaust gas generated during melting of the radioactive metal waste.

In addition, the movable metal melting container 11 may be provided with, for example, a door 26 having a double door type, as shown in FIG. 2.

More specifically, first, when power is supplied to the electric induction melting furnace 22 by the power supply device 21, the electric induction melting furnace 22 is operated, and the metal waste is melted by the electric induction melting furnace 22. .

In addition, as described above, the metal melt in which the radioactive metal waste is melted in the electric induction melting furnace 22 and decontaminated and reduced in volume is subjected to the electric induction melting furnace 22 and attached to the melt mold mounted on the melt molding bogie 23. Charged to create an ingot.

Here, the melt mold bogie 23 may be configured to move above the bogie track 24 along the bogie track 24.

In addition, the electric induction melting furnace 22 is configured so that the electric induction melting furnace 22 is tilted by hydraulic pressure, as described later, when the melt is charged into the melt mold mounted on the melt molding bogie 23 as described above. .

Next, with reference to FIG. 3, the more specific content of the above-mentioned portable cooling and waste gas processing container 12 is demonstrated.

Referring to FIG. 3, FIG. 3 is a view schematically showing the overall configuration of the mobile cooling and exhaust gas treatment container 12 of the mobile radioactive metal waste melt decontamination apparatus 10 according to the embodiment of the present invention shown in FIG. 3A is a front view thereof, and FIG. 3B is a plan view thereof.

That is, as shown in Figures 3a and 3b, the mobile cooling and exhaust gas treatment container 12 of the mobile radioactive metal waste molten salt decontamination apparatus 10 according to the embodiment of the present invention, supply the cooling water to the mobile metal And a cooler unit 31 for cooling the molten container 11, and an exhaust gas treatment unit 32 for treating the exhaust gas generated during the metal waste melting process.

More specifically, the above-mentioned cooling device unit 31, as shown in Figure 3, the cooling facility 33 for generating the cooling water, the open type cooling device installation chamber 34 in which the cooling facility 33 is installed and And a cooling water pump 35 for supplying the cooling water produced by the cooling system 33 to the movable metal melting container 11.

That is, the cooling water manufactured in the cooling facility 33 installed in the open cooling device installation chamber 34 is supplied to the power supply device 21 and the electric induction melting device 22 by the cooling water pump 35 to move the movable metal melting container ( The power supply device 21 and the electric induction melting device 22 installed in 11) are cooled.

In addition, the cooler unit 31 is provided with a hydraulic device 36 for supplying hydraulic pressure so that the electric induction melting furnace 22 can be tilted when the melt is charged into the melt mold as described above.

Subsequently, the exhaust gas processing unit 32 is configured to process the exhaust gas collected by the exhaust gas collecting pipe 37 and the exhaust gas collecting pipe 37 for collecting the exhaust gas generated during the metal waste melting process. In order to discharge the exhaust gas treated in the hermetic exhaust gas treatment chamber 38, the dust collector 39 and the exhaust gas treatment apparatus 40 mounted in the hermetic exhaust gas treatment chamber 38, and the hermetic exhaust gas treatment chamber 38 to the outside. The exhaust gas discharge port 41, the exhaust gas monitor 42 for monitoring the leakage of exhaust gas, and the exhaust fan 43 for the collection and processing of exhaust gas are comprised.

In addition, as shown in FIG. 3, for example, a double door type door 44 may be provided between the cooling device section 31 and the exhaust gas processing section 32.

That is, the exhaust gas processing unit 32 collects the exhaust gas generated during the metal waste melting process through the exhaust gas collecting pipe 37 to collect the dust collector 39 and the exhaust gas mounted in the sealed exhaust gas processing chamber 38. After the treatment by the gas treatment device 40, the gas is discharged through the exhaust gas outlet 41.

Here, the exhaust gas collection pipe 37 is connected to the exhaust pipe 26 described above, and the exhaust gas monitor 42 monitors that the exhaust gas leaks outside the sealed exhaust gas treatment chamber 38. Collection and discharge of the exhaust gas as described above is made by the exhaust fan 43.

In addition, although not shown, the mobile radioactive metal waste melt decontamination apparatus 10 may further include a moving means for moving the mobile radioactive metal waste melt decontamination apparatus 10.

Here, the moving means, for example, may be configured to include a configuration such as a wheel, or may further comprise a drive means for driving the wheel, furthermore, the movable metal molten container 11 And may be separately installed in one or each of the mobile cooling and exhaust gas treatment containers 12.

Therefore, as described above, the mobile radioactive metal waste melt decontamination apparatus 10 according to the present invention can be configured.

Further, according to the mobile radioactive metal waste melt decontamination apparatus of the present invention as described above, by providing a mobile radioactive metal waste melt decontamination apparatus composed of a mobile metal melting apparatus and a mobile cooling and exhaust gas treatment apparatus, a separate installation work is required. Without the metal waste melt decontamination apparatus can be moved to the site of the generation and loading of radioactive metal waste to efficiently decontaminate and reduce the metal waste.

In addition, according to the mobile radioactive metal waste molten salt decontamination apparatus of the present invention as described above, the cost of installing a treatment facility for melt decontamination and reduction treatment of radioactive metal waste for each site where waste is generated or loaded, This can reduce the hassle of having to obtain a separate license for the treatment facility as a disposal facility at each site.

Furthermore, according to the mobile radioactive metal waste melt decontamination apparatus of the present invention as described above, more efficient melt decontamination and reduction treatment of radioactive metal waste than in the prior art, thereby reducing the disposal cost of radioactive metal waste and recycling efficiency of metal waste. Can increase.

In addition, according to the mobile radioactive metal waste melt decontamination apparatus of the present invention as described above, it is possible to prevent the occurrence of problems such as the opposition of the installation of residents near the installation site of the treatment facility for the decontamination and reduction treatment of radioactive metal waste. have.

As described above, the mobile radioactive metal waste melt decontamination apparatus according to the present invention has been described through the embodiments of the present invention as described above, but the present invention is not limited only to the contents described in the above embodiments. It is a matter of course that the present invention can be modified, changed, combined and replaced by a person skilled in the art according to the design needs and various other factors.

10. Mobile radioactive metal waste melt decontamination apparatus
11.Movable Metal Melting Container
12. Mobile cooling and exhaust treatment container
21. Power supply 22. Electric induction melting furnace
23. melt mold bogie 24. bogie track
25. Exhaust Pipe 26. Door
31. Chiller unit 32. Exhaust gas treatment unit
33. Cooling System 34. Open Cooling Unit Installation Room
35. Coolant Pump 36. Hydraulics
37. Exhaust gas collection pipe 38. Closed exhaust gas treatment chamber
39. Dust Collector 40. Exhaust Gas Treatment System
41. Exhaust gas outlet 42. Exhaust gas monitor
43. Exhaust fan 44. Door

Claims (12)

In the radioactive metal waste melt decontamination apparatus,
A mobile molten metal container in which radioactive metal waste is melted, decontaminated, and treated; And
And a mobile cooling and exhaust gas processing container configured to process exhaust gases generated during cooling and melting of the mobile metal melting container.
The movable metal melting container,
Electric induction melting furnaces for melting and decontaminating radioactive metal waste;
A power supply for supplying power to the electric induction melting furnace;
A melt mold bogie for conveying the melt produced from the induction melting furnace;
A trolley trajectory for movement of the melt mold trolley; And
An exhaust pipe for exhausting exhaust gas generated during melting of the radioactive metal waste;
Mobile radioactive metal waste melt decontamination apparatus comprising a.
delete The method of claim 1,
The mobile metal melt container, the mobile radioactive metal waste melt decontamination apparatus further comprises a door.
The method of claim 3,
The door is a mobile radioactive metal waste melt decontamination apparatus is a door of the double door type.
5. The method of claim 4,
The melt mold trolley is a mobile radioactive metal waste melt decontamination apparatus comprising a melt mold for melting in the electric induction melting furnace and desalted and reduced-treated metal melt to generate a ingot.
6. The method of claim 5,
The mobile cooling and exhaust gas treatment container,
A chiller unit for supplying cooling water for cooling the movable metal melting container; And
An exhaust gas treating unit for treating exhaust gas generated during melting of radioactive metal waste in the mobile metal melting container;
Mobile radioactive metal waste melt decontamination apparatus comprising a.
The method according to claim 6,
The cooling unit,
A cooling system for producing cooling water;
An open cooling device installation room in which the cooling facility is installed;
A cooling water pump for supplying the cooling water produced by the cooling facility to the movable metal melting container; And
A hydraulic device for supplying hydraulic pressure so that the electric induction melting furnace can be tilted when the melt is charged into the melt mold;
Mobile radioactive metal waste melt decontamination apparatus comprising a.
8. The method of claim 7,
The exhaust gas processing unit,
An exhaust gas collecting pipe configured to collect exhaust gas generated during melting of metal waste in the mobile metal melting container;
An enclosed exhaust gas processing chamber for processing exhaust gas collected by the exhaust gas collecting pipe;
A dust collector and an exhaust gas treatment device mounted in the hermetic exhaust gas treatment chamber;
An exhaust gas outlet for discharging the exhaust gas treated in the closed exhaust gas treatment chamber to the outside;
An exhaust gas monitor for monitoring leakage of exhaust gas to the outside of the closed exhaust gas treatment chamber; And
An exhaust fan for collecting and discharging the exhaust gas;
Mobile radioactive metal waste melt decontamination apparatus comprising a.
The method of claim 8,
The mobile radioactive metal waste melt decontamination apparatus further comprises a door installed between the cooling unit and the exhaust gas treatment unit.
The method of claim 9,
The door is a mobile radioactive metal waste melt decontamination apparatus is a door of the double door type.
The method of claim 10,
The exhaust gas collection pipe is a mobile radioactive metal waste melt decontamination apparatus connected to the exhaust pipe of the closed exhaust gas treatment chamber.
12. The method of claim 11,
A mobile radioactive metal waste melt decontamination apparatus further comprising a moving means for the movement of the mobile radioactive metal waste melt decontamination apparatus.

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