JP3137822B2 - Method and apparatus for decontamination of radioactive metal waste - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method for decontaminating various radioactive metal wastes generated from a nuclear power plant and the like, and a decontamination apparatus used for the method.

[0002]

2. Description of the Related Art Conventionally, radioactive metal waste generated from a nuclear power plant or the like has been conventionally stored as it is in a drum or the like. However, a very large storage space is required, and a conventional storage method is required. It is becoming difficult to continue. Therefore, recently, a method has been studied in which only radioactive substances adhering to the surface of radioactive metal waste are removed by dry blast treatment, and the remainder is measured as radiation concentration and then treated as general industrial waste.

[0003] However, radioactive metal waste generated from nuclear power plants and the like includes those in which only the inner surface is contaminated, such as pipes, and those in the form of flat plates, whose entire surface is contaminated. Conventionally, however, decontamination was mainly performed using a pressurized drivelast device, so all pipes were vertically divided to expose the inner surface, and pressurized drivelast treatment was performed in the same way as flat radioactive metal waste. Was. For this reason, there has been a problem that it takes a lot of trouble to perform pre-processing such as cutting, and it is not easy to perform vertical division especially for a large-diameter pipe. Further, when decontaminating the entire surface of the radioactive metal waste by this method, it is necessary to perform blasting while moving the blast nozzle or the radioactive metal waste, so that there is a problem that the apparatus becomes complicated.

[0004]

SUMMARY OF THE INVENTION The present invention solves the above-mentioned conventional problems and efficiently removes radioactive metal wastes of various shapes generated from a nuclear power plant or the like without requiring much trouble in pretreatment. An object of the present invention is to provide a method and an apparatus for decontaminating radioactive metal waste which can be decontaminated.

[0005]

Means for Solving the Problems A method for decontaminating radioactive metal waste according to the present invention, which has been made to solve the above problems, comprises:
Radioactive metal waste is categorized into pipes and other radioactive metal waste, and the inner surface of the pipe is decontaminated by a negative pressure suction type drive-last process that performs grinding while suctioning abrasives inside the pipe under negative pressure. The method is characterized in that projection-type drive-last processing is performed for other radioactive metal waste.

In order to solve the above-mentioned problems, a radioactive metal waste decontamination apparatus according to the present invention comprises a projection type drive last unit, a negative pressure suction type drive last unit, and a pressurized type drive last unit. While being arranged in parallel,
Each of these devices is connected to an abrasive recycling and circulation section and an exhaust gas treatment section.

[0007]

According to the method for decontaminating radioactive metal waste of the present invention, radioactive metal waste is classified into pipes and other radioactive metal wastes, and for pipes, abrasives are suctioned under negative pressure inside the pipes. The inner surface is decontaminated by a negative pressure suction type drive blast process in which grinding is performed. This negative pressure suction type drive blasting process allows the abrasive to move spirally along the inner surface of the pipe and remove radioactive contaminants adhering to the inner surface without cutting the pipe. For other radioactive metal wastes, decontamination is performed by a projection type drive-last treatment. In this projection-type drive-last treatment, the radioactive metal waste is put into the barrel, and the entire surface of the radioactive metal waste is ground with an abrasive blasted into the barrel while rotating. Can be removed. in this way,
Efficient decontamination can be performed according to the shape of each radioactive metal waste. The spot contaminated portion of the radioactive metal waste can be more efficiently decontaminated by using intensive decontamination by pressurized dry blasting. Further, in the case where the decontamination-impossible portion still remains in the pipe subjected to the negative pressure suction type drive-last processing, complete decontamination can be performed by vertically dividing the pipe and performing the projection type drive-last processing.

The radioactive metal waste decontamination apparatus of the present invention comprises:
Since the projection-type drive-last device, the negative-pressure suction-type drive-last device, and the pressurization-type drive-last device are arranged in parallel, the decontamination method is selected according to the shape of each radioactive metal waste. It is suitable for carrying out the decontamination method.

[0009]

Next, examples of the present invention will be described. FIG. 1 shows an embodiment of the radioactive metal waste decontamination apparatus of the present invention.
Is a projection type drive last device, 2 is a negative pressure suction type drive last device, and 3 is a pressurized type drive last device. The projection type drive last device 1 is a combination of an impeller type abrasive material projector 5 on a rotating barrel 4 and applies abrasive material to relatively small radioactive metal waste stored inside the barrel 4. It is for projecting and decontaminating the surface. As the abrasive, for example, cast iron grit having a particle size of 1 mm is used.

The negative pressure suction type drive blast device 2 is provided between a cyclone pipe 7 connected to an abrasive supply hopper 6 shown on the left side of the figure and a grinding material recovery hopper 8 on the right side, and has a radioactive material whose inner surface is contaminated. A pipe, which is metal waste, is set, and while the abrasive is supplied from the abrasive supply hopper 6, air is sucked from the abrasive recovery hopper 8 side, and the abrasive is moved spirally inside the pipe to remove the inner surface. It performs dyeing. However, the negative pressure suction type drive last device 2 of the embodiment is suitable for a pipe having an inner diameter of 500 mm or less, and a pipe having a larger diameter requires an enormous amount of air for decontamination. , Not practical.

The pressurized drive blast device 3 transports the abrasive supplied from the blast tank 9 together with the compressed air discharged from the compressor 10,
This is a device for projecting from the nozzle 12 into the inside of 11. The projection pressure is, for example, about 6 kg / cm ^2, so that the abrasive can be intensively projected on a specific portion.
It is suitable for decontaminating spot-contaminated parts of radioactive metal waste.

As shown in FIG. 1, an abrasive is supplied to these three types of blasting devices via a common abrasive conveyor 13. The outlet sides of these three types of blasting devices are connected to a common abrasive recirculation unit 14. The grinding material recycling section 14 includes a classifier 15 for separating the grinding material from the grinding dust, and a returning abrasive material conveyor 16.

Further, these three types of blasting devices are:
It is connected to a common exhaust gas processing unit 17. Exhaust gas treatment section
17 is a bag filter 18, a HEPA filter 19, and a blower
20 and filters out the dust in the exhaust gas from each blasting device and discharges it to the atmosphere. In addition, blower
A part of the exhaust gas from 20 is used as a classifier 15 classifier wind.

Next, the method for decontaminating radioactive metal waste of the present invention using the radioactive metal waste decontamination apparatus thus constructed will be described. First, the incoming radioactive metal waste is classified into pipes and other radioactive metal waste.
The pipe handled here has an inner diameter of 500 mm or less as described above, but this size is not absolute because it varies depending on the size and capacity of the apparatus.

With respect to the classified pipes, the inner surface is decontaminated by the negative pressure suction type drive last unit 2 described above. Then, after measuring the surface contamination density, if the level is equal to or lower than the reference value, it is determined that the decontamination has been completed. However, when the surface contamination density exceeds the reference value, the pipe is vertically divided and blasting is performed by the projection-type drive-last apparatus 2. According to this method, the number of steps for vertically dividing all the pipes as in the related art can be omitted, so that the number of steps for preprocessing can be greatly reduced.

Other radioactive metal wastes are processed by the projection type drive last unit 1. Then, after measuring the surface fouling density, if the level is equal to or lower than the reference value, it is determined that the decontamination has been completed.

However, in any case, if the surface fouling density exceeds the reference value, it is necessary to perform decontamination again. In this case, the blasting process using the same device may be repeated. However, if a spot-contaminated portion is known, it is efficient to perform intensive decontamination on the portion using the pressurized drive-lasting device 3. It is. Thus, according to the radioactive metal waste decontamination method of the present invention, radioactive metal waste of various shapes can be decontaminated according to its characteristics, and the number of pretreatment steps can be reduced. There are advantages that can be done.

[0018]

As described above, according to the radioactive metal waste decontamination method of the present invention, radioactive metal waste of various shapes is efficiently decontaminated according to its characteristics. And the number of pre-processing steps can be reduced.
Further, according to the radioactive metal waste decontamination apparatus of the present invention, the above method can be easily performed.

[Brief description of the drawings]

FIG. 1 is a processing system diagram showing an embodiment of the present invention.

[Explanation of symbols]

1. Projection type drive blast device, 2. Negative pressure suction type drive blast device, 3. Pressurized type drive blast device, 14. Abrasive recycle unit, 17 Exhaust gas treatment unit

Claims (4)

(57) [Claims] 1. A radioactive metal waste is classified into a pipe and other radioactive metal waste, and the pipe is subjected to a negative pressure suction type drive blast process in which grinding is performed while a negative pressure suction is being performed inside the pipe. A method for decontaminating radioactive metal waste, comprising decontaminating the inner surface and performing a projection-type dry-last treatment for other radioactive metal waste. 2. The method for decontaminating radioactive metal waste according to claim 1, wherein intensive decontamination by pressurized dry blast processing is also used for spot-contaminated portions of other radioactive metal waste. 3. The radioactive metal waste according to claim 1, wherein the pipe is vertically divided and the projection type drive-last processing is carried out when a portion that cannot be decontaminated still remains in the pipe subjected to the negative pressure suction type drive-last processing. Decontamination method. 4. A projection-type drive-last unit, a negative-pressure suction-type drive-last unit, and a pressurization-type drive-last unit are arranged in parallel. An apparatus for decontaminating radioactive metal waste, wherein the apparatus is connected to a device.