JP3119466B2 - Decontamination method 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 radioactive metal waste to which an adhesive tape generated from a nuclear power plant or the like has adhered.

[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.

However, an adhesive tape may adhere to the surface of pipes or the like of a nuclear power plant. This adhesive tape is obtained by forming an adhesive layer on a cloth tape main body via a urethane layer.However, when the radioactive metal waste to which the adhesive tape is attached is subjected to drive-last processing, the cloth tape main body can be easily formed. Although removed, as shown in FIG. 4, it was found that the urethane layer and the pressure-sensitive adhesive layer bulged around the blasted portion, and it was found that the surface of the radioactive metal waste could not be completely decontaminated.

[0004]

DISCLOSURE OF THE INVENTION The present invention solves the above-mentioned conventional problems and decontaminates the surface of radioactive metal waste to which the adhesive tape has been adhered so that it can be completely decontaminated. It was completed to provide a method.

[0005]

According to a first aspect of the present invention, a radioactive metal waste to which an adhesive tape is adhered is heated to 250 ° C. or more, and the surface thereof is subjected to a drive-last treatment. For decontamination. A second invention made to solve the same problem is to cool the radioactive metal waste to which the adhesive tape is attached to -30 ° C or lower, and then to subject the surface to a dry-last treatment to decontaminate the waste. It is characterized by the following.

[0006]

According to the first aspect, the radioactive metal waste to which the adhesive tape has adhered is heated to 250 ° C. or more,
The urethane and the adhesive constituting the adhesive tape are thermally decomposed and lose their adhesiveness, so that they can be easily removed by drive blast. According to the second invention,
By cooling the radioactive metal waste to which the adhesive tape has adhered to −30 ° C. or lower, urethane and the adhesive constituting the adhesive tape are embrittled and can be easily removed by drive blast. Therefore, according to these methods, the surface of the radioactive metal waste to which the adhesive tape has adhered can be completely decontaminated by the dry-last method.

[0007]

Embodiment 1 FIG. 1 shows a first embodiment of the first invention. 1 is a blast chamber provided with a blast nozzle 2, and 3 is an adhesive tape adhered to the blast chamber 1. The carry-in room 4 for carrying in the radioactive metal waste is a carry-out room for carrying out the radioactive metal waste from the blast chamber 1. In the present invention, a thermal erosion chamber 5 is provided between the loading chamber 3 and the blast chamber 1.

The thermal erosion chamber 5 is for heating the radioactive metal waste to which the adhesive tape has adhered to 250 ° C. or more by the heater 6. As a result, the urethane or the adhesive of the adhesive tape is thermally decomposed and loses its adhesiveness. If the heating temperature is lower than 250 ° C., it is not preferable because the adhesive tape is not sufficiently removed at the time of blasting.

Reference numeral 7 denotes a classifier provided at a lower portion of the blast chamber 1 for separating the abrasive and grinding dust, 8 denotes a conveyor for the classified abrasive, 9 denotes a blasting device, and 10 denotes a blast chamber 1. , A bag filter for treating dust-containing air discharged from the apparatus, 11 is a HEPA filter, and 12 is a blower.

The radioactive metal waste (SS41) to which the adhesive tape (for example, cloth adhesive tape of type 1 specified in JIS Z 1524) adheres is carried into the thermal erosion chamber 5 through the carry-in chamber 3. Heated to over 250 ° C. After the urethane or the adhesive of the adhesive tape is thermally decomposed in this manner, a drive blast process of projecting an abrasive from the blast nozzle 2 in the blast chamber 1 is performed. The abrasive used in the examples was cast iron grit having a particle diameter of 1 mm, the grinding distance was 20 cm, the grinding angle was 45 °, the grinding pressure was 6 kg / cm ² , and the grinding time was 15 seconds.

As a result, the adhesive tape is easily removed, and the surface of the radioactive metal waste is completely decontaminated. Thereafter, the radioactive metal waste is carried out of the carry-out chamber 4, and the radiation concentration is measured. If the level is lower than a predetermined value, the decontamination is completed. The grinding material is separated from the grinding waste by the classifier 7, returned to the blasting device 9 by the conveyor 8, and reused. The dust-containing air discharged from the blast chamber 1 is filtered by the bag filter 10 and the HEPA filter 11 and then discharged to the outside.

Embodiment 2 FIG. 2 shows a second embodiment of the first invention, and shows an example of a barrel-type drive-last decontamination apparatus. In FIG. 2, reference numeral 13 denotes a barrel for storing radioactive metal waste to which an adhesive tape is attached, and reference numeral 14 denotes an impeller type abrasive projecting machine installed on the upper part thereof. While the radioactive metal waste is rotated inside the barrel 13, the abrasive is projected from the impeller-type abrasive abrasive projector 14, and is subjected to drive-last processing. Hot air is supplied to heat the radioactive metal waste to which the adhesive tape has adhered to 250 ° C or more.

In this embodiment as well, the radioactive metal waste to which the adhesive tape has adhered is subjected to the drive-last treatment while being heated to 250 ° C. or more, so that the adhesive tape can be easily formed as in the first embodiment. It is removed and the surface of the radioactive metal waste is completely decontaminated. The abrasive is classified by the classifier 7 and returned to the impeller-type abrasive projector 14 by the bucket conveyor 16. In addition, the dust-containing air is
After heat exchange at 17, the bag filter 10,
Filtered by the HEPA filter 11 and released to the outside.

Embodiment 3 FIG. 3 shows an embodiment of the second invention and shows an example of a barrel-type drive-last decontamination apparatus. In this embodiment, the entire apparatus is housed in a freezer 18, and liquid nitrogen is supplied from a liquid nitrogen tank 19 into the barrel 13. According to this device, the radioactive metal waste with the adhesive tape attached is cooled to -30 ° C or less,
The urethane and adhesive constituting the adhesive tape are embrittled.
For this reason, the adhesive tape can be easily removed by the drive blast treatment, and the surface of the radioactive metal waste is completely decontaminated. If the cooling temperature of the radioactive metal waste is higher than −30 ° C., it is not preferable because the removability of the adhesive tape is reduced. In this embodiment, the barrel 13
Although the cooling and the drive-last processing are performed simultaneously inside the device, a cooling method in a previous step as in the first embodiment can be adopted.

[0015]

As described above, according to these inventions, the adhesive tape was adhered by heating the radioactive metal waste to 250 ° C. or higher or cooling it to -30 ° C. or lower. There is an advantage that the surface of the radioactive metal waste can be completely decontaminated by dry blasting.

[Brief description of the drawings]

FIG. 1 is a processing system diagram showing a first embodiment.

FIG. 2 is a processing system diagram showing a second embodiment.

FIG. 3 is a processing system diagram showing a third embodiment.

FIG. 4 is a perspective view showing a state of an adhesive tape on a surface of a radioactive metal waste which has been driven down in a conventional method.

[Explanation of symbols]

1 blast room, 5 heat erosion room, 13 barrels,
15 Hot air generator, 18 Freezer, 19 Liquid nitrogen tank

Claims (2)

(57) [Claims] 1. A method for decontaminating radioactive metal waste, comprising heating a radioactive metal waste to which an adhesive tape has adhered to 250 ° C. or more, and subjecting the surface to a dry blast treatment to decontaminate the radioactive metal waste. 2. A method for decontaminating radioactive metal waste, comprising cooling the radioactive metal waste to which the adhesive tape has adhered to a temperature of -30 ° C. or lower and subjecting the surface to a drive-last treatment to decontaminate. .