KR810000984B1 - Cleaning agent for radioactive stains - Google Patents

Abstract

Cleaning agents for removing radioactive stains attached to human body or substances were prepared by forming cpds. made of soluble salt complex in water and detergent. The said cpds. were mainly composed of metal complex forming agent 1-10%, oxidizing agent 1-10 %, organic solvent 5-15 %, surface active agent of alkali salt 20-30 % and water.

Description

Radioactive decontamination agents

The present invention relates to radioactive decontamination agents used to remove radioactive material attached to an object or human body.

Radioactive contamination is mainly caused by nuclear fission of heavy nuclides such as U-235, U-233, and Pu-239. Nuclear species caused by thermal neutrons are distributed from zinc to tebium. Most of them are radioactive metals, which are attached to the human body, apparatus, indoors, and facilities for some reason to cause radioactive contamination of areas, devices, clothing, etc. in the form of constant radiation sensitivity. It is. That is, it is not desirable from accidentally contaminated human body, apparatus, indoors, facilities, etc. for radioactive waste treatment or RI operation to prevent danger or to increase the background coefficient during experiment. Radioactive materials that have not been removed should be removed, and decontamination, equipment decontamination, medical decontamination skin and decontamination are important in nuclear facilities. Area decontamination is the decontamination object that cannot be moved, such as buildings or large facilities. Decontamination should be done at the site, which is important as an incident treatment for large radioactive contamination incidents. In addition, equipment decontamination is usually carried out at a dedicated decontamination facility, and the decontamination is recovered to the baseline, and the decontamination is discarded. In these decontamination, economic feasibility such as decontamination cost of object should be considered. Garment salts are generally the same as machine salts.

The present invention relates to a radioactive decontamination agent used to remove radioactive material attached to an object or human body.

Radioactive contamination is mainly caused by nuclear fission of heavy nuclides such as U-235, U-233, and Pu 239. Nucleotides caused by thermal neutrons are distributed from zinc to tebium. As radioactive metals, they remain attached to the human body, apparatus, indoors, and facilities for some reason to cause radioactive contamination in areas, devices, and skin of skin in the form of a constant radiation sensitivity. That is, it is not desirable from accidentally contaminated human body, apparatus, indoors, facilities, etc., in order to prevent danger or to prevent radioactive waste treatment or manipulation in order to prevent an increase in the background coefficient during the experiment. Radioactive materials must be removed and also, decontamination, device decontamination, medical decontamination, and skin decontamination are important in nuclear facilities. Area decontamination is a decontamination object that cannot be moved, such as a building or a large facility. Decontamination must be done and this is important as incident handling for large radioactive contamination incidents. In addition, equipment decontamination is usually carried out in a dedicated decontamination facility, and the decontamination is recovered to the baseline, and the decontamination is discarded. At this time, their decontamination should take into account economic feasibility such as decontamination and cost of the target. Garment salts are generally the same as machine salts.

Since skin decontamination is a raw material, the radioactivity after decontamination is 0 (real cell can be less than the detection sensitivity of radioactivity, and medical decontamination may be necessary when decontamination is not possible.

As a method for removing such radioactive contamination, deposition, washing, polishing, etc. are generally performed, and methods using special apparatuses such as electrocontamination method, ultrasonic method, jet clean method, sand blast method, etc. There is also.

Conventionally, its use has been classified according to the object as a decontamination agent. Generally, commercially available soaps are used as they are or in addition to organic acids, caustic soda, acetone, carium bichromate, titanium oxide, sodium bicarbonate, and alginate. Oda bare etc. have been used alone or in combination.

Conventional chemicals used for the purpose of radioactive decontamination have a selective effect depending on the radioactively contaminated material, and have a defect that is not widely used. Therefore, the decontamination of radioactive contamination could not be completed, or the decontamination work would have to be repeated several times before it could be decontaminated below the allowable dose.

The inventors have conducted many experiments that the source of radioactive contamination is in the form of radioactive metal oxides or salts that are insoluble in water, and they are difficult to decontaminate by simple cleaning depending on their attachment state. I could only confirm through. In particular, radioactive contaminants that have a smooth surface, such as porous surfaces, woven scraps, or surfaces with extremely fine caves, have to be disposed of because decontamination is close to their impotence. The economic value is sufficiently taken into account in the economic value of the object and the decontamination cost.

The inventors of the present invention have a long time experiment with the radioactive decontamination agent which is completely different from the conventional decontamination agent and can almost decontaminate even objects having decontamination difficulty as described above. This is done. The inventors have found that radioactive isotopes such as cesium-37, strontium-90, cobalt-60, and the like are the metal oxides of radioisotopes, so that they are soluble in water and diluted as a large amount of water to allow maximum concentration (MPC). To release it.

In order to make the oxides of radioactive metals soluble in water, the inventors have repeatedly conducted many tests and used complexing agents to form oxides of these radioactive metals once they are soluble in water. Synthetic detergent is mixed and emulsified to dissolve from the surface of the object to dissolve in water. At this time, in order to enhance and further activate the function of such a complex salt-forming agent, it was found that it is more effective to add a suitable oxidizing agent and an organic solvent thereto. The complex salt forming agent, the oxidizing agent and the organic solvent used herein are selectively different depending on the radioactive contamination object and cannot be defined collectively.

In general, the radioactive decontamination agent of the present invention is 1-10% of the complex salt forming agent, 5-15% of the oxidizing agent 1-10% of the organic solvent, and 20-30% of the alkali salt of the surfactant, and the rest is water. Comparison of the radioactive decontamination agent of the present invention with the chromic acid mixture (chrom 酸 混 液) is as follows.

P-32, which is a radioactive phosphor, is particularly difficult to remove because it is likely to be harvested on the glass surface. The resultant was washed three times after immersing and cleaning the slide glass for 10 minutes in a 1mci / 100mI P-32 aqueous solution.

In other words, the radioactive decontamination agent of the present invention has a higher cleaning ability than the chromic acid mixture which is generally recognized to have the highest radioactive decontamination ability.

TABLE 1

It is also most suitable for decontamination of contaminated laboratory instruments such as Cs-137 and C-14 fatty acids attached to metal surfaces such as stainless steel, and washing of clothing is easily removed to the background level.

As mentioned above, the decontamination agent of the present invention mainly composed of a metal complex salt-forming agent and a mixture of an oxidizing agent, an organic solvent, a surfactant, and the like is much smaller than a conventional decontamination agent. When there is a need for radioactive decontamination, it is possible to decontaminate it immediately and effectively, which is very useful industrially and economically.

Claims (1)

A radioactive decontamination agent comprising 1-10% of metal complex salt forming agent, 1-10% of oxidizing agent, 5-15% of organic solvent and 20-30% of alkali salt of surfactant, and remaining water. .