JP2015078836A - Radioactive decontamination device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a radioactive decontamination device with excellent radioactive decontamination efficiency, and a radioactive decontamination method.SOLUTION: A radioactive decontamination device 100 comprises: a raw water supply device 110 which supplies raw water; a hydrogen supply device 120 which generates a hydrogen gas; a hydrogen water producing device 130 which produces hydrogen water by dissolving the hydrogen gas with the raw water; a water sprinkling device 140 which sprays the produced hydrogen water with a water flow; and a power supply device 150. A radioactive decontamination method comprises the steps of: supplying a hydrogen gas (hydrogen supply step); producing hydrogen water by dissolving the hydrogen gas with raw water (hydrogen water producing step); and spraying a radioactive contaminant with the produced hydrogen water with a water flow (spraying step).

Description

  The present invention relates to a radioactive decontamination apparatus and a radioactive decontamination method.

  Removal of contamination by radioactive material is called decontamination and is distinguished from general decontamination. The principle of decontamination is to remove radioactive material from contaminated areas as much as possible without diffusing it into soil, water or air.

  When performing decontamination work, internal and external exposure due to radiation must be prevented as much as possible. Most of the nuclides as radioactive pollutants are cesium 134 and cesium 137. The half-life of cesium 134 is about 2 years, and cesium 137 is about 30 years, so the air dose rate does not drop easily.

  Most of cesium 137 becomes barium 137 due to β decay. Barium 137 decays with a short half-life of about 3 minutes. When entering the body, cesium 137 is distributed to the heart, brain, muscles, etc., and causes internal exposure by β rays. It also causes external exposure due to γ-ray emission.

  Conventionally, when decontaminating radioactive substances, the so-called scrubbing method of wiping with a brush or rag, high pressure water jet decontamination, or blast decontamination that sprays some blasting material instead of high pressure water is often used. Yes.

  Patent Document 1 includes 0.4 to 50% in total of radioactive contaminants as organic acids, one or more of malic acid, citric acid, formic acid, oxalic acid, glyceric acid, tartaric acid and glycolic acid. A method for decontaminating radioactive contaminants is described in which the solvent is water and the substrate is immersed in a radioactive contaminant decontamination solution and washed with water.

Patent Document 2 discloses an ultrasonic flowing water type radioactive decontamination that enhances the removal effect of radioactive substances by imparting ultrasonic waves to the water flow when decontaminating radioactive contamination by ejecting decontamination water from a nozzle. An apparatus is described. In the radioactive decontamination apparatus described in Patent Document 2, when decontamination water is ejected from a nozzle at a water pressure of 0.02 to 0.1 kg / cm ² G, the oscillation frequency is 100 to 800 kHz variable cycle, the unit cross-sectional area of the vibrator An attempt is made to enhance the effect of removing radioactive substances by applying an ultrasonic wave having a per unit output of 5 to 15 W / cm ² to the water flow.

JP 2009-52955 A JP-A-9-189799

The conventional radioactive decontamination method performs radioactive decontamination with water. Moreover, when using a pressure washer in radioactive decontamination, high pressure water is discharged. Moreover, it is solvent water about the decontamination method of the radioactive contaminant of patent document 1. Also for the radioactive decontamination apparatus described in Patent Document 2, ultrasonic waves are imparted to the water stream.
In any case, the conventional radioactivity decontamination method performs radioactivity decontamination with water.

The inventor of the present invention has focused on hydrogen-containing water (hereinafter referred to as hydrogen water) that is highly reducible and has an excellent cleansing effect and skin beautifying effect. Hydrogen water is said to have the effect of suppressing metal oxidation and food spoilage because it has high reducibility, and when it is diverted to drinking, it is attracting attention because it can be expected to improve various health disorders. Yes. The present inventor attempted an experiment that hydrogen water in which hydrogen gas is dissolved at a high concentration may be used as a cleaning solution for radioactive decontamination. As a result, when hydrogen water was used as a cleaning solution for radioactive decontamination, it was found that the decontamination efficiency was greatly increased, and the present invention was completed.
An object of the present invention is to provide a radioactivity decontamination apparatus and a radioactivity decontamination method excellent in radioactivity decontamination efficiency.

  The radioactivity decontamination apparatus according to the present invention includes a hydrogen supply means for supplying hydrogen gas, a hydrogen water production means for producing hydrogen water by dissolving the hydrogen gas in raw water, and the produced hydrogen water as a water stream. And spraying means for spraying.

  The radioactive decontamination method according to the present invention includes a hydrogen supply process for supplying hydrogen gas, a hydrogen water production process for producing hydrogen water by dissolving the hydrogen gas in raw water, and the produced hydrogen water as a water stream. And a spraying step for spraying the radioactive contaminant.

  ADVANTAGE OF THE INVENTION According to this invention, the radioactivity decontamination apparatus and radioactivity decontamination method excellent in the radioactivity decontamination efficiency can be provided. As a result, the efficiency of the radioactive decontamination work can be improved.

It is a block diagram of the radioactive decontamination apparatus which concerns on one embodiment of this invention. It is a figure explaining the implementation scheme of the radioactive decontamination apparatus which concerns on this Embodiment. It is a figure explaining the experiment outline of the radioactive decontamination apparatus concerning this Embodiment.

DESCRIPTION OF EMBODIMENTS Hereinafter, embodiments for carrying out the present invention will be described in detail with reference to the accompanying drawings.
(Embodiment)
FIG. 1 is a configuration diagram of a radioactivity decontamination apparatus according to an embodiment of the present invention.

  As shown in FIG. 1, the radioactive decontamination apparatus 100 includes a raw water supply apparatus 110, a hydrogen supply apparatus 120, a hydrogen water production apparatus 130, a watering apparatus 140, and a power supply apparatus 150. The radioactive decontamination apparatus 100 is mounted on the transport device 160 and transported to the radioactivity decontamination area.

  The raw water supply device 110 supplies raw water, which is purified water, to the hydrogen supply device 120. The raw material water supply device 110 is specifically a fire hydrant or a pump and a water storage tank for supplying water from a storage tank of a tank truck. As illustrated in FIG. 2A, when the transport device 160 that transports the radioactive decontamination device 100 is, for example, a truck 160 </ b> A, the raw water supply device 110 supplies tap water from the water tap 111. Further, as shown in FIG. 2B, when there is no water supply, water is supplied from the tank 112 of the tank truck.

  The hydrogen supply device 120 generates hydrogen gas for hydrogen-containing water. The hydrogen supply device 120 generates hydrogen gas by electrolyzing, for example, hydrogen gas from a high-purity hydrogen gas cylinder or water.

  The hydrogen water production apparatus 130 continuously produces hydrogen water by dissolving hydrogen gas in the raw water. The hydrogen water production apparatus 130 is a method of generating hydrogen water by directly dissolving hydrogen into a saturated state by a pressurization method in raw water or water nano-sized by a filter, or electrolyzing water using minerals. Any method for generating hydrogen water may be used. The hydrogen water production apparatus 130 produces hydrogen water in which 1.0 to 1.6 ppm of hydrogen molecules are dissolved, with a dissolved hydrogen content of 1.2 ppm at normal temperature and pressure as the center. Here, it is more preferable that saturated hydrogen water having a hydrogen concentration of 100% in which hydrogen molecules having a limit dissolved hydrogen amount of 1.6 ppm under normal temperature and normal pressure are dissolved can be produced. Note that hydrogen water does not directly affect pH because hydrogen molecules do not dissolve in water and become hydrogen ions.

  The watering device 140 spreads the produced hydrogen water as a water stream. Specifically, the watering device 140 is a tank that stores hydrogen water, a pump that discharges hydrogen water from the tank, a hose, or the like. Further, the watering device 140 may include a pressure washer, and may be an embodiment in which hydrogen water is discharged at a high pressure.

  The power supply device 150 supplies a predetermined power supply voltage to the hydrogen supply device 120, the hydrogen water production device 130, and the watering device 140. Specifically, the power supply device 150 is a generator, a rectifier, a stabilized power supply circuit, or the like.

  The carrying device 160 is a truck that carries the radioactive decontamination device 100 and carries it to the radioactive decontamination area. Any system that can carry the radioactive decontamination apparatus 100 may be used.

  In this embodiment, an example in which the hydrogen supply device 120 and the hydrogen water production device 130 are configured as separate devices has been described. However, the hydrogen supply device 120 and the hydrogen water production device 130 are configured as a hydrogen water production device. You may be comprised integrally. In the case of this configuration, the hydrogen water production apparatus generates hydrogen gas, dissolves the hydrogen gas generated in the raw water, and produces hydrogen water.

  In addition, the radioactive decontamination method includes a hydrogen supply process for supplying hydrogen gas, a hydrogen water production process for producing hydrogen water by dissolving the hydrogen gas in raw water, and a radioactive contamination using the produced hydrogen water as a water stream. A spraying step of spraying on the object.

Next, an experimental example using hydrogen water as a cleaning liquid will be described.
The outline of the experiment is as follows.
FIG. 3 is a diagram for explaining the outline of the experiment.
The radioactively contaminated specimen (here, soil) is washed three times and dried naturally using tap water (Test 1) and hydrogen water (Test 2) as cleaning solutions, Measure radioactivity after washing. The result of measuring the radiation dose at each time point after cleaning with a radioactivity meter is compared between tap water and hydrogen water to evaluate whether there is a clear significant difference.
The test results are as follows.

[Test method]
(1) Specimen: Sand at Kasai Rinkai Park (Soil volume 340 g)
(2) Hydrogen water: Amount of hydrogen water 100 ml Hydrogen concentration 1.2 ppm
(3) Test method: Washing by applying water to the sand in the filter paper and drying the sand.
(4) Cleaning effect confirmation method: measurement of radioactivity of each nuclide emitted from the specimen.

[Test 1 (hydrogen water)]
Amount of soil 340 g Amount of hydrogen water 100 ml Hydrogen concentration 1.2 ppm
April 11, 2012 Specimen B: Before hydrogen water treatment April 17, 2012 Specimen B: After hydrogen water treatment

[Test 2: Comparative example (tap water)]
Amount of soil 340 g Amount of tap water 100 ml
April 9, 2012 Specimen A: Before tap water treatment April 11, 2012 Specimen A: After tap water treatment

Test 1 (hydrogen water) and test 2 (tap water) will be compared and described.
First, a test result is confirmed about test 2 (tap water).
Tables 1 to 4 show analysis result evaluation documents in which the radioactivity of each nuclide emitted from the specimen is measured.
The analysis is entrusted to the NAL nuclide analysis laboratory, and the analysis method depends on “nuclide analysis method by gamma-ray spectrometry using a germanium semiconductor detector”.
Table 1 shows the analysis results of specimen B before washing with tap water.

When the radioactivity of each nuclide emitted from the specimen A before washing was measured, radioactive iodine (iodine 131): ND <20 [Bq / kg], radioactive cesium (cesium 134): 301 [Bq / kg], radioactive cesium ( Cesium 137): 443 [Bq / kg], radiocesium total value (Cs134, Cs137): 740 [Bq / kg].
Table 2 shows the analysis results of Sample B after washing with tap water.

When the specimen A was washed with tap water and the radioactivity of each nuclide emitted from the specimen A after natural drying was measured, radioactive iodine (iodine 131): ND <20 [Bq / kg], radioactive cesium (cesium 134) ): 294 [Bq / kg], radioactive cesium (cesium 137): 431 [Bq / kg], and radioactive cesium total value (Cs134, Cs137): 730 [Bq / kg].
From this result, it was confirmed that cleaning with tap water has a certain cleaning effect.

Next, a test result is confirmed about test 1 (hydrogen water).
Table 3 shows the analysis results of specimen B before washing with hydrogen water.

When the radioactivity of each nuclide emitted from the specimen B before washing was measured, radioactive iodine (iodine 131): ND <20 [Bq / kg], radioactive cesium (cesium 134): 251 [Bq / kg], radioactive cesium ( Cesium 137): 364 [Bq / kg], radioactive cesium total value (Cs134, Cs137): 620 [Bq / kg].
Table 4 shows the analysis results of specimen B after washing with hydrogen water.

The specimen B was washed with hydrogen water and the radioactivity of each nuclide emitted from the specimen B after natural drying was measured. Radioactive iodine (iodine 131): ND <20 [Bq / kg], radioactive cesium (cesium 134) ): 241 [Bq / kg], radioactive cesium (cesium 137): 342 [Bq / kg], and radioactive cesium combined value (Cs134, Cs137): 580 [Bq / kg].
From this result, it was confirmed that the cleaning with hydrogen water has a high cleaning ability.

  When comparing the radioactivity measurement results of each nuclide emitted from the specimen of test 1 (hydrogen water) and the radioactivity measurement results of each nuclide emitted from the specimen of test 2 (tap water), particularly when focusing on cesium 134 and 137 It has been shown that cleaning with hydrogen water has a higher cleaning capacity than cleaning with tap water. Significant effect by using hydrogen water as a cleaning solution for radioactive decontamination (Difference in test 1 total radioactive cesium value: 40 [Bq / kg], Test 2 difference in total radioactive cesium value: 10 [Bq / kg]) It was confirmed by experiment that there is.

Conventionally, it is said that improvement of health problems can be expected by drinking hydrogen water having a high reducing ability, and attempts have been made to cause patients with radioactive contamination to drink hydrogen water. However, there is no idea to use hydrogen water as a cleaning solution for radioactive decontamination, and this is a novel finding that has been revealed for the first time by experiments of the present inventors. The principle that cleaning with hydrogen water has a higher cleaning ability than cleaning with tap water is unclear. The inventor believes that hydrogen water promotes β decay. Although the principle of the effect is unknown, experiments have confirmed that cleaning with hydrogen water has a higher cleaning capacity than cleaning with tap water. The radioactivity decontamination apparatus 100 is an apparatus and a method that are newly created based on such knowledge.
In addition, this invention is not limited to the said embodiment, In the range which does not deviate from the meaning of this invention, such as fixing a radioactive decontamination apparatus, it can implement in various deformation | transformation.

  The radioactivity decontamination apparatus and radioactivity decontamination method according to the present invention is a radioactivity decontamination project with excellent radioactivity decontamination efficiency that moves to a radioactivity decontamination area and decontaminates radioactive contaminants It is preferably used.

DESCRIPTION OF SYMBOLS 100 Radioactive decontamination apparatus 110 Raw material water supply apparatus 111 Water faucet 112 Tank tanker tank 120 Hydrogen supply apparatus 130 Hydrogen water production apparatus 140 Watering apparatus 150 Power supply apparatus 160 Conveyance apparatus

The present invention relates to a radioactive decontamination apparatus .

The inventor of the present invention has focused on hydrogen-containing water (hereinafter referred to as hydrogen water) that is highly reducible and has an excellent cleansing effect and skin beautifying effect. Hydrogen water is said to have the effect of suppressing metal oxidation and food spoilage because it has high reducibility, and when it is diverted to drinking, it is attracting attention because it can be expected to improve various health disorders. Yes. The present inventor attempted an experiment that hydrogen water in which hydrogen gas is dissolved at a high concentration may be used as a cleaning solution for radioactive decontamination. As a result, when hydrogen water was used as a cleaning solution for radioactive decontamination, it was found that the decontamination efficiency was greatly increased, and the present invention was completed.
An object of the present invention is to provide a radioactivity decontamination apparatus having excellent radioactivity decontamination efficiency.

The radioactive decontamination apparatus according to the present invention comprises a hydrogen supply means for supplying hydrogen gas, the hydrogen gas dissolved in raw water, and dissolved hydrogen molecules having a dissolved hydrogen content of 1.2 to 1.6 ppm under normal temperature and normal pressure. It is characterized by comprising hydrogen water producing means for producing hydrogen water and spraying means for spreading the produced hydrogen water as a water stream.

ADVANTAGE OF THE INVENTION According to this invention, the radioactivity decontamination apparatus excellent in the radioactivity decontamination efficiency can be provided. As a result, the efficiency of the radioactive decontamination work can be improved.

Conventionally, it is said that improvement of health problems can be expected by drinking hydrogen water having a high reducing ability, and attempts have been made to cause patients with radioactive contamination to drink hydrogen water. However, there is no idea to use hydrogen water as a cleaning solution for radioactive decontamination, and this is a novel finding that has been revealed for the first time by experiments of the present inventors. The principle that cleaning with hydrogen water has a higher cleaning ability than cleaning with tap water is unclear. The inventor believes that hydrogen water promotes β decay. Although the principle of the effect is unknown, experiments have confirmed that cleaning with hydrogen water has a higher cleaning capacity than cleaning with tap water. The radioactivity decontamination apparatus 100 is a newly created apparatus based on such knowledge.
In addition, this invention is not limited to the said embodiment, In the range which does not deviate from the meaning of this invention, such as fixing a radioactive decontamination apparatus, it can implement in various deformation | transformation.

The radioactivity decontamination apparatus according to the present invention is suitably used for a radioactivity decontamination project that moves to a radioactivity decontamination area and performs decontamination of radioactive contaminants and is excellent in radioactivity decontamination efficiency.

Claims (5)

Hydrogen supply means for supplying hydrogen gas;
A hydrogen water production means for producing hydrogen water by dissolving the hydrogen gas in raw material water;
Spraying means for spraying the produced hydrogen water in a water stream;
A radioactive decontamination apparatus comprising:   2. The radioactive decontamination apparatus according to claim 1, wherein the hydrogen water producing means produces hydrogen water in which hydrogen molecules having a dissolved hydrogen amount of 1.0 to 1.6 ppm dissolved under normal temperature and normal pressure.   The radioactive decontamination apparatus according to claim 1, wherein the spraying means discharges hydrogen water at a high pressure.   The radioactivity decontamination apparatus according to claim 1, further comprising transport means for transporting the spraying means to a radioactivity decontamination area. A hydrogen supply process for supplying hydrogen gas;
A hydrogen water production process for producing hydrogen water by dissolving the hydrogen gas in raw water,
A spraying process in which the produced hydrogen water is sprinkled into a radioactive contaminant in a water stream;
A radioactive decontamination method comprising: