JP2017021049A - Radioactive waste process, and method for removing radioactive contaminant - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a garment, a fabric, and a neutron absorption material for protection from a neutron in order to solve a problem in which there is no garment, fabric, neutron absorption material for protection from a neutron because of the strong transmissivity of the neutron, while there are garments for protection from an α-ray, a β-ray, a γ-ray, an χ-ray, and the like.SOLUTION: Boron and metal that absorb a neutron are melted and sprayed over fiber, fabric, or a material 55 for neutron absorption, with a sprayer 54 as a hot blast of fine particles 56 such that the boron and the metal are adhered thereto.SELECTED DRAWING: Figure 6

Description

Even if the nuclear power generation is protected by multiple safety devices, even if the cooling water cannot be replenished in some emergency, a neutron absorbing material is placed between one uranium fuel pellet and one uranium fuel pellet. Absorbing material melts around uranium fuel pellets, suppresses fission, suppresses heat of decay, prevents meltdown and meltthrough, and fast breeder reactor does not use liquid sodium but uses other materials that repel neutrons at high speed Uses liquid sodium that does not move the neutron rebounding material in the pipe for a long time, using a superheated steam or superheated high-temperature water as the cooling water on the outside. In order to effectively use and release high-level radioactive waste, the cooling water and the container containing liquid sodium should be at least a double structure. The method of removing the ability pollutants,

Even if nuclear power generation so far has been a safety device of multiple layers, if the cooling water is not replenished in some emergency situation, even if the neutron absorption control rod is injected, all nuclear fission does not stop immediately but decay heat The uranium fuel pellets are very hot and melt down, melt through and become a major accident. In the fast breeder reactor, neutrons are bounced and liquid sodium is used for cooling. Has a strong oxidizing power and reacts quickly with oxygen in water, resulting in a major accident. There is no effective use of high-level radioactive waste, and it is difficult to dispose of radioactive pollutants. I'm worried,

Even if the nuclear power generation is a multi-layered safety device and cooling water is not replenished in some emergency, a neutron absorbing material is placed between one uranium fuel pellet and one uranium fuel pellet. Melt and stick around uranium fuel pellets, stop all fission immediately and prevent so much decay heat so that meltdown and meltthrough do not occur and cause a major accident,
In a fast breeder reactor, a substance that repels neutrons at high speed is used instead of liquid sodium and a substance that repels other neutrons at high speed and water is used for cooling, and a substance that repels neutrons at high speed is placed in a container. Cooling water is placed on the outside to generate power using superheated steam or superheated high-temperature water. Substances that bounce neutrons at high speed are not moved in the pipe for a long time. If liquid sodium is used, a container containing liquid sodium and cooling is used. The radioactivity in the radioactive pollutant that uses a germanium semiconductor and a photovoltaic power generation device to generate power using a high-level radioactive waste that has a double structure or more between water and finely divided. Stick and remove with radioactive and easy-to-stick substances,
Neutron absorption control between assemblies of uranium fuel pellets even if neutron absorption control rods are injected without cooling water being replenished in some emergency due to nuclear power generation that is a multi-layered safety device As the rod enters, neutrons fly between the uranium fuel pellets in the uranium fuel pellet assembly, and fission continues to a small extent, and decay heat is also emitted, so the uranium fuel pellets are very hot. Therefore, in order to solve this problem, the neutron absorbing material with the neutron absorbing material placed between one uranium fuel pellet and one uranium fuel pellet is melted and covered around one uranium fuel pellet. Each uranium fuel pellet stops fission and heat of decay decays to the neutron-absorbing material. Resolve to melt down and Merutosuru - not to a large accident not happened, such as,
In fast breeder reactors, materials that repel other neutrons instead of liquid sodium are used for materials that repel neutrons, and water is used for cooling.
A substance that bounces neutrons at high speed is put in a container and cooling water is placed outside it to generate power using superheated steam or superheated high-temperature water.
If liquid sodium is used, make the ashes of the container containing liquid sodium and cooling water into a double structure or more.
High-level radioactive waste is made fine and sandwiched between germanium semiconductors and solar power generation elements from both ends to cause electricity.
Remove the radioactivity by sticking with the radioactive substance in the radioactive pollutant.

Even if an accident occurs in thermal power generation, etc., it will only damage the area of the thermal power plant, but this is not good, but if an accident occurs in nuclear power generation, the radioactivity is extensively polluted and it is very dangerous. Because people cannot live and suffer a lot of damage from various health and economic reasons, nuclear power generation must be 100% safe and its technology is established. One of the highly safe nuclear power generation technologies that do not operate nuclear power by the time the uranium fuel pellets become hot, the neutron-absorbing material placed between the uranium fuel pellets melts Covers the uranium fuel pellets one by one to prevent the uranium fuel pellets from getting too hot, while solving the emergency situation to melt down or melt Sur - it does not cause,
If an accident occurs even in a fast breeder reactor, it is contaminated by radioactivity over a wide area and humans can not live, so it suffers a lot of damage, so liquid sodium that repels neutrons at high speed is also used for cooling Instead of using a substance that repels other neutrons at high speed, water is used for cooling to make accidents less likely to occur, and a substance that repels neutrons at high speed is put in a container and cooled to the outside Place water to generate electricity with superheated steam or superheated high-temperature water,
Do not move the material that bounces neutrons at high speed in the pipe,
When liquid sodium is used, the space between the container containing liquid sodium and the cooling water should be at least a double structure.
Plutonium 239 is made from uranium 238 to increase energy,
Use of high-level radioactive waste for power generation adds to the energy of limited resources. By removing radioactivity from radioactive pollutants, radioactivity in farmland, schoolyards, mountain river seas and residential areas, etc. The pollutants are removed and you can live as usual

Best Mode for Practicing the Invention

High-concentration radioactive waste, high-concentration radioactive material, radioactive waste, and radioactive material from nuclear power generation, fast breeder reactors, etc. are crushed as shown in FIG. In the same way, power is generated by attaching a germanium semiconductor, other semiconductors, or solar power generation elements.
It can generate power until the radioactivity is weakened after the half-life of radioactivity has passed, and effectively use radioactive waste.
Doing in the facility where the radioactivity is cut off, putting safety first in various aspects,

High-concentration radioactive waste, high-concentration radioactive material, radioactive waste or radioactive material radiation has the effect of decomposing water into hydrogen and oxygen, and high-concentration radioactive waste, high-concentration radioactive material, radioactive waste, radioactive material, etc. High-concentration radioactive waste crushed by putting high-concentration radioactive waste or high-concentration radioactive material crushed as shown in 27 into 26 water in a container as shown in FIG. High-concentration radiation or radiation from materials or high-concentration radioactive materials decomposes water into oxygen and hydrogen, and hydrogen is lighter than oxygen, so it collects at the top of the container and can be recovered from 28 outlets. Since it is heavier than hydrogen, it collects under the hydrogen in the container and can be recovered from 29 outlets.
The oxygen and hydrogen can be used for automobile fuel cells, household fuel cells and various other things.

High-concentration radioactive waste or high-concentration radioactive material is pulverized and granulated, then put into water in a sealed container, and the water is decomposed into hydrogen and oxygen, and comes out as hydrogen and oxygen Use various devices,
Power is also generated by attaching germanium semiconductors, other semiconductors, or solar power generation elements as shown in 24 of FIG. 3 on both sides of the sealed container of the apparatus that causes the water to decompose into hydrogen and oxygen.
4 is a side view of FIG.
Power generation is also performed using the surplus radiation that decomposes water molecules into hydrogen and oxygen.

The Fukushima nuclear power plant accident has caused a great deal of damage, including radioactive soil contamination, water pollution, debris contamination, etc., and soil contamination such as farmland has radioactive cesium entering the clay layer. Since it continues to emit radioactivity in a state where it is difficult to produce cesium from clay by combining with oxygen, aluminum, etc. in clay, cesium is very bad for human health etc. As a method of removing cesium from the clay entering,
Contaminated soil such as farmland contains a lot of nutrients necessary for plants, so the soil such as farmland is put in a container and washed with water to wash out the nutrients and collect the nutrients.
Cesium is combined with oxygen and aluminum contained in the clay layer and is not discharged even if washed. The sealed container containing the soil containing cesium from which nutrients have been removed is covered with a heat insulating material as shown in 35 in FIG. If you put it in a closed container like 36 and inject fluorine (F) from 32 into the closed container and stir with a stirrer like 33, the cesium combined with oxygen, aluminum, etc. will be It becomes easier to bond with fluorine than oxygen or aluminum, and becomes cesium fluoride (CsF).
Increase the temperature of the soil containing cesium in a sealed container so that cesium and fluorine can be easily combined.
To recover cesium fluoride contained in the soil as cesium fluoride, cesium fluoride is easy to dissolve in water, so add water to the soil, dissolve cesium fluoride in water and recover from 34 Electrolyze the solution to decompose it into fluorine and cesium and collect it.
Ferrous ferrocyanide (bituminous), which has recovered radioactivity such as cesium from water contaminated with radioactivity such as cesium, contains a large amount of cesium, so the ferrocyanide is also put in a sealed container to create fluorine. Inject and collect in the same way,
Incorporating fluorine as described above to collect cesium by injecting fluorine or rubble containing only radioactive clay such as cesium.
If the above method is used, even if there is a little strontium or plutonium in the radioactive pollutant, it can be recovered in the same way as strontium fluoride or plutonium fluoride.
Strontium fluoride is easily soluble in hydrochloric acid, and plutonium fluoride is easily soluble in water, so both can be recovered.

The soil such as farmland contaminated by radioactivity is washed in a container to wash away the nutrients necessary for the plant and recover the nutrients.
The recovered soil after washing is put into a sealed container as shown in 36 in a sealed container covered with a heat insulating material as shown in 35 in FIG. 5, chlorine (Cl) is injected, and the soil is stirred with a device like 33. And the cesium combined with oxygen and aluminum in the clay layer of the soil is more easily combined with chlorine than oxygen and aluminum, and becomes cesium chloride (CsCl).
You can raise the temperature of the soil to make it easier to react,
Cesium chloride dissolves in water, so mix water with soil containing cesium chloride to dissolve cesium chloride, electrolyze the solution, decompose it into cesium and chlorine, and collect it.
Ferrous ferrocyanide (bituminous), which has recovered radioactivity such as cesium from water contaminated with radioactivity such as cesium, contains a large amount of cesium, so iron ferrocyanide is also placed in a sealed container and chlorinated. Inject and collect in the same way,
Incorporating chlorine as described above to recover cesium by injecting chlorine as described above, which is only solidified clay containing radioactivity such as cesium
Even if there is a little strontium or plutonium in radioactive pollutants when the above method is used, it can be recovered in the same way as strontium chloride (SrCl2) or plutonium chloride (PuCl3).
Strontium chloride and plutonium chloride are soluble in water and can be recovered by electrolysis.

As shown in Fig. 5, the soil such as farmland contaminated by radioactivity is washed in a container to recover the nutrients necessary for the plant, and the recovered soil is covered with a heat insulating material such as 35 in Fig. 5. In a closed container like 36, bromine (Br) is mixed with the soil in a liquid state, or it is vaporized by adding heat, and the soil is also heated, like 33 When the soil is stirred with a simple device, oxygen and aluminum in the clay layer are bound to cesium, which becomes easier to bond with bromine than oxygen and aluminum, and becomes cesium bromide (CsBr).
To make it easier to react, the soil temperature may be higher than the temperature at which bromine vaporizes.
Since cesium bromide is soluble in water, the solution containing cesium bromide contains water and electrolyses the solution containing cesium bromide to recover cesium and bromine.
Iron ferrocyanide (bituminous) that has recovered radioactivity such as cesium from the water quality contaminated with radioactivity contains a lot of cesium, so the ferrocyanide is covered with a heat insulating material such as 35 in FIG. In a closed container as shown in Fig. 5, the bromine can be mixed with the ferric ferrocyanide in the liquid state, or the bromine can be heated and vaporized and injected into the ferric ferrocyanide. In the same way, bromine vaporized with heat and iron ferrocyanide are mixed in a device such as 33, and cesium and bromine in iron ferrocyanide are reacted and combined to form cesium bromide. to recover,
Collect cesium using the above method for solidified clay containing radioactive materials such as cesium and debris of radioactive pollutants.
When the above method is used, some radioactive pollutants may contain a little strontium or plutonium, so it becomes strontium bromide (CrBr2) or plutonium bromide (PuBr3) and strontium bromide. Chuum and plutonium bromide are soluble in water and can be recovered by electrolysis in the same way.

Washing and collecting the nutrients necessary for plant growth by washing soil such as farmland contaminated with radioactivity in containers,
The soil is put in a sealed container covered with a heat insulating material as shown in 35 of FIG. 5 as shown in 36, and heat is added to iodine (I) to form a liquid and mixed with the soil. When it is vaporized and injected, and mixed with the soil, cesium bound to oxygen and aluminum in the clay layer becomes easier to bond with iodine than oxygen and aluminum, and becomes cesium iodide (CsI).
To increase the temperature of the soil to make it easier to react,
Since cesium iodide is soluble in water, water is mixed in the soil containing cesium iodide to dissolve cesium iodide, and the aqueous solution is electrolyzed to recover iodine and cesium.
Iron ferrocyanide (bitumen), which has recovered cesium from radioactively contaminated water, contains a large amount of cesium, and the iron ferrocyanide is contained in a sealed container covered with a heat insulating material as shown in FIG. It can be injected into a liquid by adding heat to iodine and mixed with iron ferrocyanide, or it is vaporized and injected and mixed with ferrocyanide porous iron ferrocyanide porous In the same way, cesium and iodine are combined to form an aqueous solution that is electrolyzed and recovered.
Collect hardened cesium-rich clay or radioactive debris as described above.
If the above method is used, some radioactive pollutants may be mixed with a little strontium or plutonium, which can be recovered as strontium iodide (SrI2) or plutonium iodide (PuI3).
Strontium iodide and plutonium iodide are soluble in water and can be recovered by electrolysis in an aqueous solution.

Although there are clothes that protect α rays, β rays, γ rays, χ rays, etc., neutrons are highly permeable and there are no clothes, cloths, or neutron absorbing materials to protect neutrons, so cadmium, gadolinium, The metal is melted and sprayed as a fine particle like 56 with a sprayer as shown in 54 of FIG. 6 to a fiber, cloth, or a substance to be absorbed by neutron, and attached to cadmium, gadolinium, or metal. ,

Boron or metal that absorbs neutrons is melted and sprayed onto the fiber, cloth, or material to be absorbed by neutron as shown in 55 by spraying hot air with a sprayer as shown in 54 of FIG. Attach,

Neutron-absorbing material or metal is vacuum-plated as shown in 79 of FIG. Plating,

Make neutron-absorbing materials, neutron-absorbing clothing, neutron-protecting clothing, various radiation-blocking products and neutron-blocking products with neutron-absorbing materials and metal-attached fibers and fabrics, neutron-absorbing material products and radiation protection products Make various radioactive blocking products and neutron absorption blocking products with the adhering substances,

Stretch cadmium or gadolinium with a hammer on a table to make it into a plate, thin plate, or foil, roll a cadmium or gadolinium with a roller to make a plate or thin plate or foil Wrap it around the fiber and make cadmium and gadolinium wrapped fibers to make radiation protective suits, neutron protective suits, various radiation blocking products and neutron absorption blocking products, cadmium and gadolinium stretched or thin plates, Affixing and wrapping foil around an object that wants to absorb and block neutrons to create various radioactivity blocking products and neutron absorption blocking products,
Paste thin cadmium foil or gadolinium foil on neutron-absorbing material or cloth.

A neutron-absorbing material or metal is melted and sprayed with hot air to form fine particles that adhere to the plate, member, or object that you want to block neutrons, and used as a variety of radioactive blocking products or neutron blocking products. To

Fluorine (F), chlorine (Cl), bromine () and iodine (I) are added to the soil containing cesium and strontium, and stirred to react with cesium, water is added and stirred to dissolve in water. In claim 74, the recovered cesium compound is recovered by electrolysis. Claim 74 rubs the recovered water and adds fluorine (F), chlorine (Cl), bromine (Br), and iodine (I) to the remaining soil. Stir and react with strontium, add water, stir and recover the strontium compound dissolved in water by electrolysis. Strontium fluoride is easily dissolved in hydrochloric acid, so dissolve in hydrochloric acid Recovered by decomposition,
Fluorine (F), chlorine (Cl), bromine (Br), and iodine (I) are added to the remaining water recovered from the cesium compound by electrolysis and reacted with strontium, which is electrolyzed to strontium. To collect,

In the recovery method by applying heat in the recovery method, the soil and water from which cesium was recovered are placed in a container surrounded by a heat insulating material, and heat is applied with an electric heater or the like to add fluorine (F), chlorine (Cl), or bromine. (Br) and iodine (I) are added again and stirred to react with strontium so that it reacts with strontium and is recovered. In the case of soil, the container is surrounded by a heat insulating material. Add the soil from which cesium was recovered, heat it with an electric heater, etc., add fluorine (F), chlorine (Cl), bromine (Br), and iodine (I) again and stir to make it easier to react with strontium. Water is added to the strontium compound that has reacted with strontium and dissolved in water, and strontium is recovered by electrolysis. Strontium fluoride is soluble in hydrochloric acid, so dissolve in hydrochloric acid and strontium by electrolysis. Collecting sesameum The remaining water recovered is put in a container surrounded by heat insulating material, heated with an electric heater, etc., and fluorine (F), chlorine (Cl), bromine (Br), and iodine (I) are added again. Stir and react with strontium and electrolyze it to recover strontium, etc.

Radioactive contaminated soil containing nutrients for growing plants contained in soil contaminated with cesium, strontium, etc. is treated with fluorine (F), chlorine (Cl), bromine (Br), iodine (I ) And agitate to form a cesium compound, add water, dissolve the cesium compound in water and electrolyze it to recover cesium. Do the same for substances and debris that contain radioactivity.

Soil collected from the cesium was rubbed with water, and fluorine (F), chlorine (Cl), bromine (Br), and iodine (I) were added to the soil after the cesium was collected and stirred to form a strontium compound. Strontium compound is dissolved in water and strontium is recovered by electrolysis. Strontium fluoride is easily dissolved in hydrochloric acid, so it is dissolved in hydrochloric acid and electrolyzed to recover strontium. Do the same for substances and debris containing

Fluorine (F), chlorine (Cl), bromine (Br) and iodine (I) are added to the water from which cesium has been recovered and stirred to form a strontium compound, which is electrolyzed to recover strontium.

Add fluorine (F), chlorine (Cl), bromine (Br), and iodine (I) to the contaminated water contaminated with cesium and strontium, and stir it to make a cesium compound. Dissolved in water and electrolyzed to recover cesium,

Fluorium (F), chlorine (Cl), bromine (Br), and iodine (I) are added to the water from which cesium has been collected and stirred to form a strontium compound, which is electrolyzed to recover strontium, etc. To

Put radioactive materials, debris, contaminated soil, contaminated water, etc. in a container surrounded by heat insulating material and warm them with an electric heater etc. in the radioactive material recovery method, and then fluorine (F), chlorine (Cl) or bromine (Br) and iodine (I) are likely to react with radioactive substances and become compounds easily.

As for the energy on the earth, the power generation that makes use of nature and the regenerative energy using the energy are very good, but there are places where there is not enough energy, and fossil fuels do not last forever, so nuclear power generation and fast breeder reactor power generation Will continue to be an important energy source in the future, but if an accident occurs, it will cause great damage to mankind, other animals and plants and the earth, and it will be very damaging for many years. Reactor power generation must be a number of safety devices that must be 100 percent safe with minimal accidents and use this patented technology to generate nuclear power. And fast breeder reactor power generation can solve the energy problem on the earth,

Radioactive materials and radioactive waste from nuclear power plants, fast breeder reactors, etc. are finely crushed into a plate shape as shown in 23 to form a germanium semiconductor or other semiconductor as shown in 24 on both sides of the plate shape. And generate power using solar power generation elements, Radiation such as high-concentration radioactive waste and high-concentration radioactive material can decompose water into hydrogen and oxygen, so that high-concentration radioactive waste and high-concentration radioactive material are crushed and water is contained like 26 Put the water in a clean container like 27, and decompose the water into hydrogen and oxygen. Since hydrogen is light, it is recovered from the outlet of 28 and oxygen is heavier than hydrogen, and it is recovered from the outlet of 29. The radiation shown in FIG. 36 decomposes water into hydrogen and oxygen. Both sides of the vessel are attached with germanium semiconductors, other semiconductors, and solar power generation elements as shown in 24, and are used for various purposes. Looking at the container which is generating electricity by attaching a power generation element to the container which decomposes water into hydrogen and oxygen by radiation of FIG. 37, Claims 59 to 63, wherein the radioactive soil is washed with water to remove the nutrients, and the radioactive soil, water pollution, debris contamination, etc. are sealed in a sealed container covered with a heat insulating material. Fluorine (F), chlorine (Cl), bromine (Br), and iodine (I) are injected and stirred at 33, and cesium, strontium, and plutonium bonded to oxygen, aluminum, etc. are fluorinated. Recovered by combining with chlorine, bromine or iodine, Melt the neutron absorbing material and spray fine particles like 56 of neutron absorbing material on the fiber, cloth, board and product like 55 with a nebulizer like 54 to produce a radioactive neutron protective clothing and a radioactive neutron protective product make, Using vacuum plating, a neutron absorbing material such as 77 is melted with an electric heating machine such as 78 and plated on a fiber, cloth, board or product such as 79, and a radioactive neutron protective suit or radioactive neutron Build protective products,

23 High-concentration radioactive waste, high-concentration radioactive material, radioactive waste and pulverized material obtained by pulverizing radioactive material and radioactive material 24 23 Semiconductors that generate electricity with radiation that is sandwiched between photovoltaic elements, etc.
Power is also generated by attaching to the side of the vessel that decomposes water into hydrogen and oxygen by radiation.
25 Since radioactive waste and radioactive materials break down water into hydrogen and oxygen, the radioactive waste and radioactive materials can be broken into hydrogen and oxygen by putting them in a container containing water without crushing or crushing them. Its container,
Water in 26 25 containers,
27 radioactive waste and radioactive materials in 25 containers,
28 In the 25 25 container, the water is decomposed into hydrogen and oxygen and the hydrogen is light, so the mouth to recover from the upper mouth,
29 25 In the 25 25 container, water is decomposed into hydrogen and oxygen, and oxygen is heavier than hydrogen.
In the 30 25 container, water is decomposed into hydrogen and oxygen so that light hydrogen and heavy oxygen can be easily separated,
3125 containers form the side walls that support the attachment of germanium semiconductors, etc. on both sides in order to generate electricity with the radioactivity that decomposes water into hydrogen and oxygen.
32 In order to decontaminate radioactively contaminated soil, substances, debris, etc., the nutrients contained in the radioactively contaminated soil are washed with water to recover the nutrients. In clay and the like, radioactive cesium and the like are combined with oxygen and aluminum, so that they do not flow with water, so put them in a sealed container and put fluorine (F), chlorine (Cl), bromine (Br) or iodine (I ), Stir, combine with cesium, dissolve in water and recover, and inject fluorine.
33 A machine that stirs radioactive contaminated soil or radioactive contaminants in 32 sealed containers.
34 A mouth that puts radioactive contaminated soil or radioactive contaminants into 32 32 sealed containers, injects fluorine, stirs, and dissolves and recovers the combination of fluorine and cesium with water,
In order to prevent the temperature from escaping when the temperature inside the sealed container is increased so that it is easy to combine with cesium by injecting fluorine, etc.
36 Radioactive contaminated soil and radioactive contaminants in 32 32 sealed containers
54 According to claims 64 and 65, a neutron absorbing material is melted and sprayed onto a material or product to be blocked from fibers, cloth, or neutrons by a sprayer to provide a radioactive protective suit, a neutron protective suit, a radioactive protective product, a neutron protective product, etc. Building, its sprayer,
55, 54, fibers, cloths, substances, products, etc.
56, 54, fine particles of molten neutron absorbing material sprayed at 54
77 Melting the neutron-absorbing material or metal of claim 66 with an electric heating heater, flying the particles in a vacuum and adhering them to fibers, cloths or materials to protect against radiation protection clothing, radiation protection products, neutron protection clothing, Producing neutron protection products, neutron absorbing materials and metals,
78 Electric heater as described in 77 77,
79 Fibers, cloths, substances and products to be attached by vacuum plating
80 Vacuum state in the vacuum plating container,
85 The soil and substances contaminated by radioactivity according to claims 1 and 2 are recovered by washing the nutrients with water and washing them with water, and the radioactivity such as cesium does not flow into the water by combining with acid and aluminum in the soil. Put the radioactive contaminated soil and radioactive contaminants into a sealed container, add fluorine etc., stir and combine fluorine and cesium etc.
86 Heating heater that heats the 85 contaminated soil and the container that collects radioactive pollutants to facilitate the combination of fluorine and cesium,

Claims (2)

Although there are clothes that protect α rays, β rays, γ rays, χ rays, etc., neutrons are highly permeable and there are no clothes, cloths, or neutron absorbing materials to protect neutrons, so cadmium, gadolinium, A device that melts metal and sprays it with hot air as fine particles with a sprayer onto fibers, cloth, or substances that you want to absorb neutrons to attach cadmium, gadolinium, or metal as one part.
A device that melts boron and metals that absorb neutrons and sprays them on fibers, fabrics, and substances that you want to absorb neutrons with hot air using a sprayer to attach boron and metals as one part.
One component is a device that melts the neutron absorbing material on the fiber or cloth or the material that you want to absorb neutrons by vacuum plating with the electric heating heater and then sprays the particles in the vacuum with particles and adheres to the plating. ,
A device in which the parts of the three devices described above are combined into one. With reference to claim 1 above,
What is made of a product made with the device described above,
One method is to make radioactive protective clothing, neutron protective clothing, various radiation blocking products, and neutron blocking products with fibers and cloths with neutron absorbing materials and metals attached as described above, neutron absorbing material products and radiation protection products. Way,
One way is to make various radioactive blocking products and neutron absorption blocking products with neutron absorbing substances attached to the material that you want to absorb neutrons,
Stretch cadmium or gadolinium with a hammer on a table to make a plate, thin plate, foil, roll a cadmium or gadolinium with a roller to make a plate, thin plate or foil One way is to wrap it around the fiber and build a radiological protective suit, neutron protective suit, various radioactivity blocking products and neutron absorption blocking products with cadmium and gadolinium wrapped fibers,
One way is to build a variety of radiation blocking products and neutron absorption blocking products by sticking or wrapping cadmium or gadolinium stretched plates or thin plates or foils around things that want to absorb and block neutrons,
One way is to paste thinly stretched cadmium foil or gadolinium foil on an object or cloth that wants to absorb neutrons,
A neutron-absorbing material or metal is melted and sprayed with hot air to form fine particles that adhere to the plate, member, or object that you want to block neutrons, and used as a variety of radioactive blocking products or neutron blocking products. One way to do it,
A manufacturing method in which the above-described six manufacturing methods are combined into one.

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