A system that utilizes radioactive soil, water, and spent nuclear fuel.

By repurposing spent nuclear fuel and contaminated materials from the Fukushima accident, the invention addresses the disposal of nuclear waste, treats contaminated soil and water, and enables autonomous driving and new medical applications, while reducing reliance on rare earth elements.

JP2026097802APending Publication Date: 2026-06-16中松义郎

Patent Information

Authority / Receiving Office
JP · JP
Patent Type
Applications
Current Assignee / Owner
中松义郎
Filing Date
2026-01-29
Publication Date
2026-06-16

AI Technical Summary

Technical Problem

The disposal of spent nuclear fuel from nuclear power plants, treatment of contaminated soil and water from the Fukushima nuclear accident, and the implementation of high-level automatic collision avoidance and autonomous driving systems in automobiles and ships are unresolved, with no effective solutions currently available.

Method used

Utilizing spent nuclear fuel, contaminated soil, and water from the Fukushima nuclear accident to develop innovative applications such as lane markings, autonomous driving systems, medical treatments, anti-counterfeiting measures, and new battery technologies that do not rely on rare earth elements.

Benefits of technology

Enables the safe disposal of nuclear waste, treats contaminated materials, facilitates autonomous driving without map information, and provides new medical and industrial applications, addressing major national problems and reducing reliance on rare earth elements.

✦ Generated by Eureka AI based on patent content.

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Abstract

Radioactive materials that are difficult to dispose of will be used for autonomous driving and other applications. [Solution] A material is created by mixing radioactive materials containing a small amount of tritium-treated water or cesium-contaminated soil from nuclear power generation or the Fukushima nuclear power plant accident, with a radiation dose of 100 Bq / kg or less (between 8000 Bq / kg), so as to result in a radiation dose of 0.05 to 0.46 μSv / hr, which does not cause health damage to the body. This material is applied to systems and devices such as lithium-ion batteries, liquid crystals or motors, medical devices, nuclear batteries or betavoltaic batteries.
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Description

Technical Field

[0001] Products and methods related to the utilization of radioactive substances that have no current usage or are difficult to handle.

Background Art

[0002] There is a proposal to bury the spent nuclear fuel of nuclear power plants 300 meters underground for 100,000 years, but this has not been determined. For this reason, Mr. Kono is opposed to nuclear power plants, but it is in the direction of restarting nuclear power plants for carbon neutrality. Also, due to the Fukushima nuclear power plant accident, the surface soil of the land contaminated with radioactivity has been scraped off and placed in a temporary storage site, but the subsequent storage site has not been found, so it has been left there and is in trouble. In addition, in the Fukushima Daiichi Nuclear Power Plant accident, groundwater and the like that flowed into the reactor building mixed with the water used to cool the melted nuclear fuel, generating contaminated water. Even now, about 150 tons are generated per day. TEPCO is treating it with ALPS, but TEPCO is treating the radioactive contaminated spring water, yet there is no more room for the tanks of tritium radioactive contaminated water (1,236 tons in September 2020), and no more tanks can be added, so it has to be diluted and discharged into the sea, but fishermen are opposed to this. In addition to this, there is water from which strontium and the like that have not passed through ALPS have been removed. In August 2013, 300 tons of contaminated water leaked from the tank. On the other hand, separately, there is a problem that the automatic driving of automobiles and ships is not yet complete.

Summary of the Invention

Problems to be Solved by the Invention

[0003] 1. Method for treating spent nuclear power plant fuel 2. Treatment of exposed soil due to the Fukushima nuclear power plant accident 3. Treatment methods for treated and untreated contaminated water due to the Fukushima nuclear power plant accident. 4. Automatic collision prevention and Level 5 automatic driving systems for automobiles and ships. 5. A system that enables a vehicle or ship to drive automatically even when there is no surrounding map or nautical chart information and the situation changes. can drive automatically. 6. New medical applications 7. New warning system 8. New ways to make needles and markings stand out. 9. New anti-counterfeiting bills 10. New battery 11. New LCD 12. New monitors and other magnetic products [Means for solving the problem]

[0004] To solve the above problems, this invention utilizes spent nuclear fuel from nuclear power plants, contaminated soil, and contaminated water to address these issues. [Effects of the Invention]

[0005] 1. Methods for disposing of spent nuclear fuel 2. Disposal of contaminated soil from the Fukushima nuclear accident 3. Treatment methods for treated and untreated contaminated water resulting from the Fukushima nuclear accident. 4. Automatic collision avoidance and Level 5 autonomous driving systems for cars and ships. 5. Even if there is no surrounding map or nautical chart information and the situation changes, cars and ships cannot operate autonomously. A system that can be used. 6. New medical applications 7. New warning system 8. New ways to make needles and markings stand out. 9. New anti-counterfeiting bills 10. New battery 11. New LCD 12. Magnetic products such as lithium-ion batteries and motors can be manufactured freely, in large quantities, and inexpensively without relying on rare earth elements from China or Myanmar. There is no underground storage facility for spent nuclear fuel from nuclear power plants (number 1), and even if it were stored underground, it would take 1 billion years to process. The Fukushima nuclear accident has left us with no final destination for the contaminated soil, and there is no longer any place to install tanks for thorium-contaminated water that cannot be completely treated. This invention solves the problems for which no solution has been found, and it also makes it possible to utilize the soil and water, and to utilize spent nuclear fuel from nuclear power plants that has not been disposed of. This means that construction of nuclear power plants with CO2 restrictions can be resumed, and this invention will have a great national effect by solving a major unresolved national problem in our country.

[0006] On the other hand, a truly perfect autonomous driving system has yet to be achieved globally. Even if it were to be perfected, current methods would be perpetually imperfect because map information is constantly changing. There are many obstacles, and progress has been slow, with no system yet achieving perfection. However, this invention will enable autonomous driving even if map information changes. Furthermore, this invention has the potential to be used in advanced medical care and new indicators for preventing counterfeit money, making it a national invention that can solve major national problems all at once. [Brief explanation of the drawing]

[0007] [Figure 1] An explanatory diagram of the first embodiment of the present invention, which is installed on a road. [Figure 2] A diagram of the second embodiment of the present invention, which is installed in a convex shape on the road. [Figure 3] A diagram of the third embodiment of the present invention, which is installed flat on a road. [Figure 4] A diagram of the fourth embodiment of the present invention, installed on a branching road. [Figure 5] A diagram of the fifth embodiment of the present invention, which is installed in a spot-like manner on a branching road. [Figure 6] A cross-sectional view of the sixth embodiment of the present invention of an autonomous vehicle equipped with one set of sensors. [Figure 7] A cross-sectional view of the seventh embodiment of the present invention of an autonomous vehicle equipped with two sets of sensors. [Figure 8] Figure 7 is a top view showing the eighth embodiment of the present invention. [Figure 9] A side view of the ninth embodiment of the present invention. [Figure 10] A side view of the tenth embodiment of the present invention. [Figure 11] Plan view of the functions of the motor vehicle according to the 10th embodiment of the present invention. [Figure 12] Plan view of the guardrail according to the 11th embodiment of the present invention. [Figure 13] Explanatory drawing of the 12th embodiment of the present invention of the cable provided on the seabed for implementing the present invention and the autonomous ship. [Figure 14] Cross-sectional explanatory drawing seen from a right angle direction of FIG. 13. [Figure 15] Top view of the 12th embodiment of the present invention for preventing running aground in shallow waters such as bays and ports. [Figure 16] The 13th and 14th embodiments of the present invention used for medical purposes. [Figure 17] The 15th embodiment of the present invention used for medical purposes. [Figure 18] The 17th embodiment of the present invention used for a meter. [Figure 19] The 18th embodiment of the present invention used for warnings such as warning tapes. [Figure 20] The 19th embodiment of the present invention used for preventing counterfeiting of banknotes. [Figure 21] The 20th embodiment of the present invention used for enhancing sperm. [Figure 22] The 21st embodiment of the present invention used for an atomic battery. [Figure 23] The 21st embodiment of the present invention used for a beta voltaic battery. [Figure 24] The 22nd embodiment of the present invention showing the flow when the present invention is used in place of rare metals for lithium ion batteries, liquid crystals, and motors.

Modes for Carrying Out the Invention

[0008] Embodiments of the present invention will be described below with reference to the drawings.

[0009] The disposal of spent nuclear fuel from nuclear power plants and the aftermath of the Fukushima nuclear accident remain unresolved. While the soil contaminated with radiation from the Fukushima ground is being stored at an intermediate processing plant after being excavated from the surface, the final disposal site remains unresolved, leaving the radioactive soil without a destination.

[0010] Furthermore, even after treating the groundwater from the nuclear power plant with radiation, thorium cannot be removed. This contaminated water is currently stored in tanks, but there is no more room to store any more tanks, so the plan is to release it into the sea, but fishermen are opposing this, citing concerns about reputational damage and impacts on their fishing industry.

[0011] On a completely separate issue, the implementation of high-level automatic collision avoidance and autonomous driving in next-generation automobiles and ships is stalled due to a lack of progress. Furthermore, even if it is achieved, map information is constantly changing and must be modified, making it unstable. This invention is a crucial one that will solve these major national problems all at once.

[0012] [First Embodiment] Figure 1 shows a first example of an embodiment of the present invention, in which the contaminated soil or spent fuel 1, either as is or crushed, is mixed with an adhesive 11 and, if necessary, a dye (e.g., yellow) 12, etc. 13 is put into a road diagonal marking machine 2, and discharged from its outlet 3 to draw lane lines 10 on the road 4. Spots 101 may be used instead of lines.

[0013] [Second Embodiment] Figure 2 is a cross-sectional view of the road in this state. Lane 13, made of contaminated soil, is higher than road 4.

[0014] [Third Embodiment] As shown in Figure 3, a trench 41 is dug in the road 4, and the aforementioned 13 is embedded therein as lane material. This is a third embodiment of the present invention in which a trench or hole is dug in the road, the contaminated soil 13 is embedded therein, and the ground surface is made flat. In Figures 2 and 3, the amount of radiation is small and therefore harmless to the human body.

[0015] [Fourth Embodiment] Figure 4 shows an example in which contaminated soil 13 is placed linearly in the center of roads 4 and 4'.

[0016] [Fifth Embodiment] Figure 5 shows contaminated soil 13 placed in a dot pattern in the center of roads 4 and 4'.

[0017] [Sixth Embodiment] Figure 6 shows a sixth embodiment of the present invention for a vehicle using this lane, in which a radiation shielding material 7 is provided on the bottom of the vehicle body 20 to prevent exposure to radiation, and a radiation sensing sensor 6 is provided below it. Data from the sensor 6 is analyzed by a data analyzer 8 and transmitted to a driving mechanism 9, which automatically drives the vehicle so that it follows the direction of the lane 13. Since these mechanisms are publicly known, details are omitted.

[0018] [Seventh Embodiment] Figure 7 shows an embodiment of the present invention's autonomous driving vehicle, in which sensors 6L and 6R are installed on the left and right sides, and the vehicle automatically drives on the road so that each sensor receives an equal amount of radiation input. A radiation shielding plate 7 is installed inside the vehicle body to prevent radiation from entering the vehicle.

[0019] [Eighth Embodiment] Figure 8 is a top view of Figure 7, showing a line 13 of contaminated soil running between the tires 201, and the car steers in response to the winding road. The data analyzer 8 in Figure 6 ensures that the left sensor 6L and the right sensor 6R in Figure 7 always receive the same input, which is then transmitted to the driving mechanism 9 in Figure 6, changing the direction of the car 20. Front and rear collisions can be prevented by radar or by the present invention described below.

[0020] [Ninth Embodiment] Figure 9 shows the ninth embodiment of the present invention. This embodiment of the present invention has sensors at the front, rear, and bottom of the vehicle body 20, as well as sensors at the front and rear, and a dispatcher. A lower sensor 6 and a sensitivity-enhancing cone 60 are provided at the bottom of the vehicle body, a forward sensor 6F with a funnel-shaped radiation assembly 60F is provided at the front of the vehicle body 20, and a rear sensor 6R with the same funnel shape is provided. Furthermore, the forward-facing radiation emitter 10F packs the radiation body 13 into a radiation concentration cone similar to that of 60F, and a similar one is also placed at the rear of the vehicle 20. This is 10R. When two such vehicles approach each other as shown in Figure 9, radiation from 10F emitted from the front of the rear vehicle 20 reacts to 6R of the front vehicle 20', automatically issuing a warning of approach (not shown as it is a publicly known mechanism). 30 The dictation 13 of the front vehicle is transmitted to the sensor 6F of the rear vehicle via the sensitivity-enhancing cone 60F, and the sensor 6F of the rear vehicle transmits a signal to the brake mechanism of the rear vehicle, causing the rear vehicle 20 to stop or decelerate. Meanwhile, the car 20' in front transmits a signal from the rear sensor 6R to its motor (this is publicly known, so I will not elaborate further) and accelerates car 20'.

[0021] As described above, car 20 and car 20' will automatically avoid approaching or colliding with each other. In the case of other objects such as walls, the radiation emitted from 10F will bounce off the wall or other object and be completely cured at 6F, preventing a collision. Furthermore, even in the case of ordinary cars that do not have this device, collisions will not occur as described above. 6 is a ground sensor having a cone 60 that concentrates radiation, which guides the direction of the vehicle 20 according to the radiation 13 drawn on the road, allowing it to automatically proceed in the correct direction. This invention makes it possible to achieve Level 4 autonomous driving, which had not been possible with conventional methods.

[0022] [Tenth Embodiment] Figure 10 is a plan view of the tenth embodiment of the present invention, in which the lower sensor 6 is provided at the front and rear of the vehicle. Radiation from the ground is provided at the front and rear of the vehicle 20, which is equipped with sensor-sensitizing cones 60. This allows the vehicle to receive the ground radiation 13 at the front and rear of the vehicle, automatically controlling the direction of travel of the vehicle 20.

[0023] In front of the vehicle 20 are a forward sensor 6F and a sensitivity cone 60F, and inside the sensitivity cone 60F are radioactive soil with a hole 11F in the center and adhesive 13F. Similar components, 60R, 6R, and 13R, are installed at the rear of vehicle 20. This automatically prevents collisions or rear-end collisions with the vehicle in front or behind.

[0024] In addition, 6C, 60C, and 13C are similarly provided at the four corners of the vehicle 20 (Figure 11). This prevents collisions from four diagonal directions.

[0025] [Embodiment No. 11] As shown in Figure 12, by coating the guardrail 147 with the radioactive material 13 of this invention and attaching it to it, radioactivity is released, and the vehicle 20 has a sensing function (for example, 60C in Figure 11), so that the vehicle 20 can operate safely without hitting the guardrail 147, even on curves or rough roads.

[0026] [Twelfth Embodiment] Figure 13 illustrates an example of the application of the present invention to a ship in the twelfth embodiment of the present invention. A pipe 51 is laid underground 42, and treated contaminated water 5 from the Fukushima nuclear accident and other sources is filled into this pipe 51. The plan is to release contaminated water from the Fukushima nuclear power plant into the sea. Fishermen are opposing this, fearing reputational damage, and are struggling with how to dispose of it. A vessel 90 floating in water 30 is equipped with a front sensor 6F and a rear sensor 6R on its hull. In addition, each sensor is equipped with a sensitivity amplifier such as a sensitivity-enhancing cone 60F, 60R, etc.

[0027] Figure 14 is a cross-section of Figure 13, viewed from the front or rear of the ship 90. Cone-type sensitivity amplifiers 60L and 60R are installed on the left and right sides of the ship 90. A left sensor 6L and a right sensor 6R are installed. A pipeline 51 is laid underground 42, and contaminated water is contained within it.

[0028] Figure 15 illustrates the practical applications of laying the pipeline 51 of the present invention. In Figure 15, the area near port 43 has shallow waters, posing a risk of ships running aground. Recently, a NYK Line tanker ran aground abroad due to a mistake by a foreign captain, causing a massive oil spill and significant damage. This invention automatically prevents accidents even in the event of captain negligence, avoids shallow waters, provides the pipeline 51 of the invention, and corrects the direction of the forward left sensor 6FL installed on the ship (theoretically, by guiding the ship to a safe sea route that avoids running aground on shallow waters as explained in Figures 6 and 7, pilotage becomes unnecessary, thus ensuring safety while reducing costs).

[0029] [13th Embodiment] Figure 16 shows a thirteenth embodiment of the present invention, which is an application of the present invention in PET-CT. PET-CT can simultaneously examine cancer metastasis throughout the entire body. PET-CT stands for POSITRON EMISSION TOMOGRAPHY, and it is a nuclear medicine examination that uses radioactive drugs. First, as shown in Figure 16(A), the test agent (18F-FDG) 100 is inserted into the contaminated soil or contaminated water 1 to make it radioactive. Next, the radioactive agent according to the present invention is injected into the vein 102 of the patient 103 using a syringe 101 as shown in Figure (B), and the patient is kept at rest for 1 to 2 hours until the drug is distributed throughout the body. The inspection data 104 is displayed 105, but because radiation is used, the inspector observes it from a distance using a monitor 106. The inventor developed cancer and carried out this 13th embodiment on his own body.

[0030] [14th Embodiment] Figure 16 also shows a fourteenth embodiment of the present invention. This is a nuclear medicine bone scintigraphy. This involves taking photographs of the entire body's bones to check for cancer metastasis to the bones. In this case, as shown in Figure 16(A), the 14th embodiment of the present invention involves making a drug that accumulates in bone tissue radioactive using the method of the present invention, creating a radiopharmaceutical, injecting it into the body, and capturing the radiation emitted therefrom with a special camera to observe the condition of the bones throughout the body, particularly bone metastases caused by cancer (this part is publicly known and will not be described in detail).

[0031] [15th Embodiment] Figure 17 shows a 15th embodiment of the present invention, in which the present invention is used in brachytherapy. In Figure 17, (A) Figure 1 represents contaminated soil, contaminated water, debris, and spent fuel from the Fukushima nuclear power plant accident, which are placed in capsule 107 in Figure (B) and connected by chain 108.

[0032] Instead of placing 1 into 107, as shown in Figure 17 (A), a titanium piece 100-1 may be placed inside 1 to make it radioactive, and these can then be connected by a chain 108.

[0033] Next, as shown in Figure (C), the capsule 107 or titanium 100-1 is placed in a syringe 101, and then, as shown in Figure (D), 107 or 100-1 is injected and implanted near the cancer that has developed in the body 103, for example, around the prostate or ducts. The radiation emitted from 107 or 100-1 attacks and destroys the cancer. The inventor developed ductal carcinoma and implemented the present invention.

[0034] [16th Embodiment] Furthermore, by combining this with the present invention of a cancer treatment method separately invented by the present inventor (Japanese Patent No. 6362639, US Patent Nos. 11000408, 11291583), it becomes possible to utilize the radioactive soil, water, debris, and spent nuclear fuel from the Fukushima nuclear accident. Although not shown in the diagrams, the radioactive material of the present invention can be applied to various medical treatments and therapeutic devices, such as by attaching it to the tip of an endoscope for radiation therapy or by mixing it with a light-emitting material for illumination. All of these applications are within the scope of the present invention.

[0035] [17th Embodiment] Figure 18 shows the 17th embodiment of the present invention, which is used in a meter. Figure (A) shows a meter with a warning mark 110 where the needle 109 has swung to its limit, and a luminous marker 110 made of the radioactive material of the present invention is provided. Figure (B) shows an example in which the left and right limits 111 of the pointer 109, which swings from side to side, are made using the radioactive material of the present invention. Embodiments in which a mixture of the radioactive material of the present invention and a luminescent paint is applied include those in which this mixture is applied to the hands or markings of a clock.

[0036] [18th Implementation] Figure 19 shows the 18th embodiment of the present invention, which is a warning product. Figure 19(A) shows a warning tape indicating "No Entry," etc., and as shown in Figure (B), a mixture of radioactive material 13 and a luminescent material, etc., as shown in Figure 1, is coated onto a tape carrier 112. Figure (C) shows a protective sheet 114 further laminated or bonded onto 112 and 113 of Figure (B). The tape carrier 112 is coated with pressure-sensitive adhesive 115, and a release liner 116 is bonded on top of it (below in the figure). An example of a warning product of the present invention has been described, such as peeling off the release liner 116 and attaching it to the periphery 118 of the plate 117 as shown in Figure (D) to create a warning plate.

[0037] [19th Embodiment] Figure 20 shows a banknote 119 of the 19th embodiment of the present invention. The banknote has printing such as "10,000 yen" 120, and below 121, a hologram of 1000 or 130 and the Bank of Japan mark 131. In addition to these, the 19th embodiment of the present invention prevents counterfeiting of the banknote by, for example, printing or coating the eyes 132 of a person's image with the radioactive material 13 of the present invention (the present invention is also included for other parts of the banknote other than the person's eyes).

[0038] Furthermore, the banknotes of this invention can be authenticated simply by looking at the printed material. By holding them up to the light or tilting them, it is possible to determine whether they are genuine or counterfeit without using any tools. Furthermore, the banknotes of this invention can be authenticated by using tools. This includes examining the pattern under magnification with a magnifying glass, overlaying a special sheet, or photographing them with a special camera. Through these various methods, counterfeit banknotes can be detected using this invention. Furthermore, when the banknote of this invention is viewed from an angle, a different pattern appears. Furthermore, by changing the viewing angle, the banknotes of this invention reveal multiple glossy patterns, making it possible to detect counterfeits. Furthermore, when the banknotes of this invention are copied using a photocopier, characters and figures that are difficult to see with the naked eye appear, and a completely different pattern emerges. Furthermore, when the banknotes of this invention are viewed using infrared light, a hidden image that was completely invisible becomes visible. Furthermore, when a special transparent sheet is placed over the printed material of the banknotes of this invention, the visible pattern clearly changes to a different pattern. Furthermore, it features a specially shaped screen. The banknotes of this invention express patterns using halftone dots of a special shape that are difficult to reproduce with a photocopier.

[0039] [20th Embodiment] Figure 21 shows the 20th embodiment of the present invention. This is "sperm enhancement." This invention involves placing a radiation source 1 inside pants or a loincloth 145, and having a person 103 wear it so that it is positioned near the genitals 146, thereby ensuring sufficient radiation exposure and thus "sperm enhancement."

[0040] [21st Embodiment] Figures 22 and 23 show the 21st embodiment of the present invention, which is a "nuclear battery" (Figure 22) or "power generation by radiation" or "betavoltaic cell" (Figure 23). 150 is an electrode, made of silicon carbide or the like, and 144 is beta radiation. Figure 22 shows a nuclear battery, which uses low temperatures and decay heat generated by the radioactive decay of radioactive materials as heat sources, and has a high-temperature section. It generates electricity using the Seebeck effect due to the temperature difference, and at the same time, it also takes in electrons from beta decay. The material that undergoes radioactive decay is referred to as radioactive material 1 of the present invention. Figure 23 shows a betavoltaic cell, in which p-type diamond 152 and n-type diamond 151 are joined together and used as a battery by electrons released by the beta decay of the radioactive material 13. 13 can be the radioactive material 1 of the present invention directly, or beta rays can be safely utilized by incorporating the radioactive material 1 of the present invention into a C14 isotope. While electricity can be generated by using the radioactive material 1 of the present invention, electricity can also be generated by combining the radioactive soil of the present invention with a light-emitting element. The theory and structure of this method are publicly known and will not be described in detail here, but the 21st embodiment of the present invention uses the radioactive source 1 of the present invention as the radiation source.

[0041] [22nd Embodiment] Figure 24 is a flowchart showing the flow of the materials used. The invention is characterized in that (A) is a lithium-ion battery, (B) is a liquid crystal, and (C) is a motor, each containing the radioactive material 1 of the present invention instead of rare earth elements. (A) replaces the lithium or cobalt electrolyte with a sodium-based electrolyte containing the radioactive substance 1 of the present invention. (B) The transparent electric film does not use indium, but contains the radioactive material of the present invention. (C) The radioactive material of the present invention is incorporated into neodymium magnets for motors. Lithium-ion batteries 157 require lithium and rare earth elements 156 such as cobalt, but rare earth elements are difficult to obtain and expensive due to their limited sources such as China and Myanmar. Additionally, cerium and indium 158 are important for liquid crystal displays 159, and neodymium 161 is important for motors 162. By using radioactive materials 1,160, and163 in place of these, it becomes unnecessary to use rare earth elements, which greatly benefits manufacturers and reduces costs. The 22nd embodiment of the present invention involves replacing the rare earth element with the radioactive material 1 of this invention. [Industrial applicability]

[0042] This invention can solve the problem of disposing of spent nuclear fuel, the problem of treating contaminated soil from the Fukushima nuclear accident, the problem of treating contaminated water from the Fukushima nuclear accident without causing trouble to fishermen, and enables reliable autonomous driving without map information, thus having great potential for industrial application. [Explanation of Symbols]

[0043] 1. Contaminated soil generated by decontamination efforts following the Fukushima nuclear accident, etc. 11 Adhesives 12 Pigments (such as yellow and white) 13. A mixture of 1, 11, and 12, radioactive material. 2 Road diagonal marking machine 3 Road diagonal marking machine 4, 4' road 41 A ditch dug in the road for inserting 13 42 Undersea 43 Port 5. Treated contaminated water and contaminated soil generated from the Fukushima nuclear accident. 51 Pipes laid along the seabed 6. Geiger counters and other sensors located under the vehicle body 6L, 6R: Left / Right or Front / Rear Sensors 60, 60L, 60R, 60F, 60R, 60DF, 60DR, 60C: Cones for improving sensitivity in left / right, front / rear, lower front / lower rear, or corners. 61 Left sensor located under the vehicle body 62 Right sensor located under the vehicle body 63. Forward sensors on ships 64. Rear sensors on ships 65. Left-side sensor of the ship 63 Right-hand sensor of the ship 7. Radiation shielding plates installed under vehicles and ships 71 Shielding plate installed inside the vehicle 8. A device that analyzes input from sensors 6 installed in the vehicle and transmits it to the driving mechanism. A device that commands the driving mechanism, such as changing direction, based on signals from 9 and 8. 10 13 shows the cross-section of the line that is raised as a line on the road and the cross-section embedded in the road. 20 tires 30 sea level 90 ships 100 units of diagnostic reagent (18F-FDG) 100-1 Titanium, Titanium flakes 101 Syringe 102 Veins 103 patients 104 Test Data 105 display 106 Monitors 107 capsules 108 chain 109 needles 110 A scale indicating the limit of contact with the extreme. 111 A scale indicating the limit of left-right movement. 112 Tape carrier 113 A mixture of radioactive material 13 and luminescent material, etc. 114 Protective Seats 115 Pressure-sensitive adhesive 116 Release Liner 117 Signboard 118 Around board 117 119 banknotes 120 Amount display 121 Amount display 130. Hologram containing radioactive material 13. Price displayed. 131. Hologram mark indicating radioactive material 13. 132 Holographic human figure containing radioactive material 13: Eyes 150 electrodes 151 n-type diamond 152 p-type diamonds 153 Electrode 154 Electrode 155 Power generation between electrodes 156 Rare Earth 157 Lithium-ion battery 158 Cerium, Indium 159 LCD 160 Radioactive material 1 of the present invention 161 Neodymium 162 Motor 163 Radioactive material 1 of the present invention 144 Beta rays 145 Fundoshi (loincloth) 146 Genitals 147 Guardrail

Claims

1. A lithium-ion battery, liquid crystal, or motor characterized by using a material that contains a sodium-based electrolyte, a transparent conductive film, or a neodymium magnet, which is a mixture of radioactive materials ranging from 8,000 Bq / kg to 100 Bq / kg, produced from a small amount of nuclear power generation or the Fukushima nuclear power plant accident that does not cause health damage to the human body, in such a way that the radiation dose is between 0.05 and 0.46 μSv / hr, and is produced from tritium-treated water or cesium-contaminated soil.

2. A therapeutic device characterized by the use of a material in which radioactive materials with a radiation dose of 8,000 Bq / kg or less but 100 Bq / kg or more, which are produced from a small amount of nuclear power generation or tritium-treated water or cesium-contaminated soil from the Fukushima nuclear power plant accident and do not cause harm to human health, are mixed with titanium powder to a radiation dose of 0.05 to 0.46 μSv / hr, forming a capsule containing radioactive titanium powder, or by forming the material into radioactive titanium pieces and connecting them with a chain, and injecting and implanting the capsule or the chain into the body.

3. A nuclear battery or betavoltaic battery characterized by using a material as an electrolyte, which is a mixture of radioactive materials containing 8,000 Bq / kg or less but 100 Bq / kg or more, from tritium-treated water or cesium-contaminated soil generated by a nuclear power plant or the Fukushima nuclear power plant accident, in such a way that the radiation dose is 0.05 to 0.46 μSv / hr.

4. A system and apparatus utilizing radioactive materials, characterized in that a material is prepared by mixing radioactive materials, such as tritium-treated water or cesium-contaminated soil generated by nuclear power generation or the Fukushima nuclear power plant accident, with radioactive materials of 8000 Bq / kg or less and 100 Bq / kg or more, with adhesives and / or dyes so that the radiation dose is 0.05 to 0.46 μSv / hr, and this material is installed on roads, the seabed, moving objects such as cars and ships, guardrails, or bays, and a radiation receiving device is installed on the moving objects such as cars and ships, thereby providing a function to guide the direction of the moving objects or to prevent the moving objects in front of and behind from approaching each other.