RU2189653C1 - Method for handling limited-use metal wastes - Google Patents

Abstract

FIELD: nuclear power engineering and nuclear industry. SUBSTANCE: method for handling metal wastes including shipborne wastes involves treatment of wastes to reduce level of their total specific activity at the same time keeping this level at value sufficient for using them without restrictions concerning radio activity; waste disposal to industrial waste storage ground located beyond nuclear power units; reduction of waste volume before their disposal to storage ground including natural reduction of their specific activity to value enabling their handling without restrictions concerning radioactivity; waste recovery such, among other things being either storage of limited-use solid metal wastes on industrial waste storage grounds beyond nuclear power units including immobilization of radioactive contaminants removed from outer or inner surfaces of wastes or disposal of limited-use solid metal wastes. EFFECT: reduced specific activity of and radionuclide leaching from metal wastes, enlarged amount of non-radioactive metal scrap obtained in the process. 9 cl, 7 ex

Description

 The invention relates to the field of nuclear energy and the nuclear industry and relates to the management of metal waste of limited use, ship waste, in particular.

 A known method of handling metal waste from a reactor facility, non-radioactive and non-toxic, by removing them from the industrial site of a nuclear facility as scrap metal for reuse or placement at an industrial landfill intended for non-radioactive and non-toxic materials, with possible subsequent use (see, for example, C .L Fellhauer, GA Garlock, Decontamination and Decommissioning of the JANUS Reactor at the Argonne National Laboratory - East Site, Decommissioning, Decontamination and Reutilization of Commercial and Government Facilities, Topical Meeting on Decontamination and Decommissioning and Reutilization of Commercial and Gov ernment Facilities Proceedings, Knoxville, TN, September 7-12, 1997, American Nuclear Society, La Grange Park, IL, 1997, p. 94-101).

A known method of handling metal waste of limited use, contaminated with nuclides characteristic of light water reactors - ⁵⁴ Mn, ⁶⁰ Co, ⁶⁵ Zn, ⁹⁰ Sr, ¹³⁷ Cs, ⁶³ Ni, including melting the waste in an AC furnace with immediate solidification and melting the waste with aging the melt for 0.5-1.0 hours, followed by their curing, and upon immediate curing, all ⁹⁰ Sr and approximately 60% ¹³⁷ Cs go to slag, the rest of ¹³⁷ Cs and 20% ⁶⁵ Zn are volatilized and deposited on the filter, for the maximum holding time fades weight ¹³⁷ Cs and up to 90% ⁶⁵ Zn, and all ⁶⁰ Co and its chemical analog ⁶³ Ni are evenly distributed over the metal ingot (see, for example, H. Nakamura, K. Kanasawa, K. Fujiki, R&D on Melting of Radioactive Metal Wastes at JAERI, Proceedings 3-rd JSME / ASME Joint International Conference On Nuclear Engineering (ICONE-3), April 23-27, 1995, Kyoto, Japan, Tokyo, JSME, 1995, v.4, p.1785-1789).

 There is a known method of handling limited-use metal waste, including pressing waste with the formation of “cakes”, reducing the free volume of waste by 2-5 times, absorbing the filters released during pressing of aerosols (see, for example, Decommissioning Handbook, Chapter 8 "Waste Treatment ", US Department of Energy, Office of Environment Restoration, DOE / EM-0142P, March 1994, p. 8-19-8-20).

The closest is the well-known method of handling metal waste of limited use, including chemical deactivation of the steam generators of the research reactor Augusta, Stockholm, Sweden, the composition of the deposits on the tubes of which included, in particular, ⁶⁰ Co, ²³⁸ Pu, ²³⁹ Pu, ²⁴⁰ Pu and ⁹⁰ Sr radionuclides , cutting of steam generators and melting of the resulting waste in furnaces for radioactive steel and non-ferrous metals, with a decrease in the specific activity of the melted tube bundles of stainless steel steam generators to 1-4 kBq / kg, with a house nirovaniem in the resulting waste ⁶⁰ Co, reduction of volume of waste storage and disposal, temporary storage is not the buried metallic waste and, in accordance with the Swedish practice, ingots having the above specific activity obtained by melting bundles of tubes of stainless steel, may be transmitted to steel mills as non-radioactive metal after 5-12 years (see, for example, Sh.Menon, Decommissioning of Nuclear Submarines: Waste Minimization by Recycling, Analysis of Risks Associated with Nuclear Submarine Decommissioning, Dismantling and Disposal, NATO / Russian Academy of Sciences ad vanced Research Workshop, Moscow, Russia, November 24-26, 1997, Dordrecht, Kluwer Academic Publishers, 1999, p. 129-136). - prototype.

 The main disadvantage of the known methods for the management of limited-use metal waste is the complexity and environmental friendliness of the technology and the high cost of reducing the specific activity of a significant amount of millions of tons of waste to a level of specific activity that allows handling waste without restrictions on radioactivity, the need to store waste in storage facilities and landfills at the industrial sites of nuclear facilities.

 The objective of the invention is to increase the environmental friendliness, economy and manufacturability of the management of metal waste of limited use, taking into account the natural decrease in their radioactivity.

 This problem is solved by the invention by achieving a technical result, which consists in reducing the specific activity of metal waste of limited use deposited, reducing the leaching of radionuclides from them, reducing the required storage capacity for metal waste, and increasing the amount of non-radioactive scrap metal from nuclear facilities.

 The technical result is achieved in a method for the treatment of solid metal waste specific activity of solid waste of limited use, including the removal of removable radioactive contamination from them, waste treatment to a level of total specific activity of 0.5-98.5% of the lower level of specific activity of solid low-level radioactive waste exceeding the level of total specific activity from which the waste can be used without restrictions on radioactivity, waste disposal at the landfill for industrial waste outside the industrial site of a nuclear facility, waste storage at the landfill, it is proposed to reduce the free volume of waste by 5-95% until it is disposed at the landfill, it is also recommended to dispose of waste after a natural decrease in its radioactivity at the landfill.

 The invention is proposed as follows.

 Example 1. A nuclear submarine to be dismantled is placed on the slipway of a shipyard, the reactor compartment is separated using a laser method for cutting large-sized thick-walled objects, including activated and contaminated ones (see, for example, RBArutyunyan, GABaranov, AKZinchenko, Problems of Safe Application of Laser Technological Process for Disassembly of the Nuclear Installations of NSM, Analysis of Risks Associated with Nuclear Submarine Decommissioning, Dismantling and Disposal, NATO / Russian Academy of Sciences Advanced Research Workshop, Moscow, Russia, November 24-26, 1997, Kluwer Academic Publishers, Dordrecht, 1999, p. 137-144), metal structures and equipment of compartments adjacent to the reactor a nuclear submarine’s boat contaminated with radionuclides up to the specific activity level of solid waste of limited use is coated on a slip with a gel-based compound with the addition of a hardener to fix the removed radioactive contamination during cutting and its subsequent curing, remove the compound with removed contamination from the waste surface (see, e.g. D. Boulitrop, JP Gauchon, Y. Lecoffre, Specific Decontamination Methods: Water Lance, Erosion by Cavitation, Application of Gel-Based Decontaminants, Decommissioning, of Nuclear Power Plants, Proceedings of European Commission, Luxembourg, 1984, Published by Graham & Trottman, London, 198 4, p. 177-195), perform cuts with the separation of equipment and metal structures with specific activity of limited solid waste, using the known method of electric arc cutting of large metal objects, including activated and contaminated (see, for example, Decommissioning Handbook, Chapter 10 "Dismantling, Segmenting and Demolition, "US Department of Energy, Office of Environment Restoration, DOE / EM-0142P, March 1994, p. 10-47-10-51), with the capture of the resulting aerosols, metal waste is removed from the compartments adjacent to the reactor compartment on a slipway cut up on a slipway received waste with plasma cutters (see e.g. G. Pilot, G. Bernard, JR Costes, JP Grandjean, Dismantling: Comparative Tests of Five Cutting Tools, Proceedings 3D-JSME / ASME Joint International Conference On Nuclear Engineering (ICONE-3 ), April 23-27, 1995, Kyoto, Japan, Tokyo, JSME, 1995, v. 4, p. 1751-1756) up to mass dimensions corresponding to the characteristics of a furnace of 1000 kg for melting radioactive metal waste with direct current, located at the industrial site ship repair plant, transport the waste from the slipway to the furnace in a container for low-level waste, move the waste from the container to the furnace, perform waste melting, pouring alla from the furnace to molds, curing of metal in the form of ingots with a total specific radioactivity of 30% of the lower level of the specified specific activity of solid low-level radioactive waste and corresponding to the standard set values for the radioactivity of limited-use solid waste, radiation monitoring is performed by instruments for measuring low levels of radioactivity materials, including α-, β-, γ- and neutron radiation, transport ingots to the coastal landfill for industrial waste outside the industrial site of a nuclear facility, ingots are placed at a landfill for industrial waste in an on-ground storage facility, which is a warehouse of metal structures sheathed with metal sheets, the foundation of which is made of metal plates mounted on concrete blocks placed on a leveled site of permafrost, while the impact on personnel and the environment of volatile γ-emitters due to their transition to slag and furnace filter materials, other γ- and β-emitters due to their uniform about the distribution by volume of the ingot and self-shielding of radiation, remove radioactive slag from the furnace from the furnace containers, filters that trap radioactive dust and gases, including volatile metals and their compounds, a compound with recorded removable radioactive contaminants, weld the container drums, transport they are in the storage of low-level radioactive waste, they place barrels-containers with slag, filters and compound in the storage, low-level radioactive waste is stored in the storage, metal ingots are stored personal waste - at a landfill for industrial waste in a warehouse for 30 years, during which due to the natural decay of the radionuclides contained in them their total specific activity will decrease to 0.3 kBq / kg (specific activity of solid waste below which they can be directed to storage without restrictions on radioactivity., in accordance with the Basic Sanitary Rules for Ensuring Radiation Safety (OSPORB-99), M., Ministry of Health of Russia, 2000, p. 54).

 Example 2. The same as in example 1, but removed removable radioactive contamination fixed by the compound is not removed from the removed metal waste of limited use, the waste is cut to the size of the decontamination baths, placed in a container for low-level waste, the waste is transferred in the container to the decontamination bath, installed in the shipyard's workshop, place them in a decontamination bath, decontaminate the waste in the baths with nitric acid using ozone and cerium (see, for example, O. Anderson, J. Bjerier, Sh. Menon, The Agesta Steam Ge nerator Decontamination Project, Proceedings of. International Symposium on Decontamination & Decommissioning, Knoxville, TN, April 25-28, 1994, American Nuclear Society, La Grange Park, IL, 1994, Paper No. 48, 6 p), reducing the overall specific activity of the waste up to 10% of the lower level of the normatively determined specific activity of solid low-level radioactive waste and corresponding to the normatively established values of the radioactivity of solid waste of limited use, wash off the residues of decontamination reagents and separated radioactive deposits, including those fixed in the compound that covers the waste removed by the radio active contaminants, cut metal waste to the extent of compacted waste not exceeding 0.5 m in length and 0.2 m in width, perform waste pressing with a 3-fold decrease in their free volume, transport waste to a coastal landfill for industrial waste outside the ship repair site factories, place them at a landfill for industrial waste in a ground storage, which is a warehouse of metal structures, installed on a flat site of permafrost, while the impact impact on personnel and the environment from all types of emitters due to the removal of removable radioactive contamination and chemical decontamination, γ- and β-emitters by pressing them with an uneven distribution over the volume of compressed waste and partial self-shielding of radiation, secondary liquid radioactive waste generated during decontamination regenerates perform curing of the mid-radioactive concentrate, radioactive sludge and suspension obtained during regeneration (see e.g. G. Chechelnitski, S. Gavrilov, V. Kremnev, F. Lifanov, Development of the Low and Intermediate Radioactive Waste Management Concept, Collection of 5th Annual Scientific and Technical Reports. Conference of the Nuclear Society, Obninsk, 1994, Nuclear Society (Moscow), M., 1995, p. 615-619), place the solidified waste in containers for medium radioactive waste, brew it, transport containers with waste in a storage of medium radioactive waste, store it in a storage, store medium radioactive waste in a storage, store ingots at a landfill for industrial waste in a warehouse for 10 years, during which due to the natural decay of the radionuclides contained in them, the total specific activity of the waste decreases to 0.3 kBq / kg, after which the metal waste can be sent for storage b Without restrictions on radioactivity.

 Example 3. The same as in example 1, but the waste from the landfill is stainless steel ingots with 10-12% nickel, after reducing their specific activity to 0.3 kBq / kg and conducting additional sanitary-hygienic control of radiological and toxic characteristics metal, used as scrap metal for the manufacture of metal structures for bridges and tanks operated in a humid environment, and nickel is also extracted by electrolysis from waste materials for the manufacture of batteries (see, for example, T. Heaton, V. MacNair, A. Liby, The Reuse of Decontaminated Nickel in Nickel-Metal Hydride Batteries, Decommissioning, Decontamination and Reutilizat ion of Commercial and Government Facilities, Topical Meeting on Decontamination and Decommissioning and Reutilization of Commercial and Government Facilities Proceedings, Knoxville, TN, September 7-12, 1997, American Nuclear Society, La Grange Park, IL, 1997, p.638-645 )

 A known method of handling metal waste of limited use, including the transportation of low-radioactive metal waste with an activity of 1-10 kBq / kg from the industrial site of a dismantled nuclear power plant to a temporary storage facility, their re-melting at the industrial site of a temporary storage facility, the use of the obtained metal for the construction of reinforced concrete foundations (see, for example , E. Hldky, J. Blazek, D. Majersky, V. Rehacek, Decontamination for Decommissioning of Nuclear Power Reactors, Decontamination and Decommissioning of Nuclear Facilities, IAEA-TECHDOC-511, 1989, p. 37-45).

A known method of handling metal waste of limited use, comprising coating dismantled metal structures with two-component liquid media, the connection of which form an adhesive to dismountable structures, followed by its curing, fixing removable radioactive contamination of the polymer, polyurethanes of various compositions, in particular, resistant to diffusion through radionuclides polluting the surface of the waste and leached from them, including ³ N, ⁶⁰ Co and ¹³⁷ Cs, waterproof, mechanical, durable, non-combustible, resistant to elevated temperatures, non-toxic, forming a coating of different thicknesses by spraying two-component liquid media (see, for example, C. de Tassigny, Immobilization of Contamination by the Coating of Polymers on Large-size Waste Products, 1989 International Conference on the Decommissioning, of Nuclear Installations Proceedings, Research Program Decommissioning of Nuclear Installations, Commission of the European Communities, Brussels, 1989, Preprint, v.2, p.629-638).

The closest is the known method of handling limited-use metal waste, representing 4 dismantled steam generators of the 1st power unit of the Salem nuclear power plant, Hanhoks Bridge, New York, USA, with a radioactivity of each steam generator from 122 to 143 Ci (about 200 kBq / kg ) after stopping unit for two years, for which mostly disintegrated radionuclides with short half-life, e.g., ⁵⁸ Co, steam generators coating paint based epoksidnoi resin with hardener, its up responses removal, removal from the containment of the nuclear power plant to its industrial site, placement at the industrial site without additional shelter, except for digging into the ground of the industrial site of metal waste in the form of dismantled steam generators at 1.2 m and covering them with wood, transporting the steam generators along the highway to the Barnwell storage facility, USA , their placement on the industrial site of the storage on steel frames without shelters, storage of steam generators on the industrial site of the storage; it is provided, in particular, that steel sheets can be welded to the frames to cover the steam generators, (see e.g. H. Cruickshank, J. Gomeringer, R. Killen, Fast Track Stream Generator Disposal at Salem Generating Station, Topical Meeting on Decontamination and Decommissioning and Reutilization of Commercial and Government Facilities Proceedings, Knoxville, TN, September 7-12, 1997, American Nuclear Society, La Grange Park, IL, 1997, p.619-624) - prototype.

 The main disadvantage of the known methods for the management of limited-use metal waste is the complexity and environmental friendliness of the technology and the high cost of reducing the specific activity of a significant amount of millions of tons of waste to a level of specific activity that allows handling waste without restrictions on the level of radioactivity, the need to store waste in storage facilities and at landfills at the industrial sites of nuclear facilities.

 The objective of the invention is to increase the environmental friendliness, economy and manufacturability of the management of metal waste of limited use, taking into account the natural decrease in their radioactivity.

 This problem is solved by the invention by achieving a technical result, which consists in reducing the specific activity of metal waste of limited use deposited, reducing the leaching of radionuclides from them, reducing the required storage capacity for radioactive metal waste, increasing the amount of metal waste from nuclear facilities as non-radioactive scrap metal .

 The technical result is achieved in a method for handling solid metal waste of specific activity of solid waste of limited use, including fixing the removed radioactive contamination on their surface, placing waste on a landfill for industrial waste outside the industrial site of a nuclear facility, storing waste on the landfill, processing waste to the level of total specific activity , from which they can be stored without restrictions on radioactivity, it is also proposed to additionally fix the recorded rad Ioactive pollution inside the waste during its processing, it is recommended to dispose of the waste after a natural decrease in its radioactivity at the landfill, waste treatment.

 The invention is proposed as follows.

Example 4. At a plant for the production of enriched uranium, a ²³⁵ U isotope enrichment line is dismantled, the equipment of which consists of contaminated and activated solid metal wastes of medium and low specific activity and solid metal wastes of limited use, including α-active and transuranic nuclides (Basic sanitary rules radiation safety (OSPORB-99), M., Ministry of Health of Russia, 2000, p. 54), cover it with polyester with a hardener and a filler to fix the removed radio active pollution during cutting and transportation of metal waste, prevention of diffusion of radionuclides from the surface of the waste, their leaching from the waste, followed by solidification, perform cuts with the separation of equipment and metal structures of the specific activity of solid waste of limited use by a known method of cutting metal structures by plasma cutting with the capture of aerosols formed, remove received metal waste from the workshop with the equipment to be dismantled to the workshop section for the section ki of the dismantled equipment, they also cut it at the site with plasma cutters up to mass dimensions corresponding to the size of metal containers used for low-level radioactive dual-use storages for transportation and storage of radioactive waste, cover the cut sites with a three-component mixture of the same composition to form a polymer to prevent diffusion of radionuclides with waste surface newly formed by cuts, leaching of radionuclides from them in the places of cuts, place waste with recorded removable radioactive contamination in dual-use containers loaded with metal waste of limited use, the containers are brewed, the containers with the waste transported to the industrial waste landfill outside the industrial site of the enriched uranium production facility, placed at the landfill, and the waste stored at the landfill for 80 years after storage of the bulk of fissile materials and fission products with a half-life not exceeding 15 years, after they container the containers from the premises at the landfill, transport them to the enriched uranium production facility to the induction furnace, remove the lids of the brewed containers using gas cutting, remove waste from the containers, cut waste for melting in a high-frequency induction furnace for radioactive materials with a productivity of 200 kg per melt, smelting metal waste with exposure to metal in the molten state for 1 hour to remove volatile radionuclides into slag and filters (see e.g. H. Nakamura, K. Kanasawa, K. Fujiki, R&D on Melting of Radioactive Metal Wastes at JAERI, Proceedings 3-rd JSME / ASME Joint International Conference On Nuclear Engineering (ICONE-3), April 23-27, 1995 , Kyoto, Japan, Tokyo, JSME, 1995, v. 4, p. 1785-1789), as well as uranium nuclides, in particular, with the production of metal ingots non-radioactive in terms of specific activity of solid waste, which are used for the production of high-quality stainless steel in accordance with hygiene conditions, the remaining polymer is removed from the furnace with fixed removable radioactive contamination , polymer, slag and filters containing fissile materials and fission products - medium radioactive waste - are placed in barrels, barrels are welded, barrels are pressed with aerosol trap, nnye "cake" is placed in drums, containers, barrels brewed containers are sent for burial in a cemetery, are disposed in the repository for intermediate level waste.

 Example 5. The same as in example 4, but they store metal waste at the industrial waste landfill outside the industrial site of the enriched uranium production plant for 50 years, transport containers with waste from the landfill to the industrial site of the enterprise, open the containers, remove metal from them waste, put it in a decontamination bath to remove the upper layer of waste metal, remove the polymer fixing the removable radioactive contamination with the remaining nuclides from the waste, cut the waste for melting in and AC induction furnace for low-radioactive materials with a productivity of 400 kg per melt, waste is melted with the metal held in the molten state for 1 hour to remove radionuclides from them into slag and filters, to produce metal ingots non-radioactive in terms of specific activity of solid waste, which used for the production of high-quality stainless steel in accordance with hygiene conditions, the decontamination solution from the bath is regenerated with removal and vitrification m of the formed salts, including α-active and transuranic nuclides, wash off the residual decontamination solution from the polymer that removes removable radioactive contamination with the remaining nuclides in it, evaporate the secondary liquid radioactive waste obtained by washing the polymer, vitrify the concentrate obtained by washing, and place the solidified waste obtained with an activity level corresponding to the activity level of limited-use waste, transported containers are transported in transport containers Waste in containers at a landfill for industrial waste outside the industrial site of an enriched uranium production facility, place solidified waste at the landfill, dry the polymer - solid radioactive waste with an activity level corresponding to the activity level of the limited use waste, place it in barrels, make barrels, press the polymer in barrels, the resulting “cakes” are placed in container barrels, container barrels are brewed, waste is transported in container barrels to an industrial waste landfill outside the industrial site of the enriched uranium production plant, they place waste in barrel drums at a landfill for storage in a warehouse for 50 years.

 A known method of handling limited-use metal waste obtained after decontamination of metal structures and equipment contaminated with fissile materials and fission products or without decontamination, followed by re-melting of metal waste, as well as non-radioactive metal, in several US national nuclear laboratories, with its storage at the industrial sites of these laboratories and the use, after obtaining permission from the supervisory national services, of a non-radioactive metal, primarily with wine, copper, aluminum and nickel (see, for example, JH Cavendish, Treatment of Metallic Wastes by Smelting, Proceedings of a Symposium "Decommissioning of Nuclear Facilities", 13-17 November, 1978, Vienna, Austria, Vienna, IAEA, 1979 p.611-630).

 There is a known method of handling limited-use metal waste, including pressing waste with a decrease in its free volume by 2–5 times, forming “cakes” from them, and absorbing filters released during pressing of aerosols (see, for example, Decommissioning Handbook, Chapter 8 "Waste Treatment ", US Department of Energy, Office of Environment Restoration, DOE / EM-0142P, March 1994, p. 8-19-8-20).

The closest is the known method of handling metal waste of limited use, including melting the waste in a direct current furnace, which removes surface radioactive contamination by fixing radionuclides, including the volatile radionuclide ¹³⁷ Cs in an amount of 75-98%, inside the solidified waste (see, for example , JKWittle, RAHamilton, PJWilver, The Potential Use of DC Graphite Melter Technology in Decontamination and Decommissioning and Reutilization, Topical Meeting on Decontamination and Decommissioning and Reutilization of Commercial and Government Facilities Proceedings, Knoxville, TN, September 7-12, 1997, American Nuclear Society, La Grange Park, IL, 1997, p. 479-486) - prototype.

 The main disadvantage of the known methods for the management of limited-use metal waste is the complexity and environmental friendliness of the technology and the high cost of reducing the specific activity of a significant amount of millions of tons of waste to a level of specific activity that allows handling waste without restrictions on radioactivity, the need to store waste in storage facilities and landfills at the industrial sites of nuclear facilities.

 The objective of the invention is to increase the environmental friendliness, economy and manufacturability of the management of metal waste of limited use, taking into account the reduction of their radioactivity.

 This problem is solved by the invention by achieving a technical result, which consists in reducing the specific activity of metal waste of limited use deposited, reducing the leaching of radionuclides from them, reducing the required storage capacity for radioactive metal waste, increasing the amount of metal waste from nuclear facilities as non-radioactive scrap metal .

 The technical result is achieved in a method for handling solid metal waste of specific activity of solid waste of limited use, including the removal of their removable radioactive contamination, the placement of waste on a landfill for industrial waste outside the industrial site of a nuclear facility, the storage of waste on the landfill, the treatment of waste up to the level of total specific activity, s which can be stored without restrictions on radioactivity, it is proposed to reduce the free volume of waste by 5-95%, it is also recommended Dispose of waste after a natural decrease in its radioactivity at the landfill, waste treatment.

 The invention is proposed as follows.

 Example 6. On the slipway of a shipyard, a floating technical base for recharging reactors is placed, the storage compartment of the irradiated nuclear fuel is separated from the remaining compartments using the known method of gas cutting of large-sized objects, including activated and contaminated ones (see, for example, A. Ya.Blecher, VS Bychenkov, VVDovgusha, ABKrupkin, VIKvasha, KK Popkov, Comparative Ecological and Hygienic Analysis of Existing and Perspective Technologies for Nuclear Submarine Disintegration, Nuclear Submarine Technologies for Nuclear Submarine Disintegration, Nuclear Submarine Decommissioning and Related Problems, NATO / Russian Academy of Sciences Advanced Research Workshop, Moscow, Russia, June 19-22, 1995, Kluwer Academic Publishers, Dordrecht, 1996, p. 263-271), low-radioactive metal structures and equipment of other compartments of the floating technical base are coated with epoxy resin paint with a hardener to fix the removed radioactive contamination during cutting and transportation of solid waste, low-level radioactive waste, metal structures and gas are separated by gas cutting the equipment of the same compartments of the floating technical base with an activity level below the level of low-radioactive solid waste with β- and γ-emitters related to metal waste is limited After using it, gas cutting is used to separate aerosols from non-radioactive structures and equipment of a floating technical base, cut the waste on a slipway to the dimensions of the dimensions corresponding to the geometrical characteristics of a direct current furnace of 800 kg for melting radioactive metal waste, and place the waste in deactivated containers for low-level waste waste, transport it from the slipway to the furnace located on the territory of the shipyard, move the waste from the to the furnace, they perform the melting of the cut-off metal waste without holding the metal in a liquid-phase state, but with transfer of the removed radioactive contamination into the liquid-phase metal, pouring metal from the furnace into molds, solidification of metal waste in the form of ingots, into which surface radioactive contamination is transferred, with a level of activity corresponding to the established regulatory values for the radioactivity of limited-use solid waste determined by radiation monitoring instruments, place ingots in decontaminated containers for low-level waste, transport ingots to an industrial waste landfill outside the industrial site of a shipyard, move ingots from a container, place ingots at an industrial waste landfill in warehouses, reduce the amount of waste by 4 times during melt, ensure removal of removed radioactive contamination inside metal ingots, reducing the impact of ionizing radiation on the staff, population and the environment of β- and γ-emitters due to uniform distribution of radionuclides in the volume of the ingot and their self-shielding, metal ingots with activity levels below the level of low-level solid waste obtained by remelting with exposure to the liquid-phase state of low-level radioactive waste with the removal of volatile radionuclides are stored on the same landfill; ingots obtained by melting metal waste without storage are stored metal in a liquid-phase state at an industrial waste landfill for 50 years to naturally reduce their activity due to decay the radionuclides contained in them, then the metal waste is transported in deactivated containers for low-level waste to the industrial site of the shipyard to the same furnace with a replaced lining, the waste is placed in the furnace, the metal waste of limited use is remelted, reducing its total specific activity to 0.15 kBq / kg (specific activity of the material, below which it can be used without restrictions - 0.3 kBq / kg - Basic Sanitary Rules for Ensuring Radiation Safety (OSPORB-99), M., Ministry of Health Ros AI, 2000, p. 54), after radiation monitoring, the ingots are sent to the steel mill as scrap metal, the resulting low-level radioactive slag is placed in containers for low-level waste, the containers are brewed, the low-level filters of the furnace for melting radioactive waste are placed in barrels, pressed, (they are approved with cement mortar, the barrels are welded, placed, in containers for low-level waste, containers with low-radioactive slag and containers with barrels with cured cement are transported izkoradioaktivnymi filters in low-level radioactive waste storage, is removed from the barrel for low-level waste containers, sealed containers are placed in the slag and barrels with cured cement mortar filters in low-level radioactive repository for low-level radioactive waste.

 Example 7. The same as in example 6, but the nuclear submarine to be dismantled is placed on the slipway, its reactor compartment is separated from the remaining compartments using the known method of gas cutting of large-sized objects, including activated and contaminated ones, also by gas cutting with the capture of aerosols structures and equipment with activity levels below the level of low-radioactive solid waste with β- and γ-emitters related to metal waste are separated from non-radioactive structures and equipment For this purpose, in the adjacent to the reactor compartment of the nuclear submarine, they cut the waste on a slipway to the mass-dimensioned size of 200-liter barrels, place them in barrels, place the waste in barrels in containers for low-level waste, transport them from the slipway to a press located on the site of the industrial site ship repair plant, barrels are pressed with a hydraulic press - a supercompactor of 60 MPa, converting the removed radioactive contamination into the volume of waste, including the bottom, lid and walls of the deformed barrel, place a compresso bathing “barrel-tablets” in containers for low-level waste, brew containers, transporting compressed metal waste with a specific activity corresponding to the established normative values for radioactivity of limited-use solid waste, which are determined by radiation monitoring devices, place waste in low-level waste containers, on a landfill for industrial waste outside the industrial site of a shipyard, place containers at a landfill for industrial waste in a warehouse In pressing rooms, when pressing, they reduce the free volume of waste by 5 times, ensure removal of removable radioactive contamination inside compressed “barrel-tablets” with additional protection for brewed containers, and reduce the impact of ionizing radiation on personnel, the public and the environment of β- and γ-emitters due to uneven distribution of radionuclides in the volume of “barrel barrels” and their self-shielding, as well as shielding by container protection, metal waste is stored in a landfill for industrial waste for 30 years to naturally reduce their activity due to the decay of the radionuclides contained in them, then the metal waste is transported in the same containers to the industrial site of the ship repair plant to a furnace for smelting radioactive metal waste with a capacity of 600 kg per melt, the container lids are opened by gas cutting, put the waste in "barrel barrels" into the furnace, reuse the limited-use metal waste, reducing their total specific activity to 0.2 kBq / kg, after For radiation monitoring, the ingots are sent to the steel mill as scrap metal, the slag formed with a specific activity below the level of low-level solid waste is placed in containers for low-level waste, the slag is pressed in containers, the containers with slag - solid waste of limited use are welded, the containers with slag are transported to the same landfill, place it in another warehouse, medium radioactive furnace filters for melting radioactive waste are placed in barrels, the press They are buried in barrels, barrels are brewed, pressed barrels are placed in containers for medium radioactive waste, containers are brewed, containers are transported to medium radioactive waste storage containers, and sealed containers with filters in barrels with medium radioactive filters are stored in a medium radioactive waste storage.

 The inventions, united by a common inventive concept, are applicable for the management of metal waste of limited use, their applicability is based on the experience gained in the processing of solid metal waste of limited use with a decrease in their level of radioactivity, which still exceeds the standard level of specific activity from which the waste can be used without restrictions on radioactivity, treated waste can be sent for storage at a landfill for industrial waste outside the industrial site of a nuclear facility, with a decrease in their free volume by 5-95%, in particular, they are disposed of after a natural decrease in their specific activity when storing waste at the landfill for 20-300 years, or at first storing solid metal waste of limited use for landfill for industrial waste outside the industrial site of a nuclear facility with the fixation of removable radioactive contamination or its disposal, including inside the waste, for 3-150 years, then the waste is treated to a specific active level the amount from which they can be stored without restrictions on radioactivity, also with a possible reduction in the free volume of waste by 5-95%, disposal of waste after a natural decrease in its radioactivity at the landfill, and waste treatment, in particular.

Claims (9)

 1. The method of handling solid metal waste specific activity of solid waste of limited use, including the removal of removable radioactive contamination from them, waste treatment to a level of total specific activity of 0.5-98.5% of the lower level of specific activity of solid low-level radioactive waste exceeding the level of total specific activity from which the waste can be used without restrictions on radioactivity, waste disposal at the industrial waste landfill outside the industrial schadki nuclear facility, storage of waste at the landfill.  2. The method according to p. 1, in which reduce the free volume of waste by 5-95% before placing them on the landfill.  3. The method according to p. 1 or 2, in which waste is disposed of after a natural decrease in their radioactivity at the landfill.  4. A method for handling solid metal waste with specific activity of limited-use solid waste, including fixing removable radioactive contamination on their surface, placing waste on a landfill for industrial waste outside the industrial site of a nuclear facility, storing waste at the landfill, treating waste to the level of total specific radioactivity, s which they can be stored without restrictions on radioactivity.  5. The method according to p. 4, in which further removed removable radioactive contamination inside the waste during processing.  6. The method according to p. 4 or 5, in which waste is disposed of after a natural decrease in their radioactivity at the landfill, waste treatment.  7. A method for handling solid metal waste of specific activity of limited-use solid waste, including the removal of their removable radioactive contamination, the placement of waste on a landfill for industrial waste outside the industrial site of a nuclear facility, the storage of waste on the landfill, the treatment of waste to the level of total specific radioactivity from which it can be stored without restrictions on radioactivity.  8. The method according to p. 7, in which reduce the free volume of waste by 5-95%.  9. The method according to p. 7 or 8, in which waste is disposed of after a natural decrease in their specific activity at the landfill, waste treatment.