RU2154866C1 - Method for disposal of reactor compartments of recovered submarines and nuclear-powered vessels - Google Patents

Abstract

FIELD: decontaminating water areas from radioactive wastes. SUBSTANCE: method involves manufacture of large pre-stressed reinforced-concrete semi-containers in the form of hollow cylinders which are then conveyed by means of separate floating platforms over water surface to submarine or vessel location point where they are coaxially arranged; then reactor compartment with floating compartments at ends is placed between semi-containers and linked together; after that, reinforcement is passed via cylinder-wall through channels and tensioned until semi-containers are joined together; reactor compartment is placed into container and floating containers are mounted beyond container, reinforcement is pre-stressed to rated value, and then floating compartments are disconnected, container ends are closed with tight lids, and solution is injected into channels and welds to hold reinforcement in position and to seal the weld. This done, container is conveyed by means of floating platforms over water surface to disposal area. EFFECT: improved environmental friendliness, facilitated procedure due to easy dismounting of floating means. 2 cl

Description

 The invention relates to the problem of environmental protection, namely, to clean the area of radioactive waste, reactor compartments formed during the disposal of nuclear craft, submarines, ships, etc.

 A known method for the disposal of radioactive waste by placing them in metal sealed containers, for example, a cylindrical shape, transporting them with a forklift in a vertical position, subsequent tipping in a horizontal position and laying them in a box’s nests for several pieces, installing boxes on a ship. Transportation to the place of burial and immersion of containers at the bottom of the water area / 1 /.

 A known method of the disposal of radioactive and toxic waste in containers at the bottom of the sea, including the manufacture of a container with protective coatings, the placement of waste in it, sealing the container and its subsequent self-immersion at the bottom of the water area / 2 /.

 A known method for the burial of radioactive and toxic waste in the area of the water area, including the manufacture of a volumetric prestressed torus container from annular reinforced concrete elements with monolithic joints between them with a solution of tensile cement. The torus container is floated and transported to the waste location, fixed and loaded through the open locking part, which, after filling the container, is monolithic. Then the torus container is transported over the surface of the water area and immersed in a predetermined place on the bottom of the water area / 3 /.

 The disadvantages of the known methods are the lack of an initial technical base, the complexity and length of the technological cycle, the need to transport containers using special vehicles to the disposal site and their spontaneous immersion at the bottom of the water area, which does not provide sufficient environmental safety and the ability to control the ecological situation in the disposal region waste. In addition, the known methods are cumbersome for the disposal of bulky radioactive waste.

 Closest to the proposed one is a method for disposing of the reactor compartments of utilized submarines or nuclear-powered ships in the water area, including the production of volumetric prestressed tube-shaped reinforced concrete semi-containers on separate floating platforms, moving them along the surface of the water area to the location of submarines or nuclear powered vessels, and installing them coaxially with each other and located between them the reactor compartment, coupling them with each other, the passage of valves into the half-containers made in the walls with Fuss channels and tensioning it before placing and splicing polukonteynerov reactor compartment in the container cavity prestressing reinforcement to the calculated value, followed by injection into the channels of the locking fitting solution, sealing the container, transporting it to the surface of the waters and disposal / 4 /.

 The disadvantages of this method are the difficulty of disconnecting, transporting and loading the reactor compartment into the container due to the need to ensure its constant buoyancy.

 The technical task is to improve environmental safety and simplify loading of reactor compartments into a container by simplifying the dismantling of boats when docking semi-containers.

 The problem is solved in such a way that in the method of burialing the reactor compartments of utilized submarines or nuclear powered ships in the area of the water area, including the manufacture of volumetric prestressed pipe-shaped reinforced concrete semi-containers, moving them on separate floating platforms along the surface of the water area to the area of the location of submarines or nuclear powered ships, the installation is coaxial with each other friend and reactor compartment, coupling, passage of fittings into the through channels made in the walls of the semi-containers and its tension to poking semicontainers and placing the reactor compartment in the container cavity, prestressing the reinforcement to the calculated value, followed by injection of fixing fixtures into the solution channels, sealing the container, transporting it over the surface of the water area and burial, according to the invention, the semi-containers are made in the form of hollow through cylinders, after installation half-containers coaxially between each other have a reactor compartment with floating sections at the ends and interlock, and the fittings are pulled to the butt semicontainers and placement of the bays outside the container, then prestress the valves, the bays are disconnected, and the ends of the container are sealed with lids and transport the container over the surface of the water area to the burial place. Moreover, the ends of the container are closed with sealed covers by tensioning the fittings passed into the through channels made in the walls and lids of the container to the calculated value and fixing the fittings to the covers.

 The proposed method differs from the known one in that the semi-containers are made in the form of hollow through cylinders, and after the semi-containers are installed, the reactor compartment with the end sections is connected to each other and connected, and the fittings are pulled until the half-containers are joined and the end sections are located outside the container, then reinforce the valves, disconnect the float compartments, and close the ends of the container with hermetic covers and transport the container along the surface of the water area to the -toxic.

 The manufacture of semi-containers in the form of hollow through cylinders makes it possible to load reactor compartments with floating sections at the ends, which ensure constant buoyancy when dismantling the reactor compartments, transporting them to the location of the semi-containers, placing them between them, coupling and docking the semi-containers. The dimensions of the semi-containers are designed so that the floating compartments located at the ends of the reactor compartment after loading are located outside the container, which makes it easier to disconnect the floating compartments in place. In addition, the container is sealed by installing sealed covers at the ends of the container. For example, the ends of the container are closed with sealed covers by tensioning the fittings passed into the through channels made in the walls and lids of the container to the calculated value and fixing the fittings in the channels with a solution, which provides increased tightness without additional costs.

 The method is as follows.

 First, on separate floating platforms located on the surface of the water area, or on the shore, semi-containers are made - two reinforced concrete hollow cylinders. The carrying capacity of the platform is determined from the calculation of its total buoyancy and stability. Semicontainers are made from prefabricated prestressed reinforced concrete rings with a cross section corresponding to the format of the utilized reactor compartment with a length equal to half the estimated length of the container. The manufacture is carried out by enlarging the assembly of reinforced concrete rings into a volumetric prestressed cylindrical element with monolithing the joints between the rings with tensioning concrete. Or a semi-container is made by molding it in a metal fixed formwork, the inner surface of which serves as an insulating jacket. In the manufacture of the walls of the semi-containers form longitudinal through channels.

 The semi-containers made on floating platforms are transported along the surface of the water area to the location of the submarine or nuclear-powered vessel and set them at a distance coaxial to each other. The reactor compartment is disconnected from the boat with floating sections, which are located at its ends, and transported to the installation site of the semi-containers until it is placed between the containers. Semicontainers and the reactor compartment are interlocked, fixing their position relative to each other. Then, reinforcement for the entire length of the hitch is passed into the through channels of the walls of the cylinders around the circumference, and the reinforcement is tensioned simultaneously using hydraulic jacks. As a result, the semi-containers are brought together and docked, and the reactor compartment is loaded into the container cavity. Thanks to the open ends of the cylindrical semi-containers, the bays are located outside the outside of the container. After joining the semi-containers, the tension continues to be carried out to the calculated value of prestressing. Then the floating sections are disconnected and removed from the loading zone. The ends of the container on both sides are closed with sealed covers made of prestressed reinforced concrete or metal. In this case, their fixing and sealing of the container is carried out using rope fittings, which are passed into the channels in the walls of the container and covers for the entire length of the container, and the fittings are tensioned with hydraulic jacks to a design value that ensures a tight fit of the covers to the container, followed by sealing by sealing the joints and injection of the solution into the channels fixing the reinforcement. For additional insulation, the cavity of the container through the hatches of the end caps is poured with concrete mixture.

 Thus packed in a container in this way, the reactor compartment on paired floating platforms is transported over the surface of the water area to the disposal site at no additional cost, ensuring the environmental safety of the region.

Sources of information
1. Japanese application N 61-38439, cl. G 21 F 9/34 publ. 08/08/29 N 6-691.

 2. Copyright certificate of the USSR N 1800483, cl. G 21 F 9/24, BI N 9, 03/03/93.

 3. RF patent N 2077747, cl. G 21 F 9/24, BI N 11, 1997.

 4. RF patent N 2132096, cl. G 21 F 9/24, BI N 17, 06/20/99 (prototype) a

Claims (2)

 1. A method for the disposal of the reactor compartments of utilized submarines or nuclear powered vessels in the water area, including the manufacture of volumetric prestressed pipe-shaped reinforced concrete semi-containers, moving them on separate floating platforms along the surface of the water area to the location of submarines or nuclear powered vessels, installation coaxially with each other and the reactor compartment, coupling , the passage of reinforcement into the through channels made in the walls of the semi-containers and tensioning it until the semi-containers are joined and the reactors are placed of the compartment in the container cavity, prestressing the reinforcement to the calculated value, followed by injection into the channels of the solution fixing the reinforcement, sealing the container, transporting it over the surface of the water area and burial, characterized in that the semi-containers are made in the form of hollow through cylinders, while after installing the semi-containers coaxially between each other they have a reactor compartment with floating sections at the ends and are coupled, and the fittings are pulled until the semi-containers are joined and the floating sections are placed thinning the container, then produce prestressing reinforcement plavotseki disconnected and the ends of the container is closed air-tight lid and the container is transported on the surface of the waters to the burial site.  2. The method according to claim 1, characterized in that the ends of the container are closed with sealed covers by tensioning the fittings passed into the through channels made in the walls and lids of the container to the calculated value and fixing the fittings to the covers.