RU2082233C1 - Container from reinforced concrete - Google Patents

Abstract

FIELD: nuclear power engineering, in particular, delivery of waste assemblies of heat-emitting elements. SUBSTANCE: device has reinforced concrete housing which has internal and outer steel envelopes, bottom and sealed caps and cooling channel. Reinforcement of concrete is designed as lattice case which is attached to outer steel envelope and connected by means of heat conductors to inner steel envelope. Outer jacket with driving pipe is pulled on container. Cooling channel is designed as ring space between container housing and outer jacket. EFFECT: increased functional capabilities. 2 dwg

Description

 The invention relates to the field of nuclear engineering and equipment for storage and transportation of nuclear waste and spent nuclear fuel from nuclear power reactors.

 A known design of a container for storing and transporting radioactive waste [1] subjected to solidification to a weak or moderate degree, consisting of a tank containing an outer concrete shell and an inner multilayer wall and a plug. The design of the tank provides compensation for thermal expansion of the shell over time and its thermal insulation inside the tank.

 The known design effectively removes heat under normal operating conditions, but when the container enters the fire, it is exposed to high temperature with the destruction of concrete and loss of tightness of the container.

 A known construction of a convection-cooled concrete container for transporting and storing radioactive substances [2] emitting heat, having a system of channels for heat dissipation by natural circulation of external air prototype.

 The disadvantages of this design is that the location of the cooling channels near the fuel elements leads to activation of the air flowing through them, in addition, when it enters the fire, the container is exposed to strong heat with destruction of concrete and loss of tightness.

 The claimed invention allows for efficient heat dissipation under normal operating conditions, and when the container enters the fire, to eliminate the temperature increase inside the container, to ensure the tightness and reliability of the container.

 A reinforced concrete container is proposed for storage and transportation of spent assemblies of a fuel element of a nuclear reactor, including a reinforced concrete case with an inner steel shell and a bottom, a cooling channel and tight covers, the container body is equipped with an outer steel shell, and the reinforcement of the concrete filling of the walls is made in the form adjacent to the outer steel the shell of the lattice shell, connected by heat pipes to the inner steel shell, and on the container there is an outer casing with a traction tube, etc. and this cooling channel is formed by the gap between the container body and the outer casing.

 The invention is illustrated in the drawing, where in FIG. 1 shows the proposed container, FIG. 2 section along AA.

 The container consists of a casing, which has an outer steel shell 1 with a bottom 2 and an inner steel shell 3 with a bottom 4. The shells are welded to the upper forged ring 5, on which the covers 6 and 7 are installed, providing tightness and radiation protection.

 In the annular space between the shells 1 and 3 with the bottoms 2 and 4 installed reinforcement in the form of a trellised shell 8 and trellised disk 9, which are installed close to the surface of the outer shell 1 and the bottom 2.

 The lattice shell 8 and the lattice disk 9 are welded to the shell 3 and the bottom 4 through heat-connections 10 and 11. The annular space between the shells and the bottoms is filled with plastic, heat-resistant concrete providing radiation protection 12.

 A cover 13 with spent fuel assemblies having residual heat and activity is installed in the interior of the container.

 From the outside, a casing 14 with a traction pipe 15 is put on the container with a gap.

 The cooling channel is formed by an annular gap between the container body and the outer casing 14.

 This design scheme allows you to transfer large heat fluxes through the wall of the container, because the presence in concrete of steel, located with high density along the entire height of the container wall, of the connection ducts 10 significantly increases the overall thermal conductivity of the wall.

 The installation of the outer casing 14 with the traction pipe 15 allows through the annular gap between the casing 14 and the outer steel shell 15 to organize the natural circulation of external air, which achieves a more intense heat removal from the outer surface of the container body.

 When the container enters the fire due to the rapid heating of the outer steel shell 1, its thermal expansion and peeling from the concrete mass 12 occurs with the formation of a gap between the concrete and the shell wall. The presence of a gap leads to a sharp increase in thermal resistance, which prevents the penetration of heat into the container and the temperature rise in it.

 The mesh shell 8 made of reinforcing steel and steel ties-heat pipes 10, 11 exclude the destruction of concrete and contribute to the preservation of its monolithicity and strength.

Claims (1)

 A reinforced concrete container for storing and transporting spent fuel assemblies of a nuclear reactor, including a reinforced concrete case with an inner steel shell and a bottom, a cooling channel and sealed covers, characterized in that the case is equipped with an outer steel shell, while the reinforcement of the concrete filling of the walls is made in the form adjacent to the outer steel shell of the lattice shell connected by heat connections to the inner steel shell, and the outer casing with the traction pipe is worn on the container, with this cooling channel is formed by an annular gap between the container body and the outer casing.

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