RU2082232C1 - 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 steel envelope, outer envelope with ribs, bottom and sealed caps. Reinforcement of concrete is made from steel heat conducting rods with turns. One turn of rods is used for connection along all surface of inner steel envelope in rows uniformly around circumference. Another turn is used for connection to corresponding heat conducting rod from adjacent upper and lower rows in order to provide trapezium cramps which touch inner surface of outer steel envelope by their vertices. In space between cramps perforated gas-removing pipes are located uniformly along circumference. Said pipes are connected to assembling collector which has breakable protection diaphragm. EFFECT: increased safety. 4 dwg

Description

 The invention relates to the field of nuclear energy 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 medium degree, consisting of a tank containing an outer concrete shell and an inner multilayer steel 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.

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

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

 The claimed invention allows for high quality concrete filling, to transfer the maximum heat flux through the container wall under normal conditions, and when the container enters the fire, to eliminate the temperature increase inside the container, to ensure strength, tightness and radiation safety.

 A sharp increase in temperature in the fire leads to overheating of the outer finned steel shell, which, in the absence of a rigid connection with concrete and the inner shell, expands to form a gap between the concrete filling and its inner surface. In this case, an increase in the overall thermal resistance of the wall occurs, which prevents the penetration of heat and an increase in temperature inside the container.

 Such a design scheme allows to fill the concrete filling of the wall with steel rods-heat sinks as much as possible, which increases the overall thermal conductivity coefficient by 2–3 times as compared to concrete alone and allows heat fluxes comparable to those in steel containers to be removed through the container wall without reducing radiation safety. The possibility of using standard steel rolling and cheap concrete composition (cement, sand, scale of metallurgical waste) in such a design allows reducing the cost of a reinforced concrete container by a factor of 5-6 compared with all-metal containers made of expensive forged shells.

 A reinforced concrete container for storing and transporting spent fuel assemblies of a nuclear reactor is proposed, including a reinforced concrete case with inner and outer finned steel shells, the space between which is filled with heat-resistant, plastic radiation-resistant concrete, and the reinforcement of concrete filling is made of steel rods with bends deployed in different sides at the ends, while all the heat rods with one bend are fixed over the entire surface of the inner steel shell, in rows in height ue and evenly around the circumference, and with another bend, are alternately connected with the corresponding bends of the heat-pipe rod from the adjacent upper and lower rows, forming trapezoidal brackets adjoining with their vertices to the inner surface of the outer finned steel shell, while perforated uniformly are installed in the spaces between the brackets gas pipes combined in a prefabricated manifold with a bursting safety membrane to eject vapors and gas from the concrete filling when the container enters ar fire.

 The invention is illustrated in the drawing, where in FIG. 1 shows the proposed container, FIG. 2 is a section along AA, in FIG. 3 node B, in FIG. 4 - bar-heat pipe with bends.

 The container consists of a body, which has an outer finned 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 rods-heat pipes 8 with the dead, deployed in opposite directions at the ends. The heat transfer rods 8 are fixed in one bend over the entire surface of the inner steel shell 3 and the bottom 4, in rows in height and evenly around the circumference. With another bend, the heat transfer rods 8 are connected alternately with the bends of the corresponding heat supply rod from the adjacent upper and lower rows alternately, forming trapezoidal brackets adjacent their tops to the inner surface of the outer steel shell 1 and the bottom 2. The space between the shells is filled with heat-resistant, plastic, providing radiation concrete protection 9. Between honey brackets from rods 8 are installed uniformly around the circumference of the L-shaped perforated exhaust pipes 10, combined into a prefabricated a collector 11, which through a safety membrane 12 has an outlet to the atmosphere to remove gas and vapors from the concrete filling when the container enters the fire. In the inner cavity of the container filled with an inert gas (nitrogen, helium), a cover 13 is installed with spent fuel assemblies of a nuclear reactor that have residual heat and activity.

Claims (1)

 Reinforced concrete container for storage and transportation of spent assemblies of fuel elements of a nuclear reactor, including a reinforced concrete case with an internal steel shell, bottom and sealed covers, characterized in that the body is equipped with an external finned steel shell, and the reinforcement of the concrete filling is made of steel rods with bends deployed in different directions at the ends, while the heat rods with one bend are fixed along the entire surface of the inner steel shell in rows in height and evenly along circles, and with another bend, alternately connected with the bends of the corresponding heat-conducting rod from the adjacent upper and lower rows, forming trapezoidal brackets adjacent their tops to the inner surface of the outer finned steel shell, while in the spaces between the brackets there are perforated gas outlet pipes connected uniformly around the circumference into a prefabricated manifold with a bursting disc.

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