RU153354U1 - CONSTRUCTION UNIT FOR CONSTRUCTION OF THE BASIS OF INDUSTRIAL BUILDING - Google Patents

Abstract

1. A building block for constructing the foundation of an industrial building, containing a monolithic concrete body with a cavity formed inside it with a cavity increasing in volume, made with a channel for placement of toxic, including radioactive waste, buried in the cavity, and adapted for sealing within the block filled cavity. 2. The building block according to claim 1, characterized in that the cavity walls are equidistantly removed from the corresponding external walls of the building block. 3. The building block according to claim 1, characterized in that the walls of the cavity of the block in its axial sections are equidistant from the surface of the sphere inscribed in the building block. 4. The building block according to claim 1, characterized in that the walls of the cavity of the block in axial sections from the side facing the adjacent block are removed at substantially half the distance equal to the minimum distance between the cavity and the wall of the block that is not facing the adjacent block.

Description

The technical solution relates to the field of construction, namely, to the construction of monolithic blocks manufactured at the plant or at the construction site for the foundation of erected or reconstructed structures, such as foundations and basement parts of nuclear power plants, ground or underwater foundations of structures, but can be used in industrial buildings where hazardous industries are located, products for the purification of technological, such as radioactive, liquid or polluted air require disposal. The proposed technical solution can be claimed in case of emergency directly in the production building to eliminate, as in the case of the Fukushima NPP, Japan, leaks of toxic materials into the environment.

A building block is known which contains a container in the cavity of which a container with radioactive waste loaded into it is placed, the space between the walls of the container and the walls of the container module forming is filled with bulk material (DE patent No. 4302536, 1994).

Also known is a sorption unit for cleaning liquid radioactive waste, containing an external protective container equipped with an upper removable lid, and an suspended internal cylindrical shell loaded in it in suspension, loaded with a sorbent, inlet and outlet pipes, split sealing assemblies, upper and lower distribution devices, and upper gripping device for changing the shell, while the inlet and outlet pipes are connected to the container at the same level and the replaceable shell is provided with a with a sweeping pipe for inlet and outlet of the solution and inlet and outlet pipes for connecting to the corresponding pipe nozzles of the container using a detachable sealing assembly having gaskets and for positioning the shell in a suspended state, the external protective container is made in the form of a steel or reinforced concrete module with holes for positioning in one or more cylindrical shells (RU No. 2101072, 01/10/1998).

Known building blocks do not provide adequate safety for environmental impacts during the burial of toxic, including radioactive, industrial wastes, since they require moving either a container containing such waste or moving the unit with such waste to its place burial places.

The technical task is to minimize the environmental impact during the operation of industries that have toxic, including radioactive, waste by placing it in a safe place at or near the production facility without their subsequent movement, including for reburial. The technical result is an environmentally friendly disposal of toxic waste directly in the production building.

The relevance of the task is confirmed by the events at the Fukushima nuclear power plant, Japan, and studies conducted from 2004 to 2007 by five research expeditions to determine the concentration of Cs ¹³⁷ in the water in the water column near the village of Rokkaso, Aomori, Japan, where the Japan Nuclear Fuel nuclear fuel recovery plant Ltd went through trial operation in March 2006. Large volume seawater samples were taken at the site of filtration and concentration systems at different depths in the water column. In the studied region, Cs ^{137 was} not detected on solid particles. Dissolved Cs showed temporal dynamics, especially in surface waters. Based on the results, it was concluded that no real Cs contamination was observed in the study area. Concentrations of Cs ¹³⁷ vary under the influence of the mixing of the Tsugaru and Kuril currents (Tsugaru and Oyashio). The dynamics of the distribution of Cs ¹³⁷ by time and space in the effluent of a nuclear fuel processing plant in Rokkaso, Aomori, Japan was established // Takahiro Nakanishi, J Radioanal Nucl Chem (2010) 283: 831-838.

The task is achieved in that the building block for the construction of the base of an industrial building contains a monolithic concrete body with a cavity formed inside it using an inflatable hollow core, made with a channel for placement of buried toxic, including radioactive waste in the cavity, and adapted for sealing within the block filled cavity. In this case, it is advisable that the walls of the cavity are equidistant from the corresponding outer walls of the building block or the walls of the cavity of the block in its axial sections are equidistantly removed from the surface of the sphere inscribed in the building block or walls of the cavity of the block in its axial sections from the side facing the adjacent with it the block, removed at essentially half the distance equal to the minimum distance between the cavity and the wall of the block, not facing the adjacent block.

In FIG. 1 shows a building block with a cavity and a hollow core removed through the channel (however, the hollow core can be left in the block to improve the sealing of the cavity).

The building block for the construction of the base of an industrial building contains a monolithic, i.e. formed by molding in one technological process, the concrete body 1 with a channel 2 leading to a cavity 3 formed by expanding in the volume (for example, inflatable or expanding) void formers 3. Channel 2 is intended for supplying (introducing) into the cavity 3 toxic substances stored therein including radioactive waste. Channel 2 is adapted for sealing within the volume of block 1 of a cavity filled with waste, for example, cementing, pouring concrete mixture with monolithic (with curing, for example preliminary) the contents of the cavity. The equidistant removal of the cavity walls from the corresponding external walls of the building block (shown by arrows in Fig. 1) or the equidistant removal of the cavity wall of the block 1 in axial sections from the surface of the sphere inscribed in the building block 1 ensures the environmental impact of waste in all directions and ensures the safe use of the building block as a building block, i.e. for the construction of building structures in compliance with environmental requirements. If the blocks are installed in rows horizontally or vertically and the possibility of their subsequent separation is not assumed, then it is possible to reduce the thickness of the walls of the block in the direction of adjacent (connected to it) blocks. As a result of this, to ensure equal environmental safety, the walls of the cavity of the block 1 in axial sections from the side facing the adjacent block are removed by essentially half the distance equal to the minimum distance between the cavity and the wall of the block not facing the adjacent block.

The use of blocks 1, placed in the structure of the structure and which are an integral part of the structure of the structure itself, is advisable both during the operation of an environmentally hazardous facility and in the event of emergency situations involving the release of toxic and / or radioactive waste. Thus, these toxic substances (waste), both in the working process and in emergency situations at the factory, will not go beyond the structure in which they were formed, safely located in its building structures.

Claims (4)

1. A building block for constructing the foundation of an industrial building, containing a monolithic concrete body with a cavity formed inside it with a cavity increasing in volume, made with a channel for placement of toxic, including radioactive waste, buried in the cavity, and adapted for sealing within the block filled cavity. 2. The building block according to claim 1, characterized in that the cavity walls are equidistantly removed from the corresponding outer walls of the building block. 3. The building block according to claim 1, characterized in that the walls of the cavity of the block in its axial sections are equidistantly removed from the surface of the sphere inscribed in the building block. 4. The building block according to claim 1, characterized in that the wall of the cavity of the block in axial sections from the side facing the adjacent block is removed at substantially half the distance equal to the minimum distance between the cavity and the wall of the block not facing to an adjacent block.

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