RU153165U1 - CONCRETE STRUCTURE OF THE FOUNDATION OF THE INDUSTRIAL BUILDING - Google Patents

Abstract

1. The concrete construction of the base of the industrial building, made at the place of its construction, containing a monolithic concrete body with a cavity formed inside it using a cavity, a channel for placement of toxic, including radioactive waste in the cavity, a channel for the release of a medium transferring toxic waste, in which the filter is located, adapted for the complete monolithization of the channels and the entire volume of the cavity together with the waste placed in it. 2. Concrete structure according to claim 1, characterized in that a waste container is used as a blowing agent.

Description

The technical solution relates to the field of construction, namely, to the construction of monolithic foundations of erected or reconstructed structures manufactured at the construction site, such as foundations and basement parts of nuclear power plants, ground or underwater foundations of structures, but can be used in industrial buildings in which harmful production.

It is known that the structure contains tanks or capsules located in storage rooms equipped with ventilation inlet and outlet channels connected to the atmosphere by air ducts, the vents of the ventilation channels of the storage room are communicated with the atmosphere through a common central outlet duct of the vertical tower, the ventilation ducts in the storage rooms are located in their lower part, and the inlet windows of the inlet ducts associated with the atmosphere are located at a level lower than the outlet section of the central air duct (RU No. 2331127, 12/10/2007).

A structure is known in which a filter is placed in the form of a porous matrix, processed to obtain a sorbent in the form of a spongy molded body through which radioactive waste is passed, and the spent sorbent is sent for disposal with the filter (RU No. 2091874, 09/27/1997).

The closest known structure is a structure made using blocks installed in the design position, made in the form of containers of concrete, in which containers filled with radioactive waste are placed before the containers are placed in the structure, and the space between the block walls and the walls of the containers is also filled with a mixture of radioactive waste with a binder material, but in a less concentration than in containers, with the top of the block capacity being closed with detachable joints connected to it and the cover (patent US №5545796, 1996).

The disadvantages of the known technical solutions is

the need to make manipulations with radioactive materials to place containers containing them in blocks and transport operations with blocks containing radioactive materials, which negatively affects the safety of work and requires additional labor costs for measures and means to protect personnel performing these measures.

The objective is to ensure the environmental safety of the facility under construction, as a result of production or emergency processes in which toxic, including radioactive wastes occur, by preventing the possibility of the spread of toxic wastes, including radionuclides, beyond the boundaries of the facility. The solution to this problem is aimed at eliminating the hazardous collection of toxic waste in containers and the equally dangerous movement of individual containers containing, including radioactive nuclides, for their subsequent placement in a protective container and traditional disposal.

The relevance of the task is confirmed by the events at the Fukushima nuclear power plant and earlier (from 2004 to 2007) conducted by five expeditions to determine the concentration of Cs ¹³⁷ in the water of the water column near the village of Rokkaso, Aomori, Japan, where the Japan Nuclear Fuel Ltd nuclear fuel regeneration plant passed 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 ¹³⁷ showed temporal dynamics, especially in surface waters. Based on the results, it was concluded that no real Cs ¹³⁷ 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 problem is achieved in that the concrete construction of the base of the industrial building, made at the place of its construction, contains a monolithic concrete body with a cavity formed inside it using a cavity, a channel for placement of toxic, including radioactive waste in the cavity, a channel for the release of transporting toxic wastes of the medium in which the filter is located, adapted for sealing within the volume of the concrete structure of the filled cavity, by monoling the channels and this volume of the cavity along with the waste placed in it. A waste container may be used as a blowing agent. The term "monolithic" refers to a product manufactured primarily in the design position at the construction site under construction. The term “toxic” waste may include, depending on the type of production activity, (for example, nuclear power plants) and radioactive waste.

In FIG. 1 shows a concrete structure for the construction of an industrial building.

The base of the industrial building contains a monolithic concrete body 1 made at the construction site of the industrial building with a channel 2 and a channel 3 for the release of a toxic waste transfer medium in which a filter 4 is placed. Through channel 2, toxic buried directly in the concrete body 1 is fed (placed) to the concrete body 1 waste. The cavity 5 is formed inside the concrete body 1 with, for example, a waste container or an inflatable void forming chamber, followed by extraction or leaving in the body 1 to increase its impermeability, which positively affects the environmental safety of the environment. Channels 2 and 3 are adapted for monolithing (for example, they have broadening along their length, which ensures the formation of fixed plugs of the sealing material supplied to them or increased adhesion to the sealing material, etc.). Monolithization is carried out within the entire volume of the cavity containing toxic, including radioactive wastes, which excludes any impact on them and positively affects environmental safety by preventing the formation of possible leakage pathways - cracks, microcracks, etc. as a result of the fact that the material is directly in the body 1. With a significant length of the base, it is advisable to divide the cavity into sections along the length of the base, each of which has a channel for placement of buried toxic waste in the cavity, adapted to monolize the cavity.

The proposed technical solution can be in demand at the plants, including as a reserve, where emergencies can occur directly in the production building, to eliminate the leakage of toxic materials into the environment.

Claims (2)

1. The concrete construction of the base of the industrial building, made at the place of its construction, containing a monolithic concrete body with a cavity formed inside it using a cavity, a channel for placement of toxic, including radioactive waste in the cavity, a channel for the release of a medium transferring toxic waste, in which a filter is placed, adapted for the complete monolithization of the channels and the entire volume of the cavity together with the waste placed therein. 2. Concrete structure according to claim 1, characterized in that a waste container is used as a blowing agent.

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