RU2393310C1 - Method for demolition and burial of buildings contaminated with toxic and poisonous substances, and flow line for its realisation - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: method includes treatment of structures by means of irrigation with aqueous solution of reagent. Building demolition is carried out with application of dust suppression. Prior to building damage a pit mortuary is arranged nearby, and a transporting trench is provided. Trench binds damaged building and pit mortuary. Damage of building is executed top down to the depth of foundation embedment by means of selective microexplosions. Large fragments are removed from damaged building. Construction wastes accumulated in process of damage are transported along trench into pit mortuary. At the same time serial reagent treatment of mass flow is carried out at the entry into trench and exit from trench into pit mortuary by solution of flocculants. Solution of flocculants contains anode and cathode groups of polymer macromolecules.

EFFECT: improved safety, provision of environmental safety of works, reduction of material expenses, time of demolition and burial of building.

5 cl, 1 dwg

Description

The invention relates to the field of construction work related to the demolition of industrial buildings and structures that produce highly toxic toxic substances, such as arsenic.

The known method (see RF patent No. 2301398, published in bul. No. 17, 06/20/2007, F42D 3/00, E04G 23/08) destruction of buildings to be demolished by explosion in the separation plane of the supporting structures.

A method of destroying buildings involves drilling holes in the plane of separation of the supporting structures of a building, placing elongated explosive charges in them with filling the mouth of the holes with drilling material, and installing an explosive network. Holes are drilled in load-bearing walls, at junctions and corners. The holes in the parallel walls are inclined towards the collapse of the walls, and the angle of inclination is taken equal to the angle of friction at the contact for the material of the walls. Drilled boreholes are alternately filled with a concrete mixture expanding during hardening and explosive charges with a water blockage in the central part and blasting means, after which they withstand the time necessary for the expanding concrete mixture to solidify and soften the building with inclined slots formed in the walls and vertical slots in the corners and adjoining.

The disadvantage of this method is that the destruction of the building structures is achieved using charges of high explosive strength, a significant mass of highly toxic fine particles in the form of dust is emitted and transferred over long distances. This method is unacceptable in the destruction of industrial buildings, the materials of building structures which are impregnated with highly toxic toxic substances such as arsenic, as it allows uncontrolled pollution of not only nearby buildings, but also adjacent territories, generally negatively affecting the life safety of people living on them.

As a prototype of the proposed method and production line is a method of detoxification of fragments of destroyed industrial buildings contaminated with lewisite and products of its transformations, and a production line for its implementation (see RF patent No. 2299100, publ. In bulletin No. 14 of 05.20.2007).

The method includes preliminary irrigation of a part of the building before destruction with a working aqueous solution of calcium hydroxide or with an aqueous extract from a cement powder with pH≥10, which ensures the conversion of toxic elements into a physiologically inactive, insoluble and non-volatile form, not harmful to the environment, subsequent mechanical fragmentation of building fragments into fractions ≤20 mm with simultaneous irrigation with an aqueous reagent solution for their complete detoxification and obtaining a precipitate of sparingly soluble arsenic compounds. The obtained fractions are mixed with cement mortar in the ratio of 1 part of the mass of crushed building material, 3-6 parts of sand, 1 part of cement and water in the amount necessary to create a paste-like mass. According to its toxicological characteristics, the mass belongs to the 5th class of hazard for the environment. The resulting mixture is introduced into the forms to obtain products in the form of blocks and plates made and used for their intended purpose. The sparingly soluble arsenic compounds formed during the processing of fractions from fragmented fragments of the building are transported and must be disposed of at a special landfill of arsenic-containing waste.

The disadvantages of the prototype are:

Two-stage detoxification (preliminary at the stage of processing building fragments for dust suppression, final - by processing fractions of specified sizes after crushing building fragments in order to obtain an insoluble arsenic compound). The process of obtaining fractions of a given size is time-consuming, the process of washing arsenic compounds from fractions to the MPC level in the soil is multi-stage, time-consuming and difficult to achieve.

The two-stage process of detoxification of a demolished building poses an environmental hazard to the environment and the safety of the population, requires large material costs and labor for the disposal, transportation and burial of toxic elements, the manufacture of blocks, the restoration of disturbed lands, as well as the fact that demolition and burial are intended only for a superstructure buildings and do not include other elements contaminated with toxic compounds - foundations and soils in the perimeter of the building to a depth immersed Iya foundation.

The simultaneous explosion of parts of the building is associated with a large emission of dust containing highly toxic compounds into the atmosphere and subsequent pollution of the soil-plant layer, surface and groundwater.

The prototype production line (RF patent No. 2299100, published in Bulletin No. 14 of 05/20/2007) consists of a device for dust suppression of a building to be destroyed, a device for building structure destruction by explosion, a crushing and screening complex for grinding building fragments to the required fraction size, reagent stations for decontamination of crushed material, a water treatment station for decontamination of fragments from arsenic, a working tank for converting arsenic from a soluble form into a precipitate, a dewatering device for removing water from the sediment, mouth oystva for transportation and storage of sludge in a cemetery; devices for controlling MPC for a decontaminated substance, such as arsenic.

The disadvantage of the production line is the high complexity of its installation, high operating costs for crushing fragments of the building, the alkaline treatment of fractions of the fragmented fragment is carried out at temperatures of 90-100 ° C, increased reagent consumption in adverse weather conditions - strong wind, high temperatures, additional transportation costs structures that have passed the stage of detoxification into the dump according to the hazard class of these wastes for the environment, the creation of a special landfill for disposal waste containing arsenic and arsenic compounds sparingly disposal in a special landfill.

The technical result of the invention is to increase the safety of the process of demolition and burial of fragments of the building, ensuring environmental safety of work while reducing material costs, time of demolition and burial of the building.

The result is achieved in that the method of demolition and burial of buildings contaminated with toxic and toxic substances, including pretreatment by irrigation with a prepared aqueous solution of the reagent, walls, ceilings and building envelopes and subsequent destruction of the building using dust suppression, differs in that they form before building destruction near it excavation pit with an impervious protective layer and construct a transport trench connecting the building to be destroyed and the excavation pit, at The walls and the bottom of the trench are treated with a reagent solution, the building is destroyed successively from top to bottom to the depth of the foundation by selective micro-blasting, large fragments formed during the explosion are removed from the building being destroyed, and the construction waste accumulated during the destruction is transported through the trench to the foundation pit, while sequential reagent processing of the mass flow is performed, at the entrance to the transport trench and the exit from the trench to the excavation pit, respectively, with a flocculan solution s containing the anode and cathode polymer macromolecules group linking toxic compound and mineral particles in the aggregates.

The method also differs in that the destruction of the building and the burial of fragments is carried out in stages with the allocation of at least three main technological stages: destruction of the building superstructure, excavation to the depth of the foundation inside the perimeter of the building, destruction of the foundation, while all types of work are carried out taking into account the building elevations , terrain, seismic conditions, mining requirements and environmental protection.

The method also consists in the fact that the soil removed during the formation of the excavation pit and the transport trench is reused during the reclamation of disturbed lands in the demolition and burial of buildings containing toxic substances.

The result is also achieved in that the production line for the demolition and burial of buildings contaminated with toxic and toxic substances, containing a device for the preparation and spraying of a reagent solution, is characterized in that it additionally contains a lifting and conveying complex, including lifting mechanisms and transport and scraper conveyors , storage bunker, devices for preparing and spraying flocculant solutions, while the scraper conveyor is located between the building and the storage bunker, rer associated transport conveyor mounted in the trench, with the burial ground-excavation, and apparatus for cooking and spray solutions of flocculants are located at the inlet and outlet of the trench.

The production line is also characterized in that the storage hopper is located at a distance from the building being destroyed at least twice the depth of the foundation of the building.

Demolition and burial of buildings contaminated with toxic substances by floor microexplosion and selective delivery of building fragments using the lifting and transport system to the foundation pit, processing fragments at the entrance to the transport trench and out of it with a solution of flocculants that bind toxic compounds and mineral particles into aggregates, subsequent restoration of land by using the volumes of soil stored during construction of the transport trench and excavation pit for mountains otehnicheskoy and biological reclamation, are essential features of the proposed invention, reducing the high cost of the work, reduce the production of works, removes the dangers of environmental pollution and ensuring the safety of the population.

Destruction of the building floor by floor from top to bottom, using a system of directional microexplosion, eliminates the instantaneous explosion of large power of the entire building.

The used demolition production line eliminates the use of a crushing and screening complex for crushing building fragments to the required fraction size, a reagent station for decontaminating fragmented material, a water treatment plant for deactivating building fragments from arsenic, a working tank for converting arsenic from a soluble form into sediment, and a dewatering device for remove water from the sludge, devices for transporting and storing sludge at a special waste arsenic waste landfill, build The use of a special landfill.

In FIG. the production line is shown, where 1 is a device for preparing and spraying a reagent solution, 2 is a device for preparing and spraying an anode solution of a flocculant, 3 is a crane, 4 is a scraper conveyor, 5 is a storage hopper, 6 is a transport conveyor, 7 is a device for the preparation and spraying of a cathode flocculant solution, 8 - a foundation pit.

The method is as follows.

In front of the building, intended for demolition and burial, a foundation pit is being built to store fragments of the building, regardless of their size, and a transport trench, one end of which is adjacent to the blind area of the building, the second is connected to the foundation pit at a height equal to the height of the cemetery filling with fragments of the building , foundation and soil contaminated with arsenic compounds, to the depth of the foundation. Then a production line is created, including: a device for preparing and spraying a reagent solution 1, a storage hopper 5, a scraper conveyor 4 located between the building and a storage hopper, a transport conveyor 6 installed in the transport trench, and devices for preparing and spraying working solutions flocculants 2 and 7 are installed at the entrance and exit of the trench.

The destroyed part of the building, using the device for the preparation and spraying of the reagent solution 1, is irrigated with a working (0.1 ... 0.05%) reagent solution, for example, polyacrylamide, the walls and the bottom of the transport trench and the foundation pit are irrigated with the same method burial ground, the surface of the soil around the building in the zone of influence of the demolition of the building. This process provides dust suppression during the destruction of the building, healing (closing) of open capillaries and cracks in building structures from penetration into them, during the destruction of the building, toxic substances, aggregation of fine dust into large particles and fixing them on the surface of structures, prevents the entry of toxic substances into underground and surface waters. This operation is possible not only with positive, but also with negative air temperature. In the latter case, the healing effect of open capillaries and cracks in building structures is increased.

The destruction of part of the building is carried out by directed microexplosions. The microexplosion system consists of an assembly connecting network, overhead charges and an explosion initiation device.

Large fragments of the building are transported to the excavation pit 8 using a crane 3, and small fragments, using a scraper conveyor 4, are delivered to the storage hopper 5, from which they are transported to the storage pit 8. The fragments of the building are processed respectively at the entrance to the transport trench and exit from the trench to the foundation pit by anodic and cathodic working solutions of flocculants containing groups of polymer macromolecules that bind toxic compounds and mineral particles into aggregates.

The amount of soil in the perimeter of the building to the depth of the foundation is taken out using earthmoving equipment used in the construction of the transport trench and the excavation pit, immersed in the receiving hopper and processed during transportation and burial in the same way as fragments of the building.

The destruction of the foundation is carried out after storage of the soil in which the foundation is immersed, and its transportation, treatment with flocculants and burial is carried out like fragments of a building.

After each stage of the destruction of the building, control samples are taken, which are treated with anodic and cathodic solutions of flocculants, then immersed in a container with distilled water and kept in it for a day, after which water is sampled and the content of water-soluble arsenic compounds in it is checked according to the procedure ( see A. A. Nemodruk. Analytical chemistry of arsenic. M., 1976, p. 59).

The proposed method for the demolition and burial of buildings contaminated with toxic and toxic substances, and a production line for its implementation, based on special physicochemical treatment with reagents prepared for the destruction of the building and its individual fragments, the binding of particles into separate aggregates when handling accumulated construction waste, burial of individual fragments of the building into the repository, subsequent reclamation of disturbed lands in the territory containing toxic substances, instrumental implementation of the method and with the help of technical devices in the line, they can reduce the pollution of the components of the environment and increase the safety of the population.

Claims (5)

1. The method of demolition and burial of buildings contaminated with toxic and toxic substances, including pre-treatment by irrigation with a prepared aqueous solution of the reagent walls, floors and building envelopes and the subsequent destruction of the building using dust suppression, characterized in that before the destruction of the building, a foundation pit is formed near it with an antifiltration protective layer and construct a transport trench connecting the destructible building and the excavation pit, while the walls and the bottom of the trench are they are treated with a reagent solution, the building is destroyed successively from top to bottom to the depth of the foundation by selective micro-blasting, large fragments generated during the explosion are removed from the building being destroyed, and the construction waste accumulated during the destruction is transported through a trench to the repository pit, and sequential reagent processing of the mass flow is carried out at the entrance to the transport trench and the exit from the trench to the repository pit, respectively, with a solution of flocculants containing anode and the cathodic groups of polymer macromolecules binding toxic compounds and mineral particles to aggregates. 2. The method according to claim 1, characterized in that the destruction of the building and the burial of fragments is carried out in stages with the allocation of at least three main technological stages: the destruction of the building superstructure, excavation to the depth of the foundation inside the perimeter of the building, the destruction of the foundation, while all types of work carried out taking into account the elevations of the building, the terrain, seismic conditions, requirements for mining and environmental protection. 3. The method according to any one of claims 1 or 2, characterized in that the soil removed during the formation of the excavation pit and the transport trench is reused during the restoration of disturbed lands on the territory of demolition and burial of buildings containing toxic substances. 4. A production line for the demolition and burial of buildings contaminated with toxic and toxic substances, comprising a device for preparing and spraying a reagent solution, characterized in that it further comprises a lifting and conveying complex, including lifting mechanisms and transport and scraper conveyors, a storage hopper, devices for preparing and spraying flocculant solutions, while the scraper conveyor is located between the building and the storage hopper, the storage hopper is connected by a transport conveyor A tester installed in a trench with a foundation pit, and devices for preparing and spraying flocculant solutions are located at the entrance and exit of the trench. 5. The production line according to claim 4, characterized in that the storage hopper is located at a distance from the building being destroyed at least twice the depth of the foundation of the building.

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