EA039204B1 - Method of reconstruction of unauthorized dump with conversion thereof into a solid domestic wastes landfill - Google Patents

Abstract

The invention relates to construction and operation of dumps. A method of reconstruction of an unauthorized dump, consisting of uncontrolled exported solid domestic wastes, with its conversion into a landfill involves vertical layout of a previously formed landfill body. Along the perimeter of the landfill body, an annular drainage of open type is performed, which includes waterproofing of the bottom, external slope and lower part of the internal slope of the drain trench, which at the point with the lowest bottom mark is interconnected with the water catching well, which is connected to the storage capacity of the water treatment station. The invention provides for saving of funds and time during recycling of an unauthorized solid domestic waste dump by converting it into a landfill without additional movement of wastes from landfill territory; reliability of the structure owing to increasing insulating properties of the landfill base from penetration of contaminated solid domestic wastes into it; minimization of negative impact of solid domestic wastes decomposition products on environment by washing wastes disinfectant solutions in a polygon body; elimination of negative impact on the environment of gaseous products formed in a solid waste landfill body and released periodically from the landfill body into the atmosphere.

Description

The present invention relates to the field of construction and operation of landfills for waste disposal and can be used for the safe storage of waste and reduce their negative impact on the components of the natural environment.

A known method of sanitary conservation of municipal solid waste, including applying to the surface of municipal solid waste a protective layer of air-permeable material from the waste of ferrous metal dust uncontaminated metallurgical production and dolomite flour, mixed in a ratio of 1:3, and to enhance the biocidal effect of the waste, ferrous metal dust uncontaminated metallurgical production a highly effective preparation Bio Z is introduced. The main methods of laying the protective layer of a breathable material are the thrust method and the push method (patent RU No. 2469805, class Bo9b 1/00, bull. No. 35, 2012).

The disadvantage of this method is the unreasonably high transportation costs for the delivery of breathable material from the waste of metallurgical production to unauthorized dump sites due to the location of metallurgical industries in a limited number of regions of Russia. The above method does not provide for the drainage of rainwater contaminated with landfill products and protection from their harmful effects on the soil, as well as the thrust and push methods will not allow for a qualitatively uniform distribution of breathable material over the surface of the landfill.

The closest to the invention in terms of technical essence is a method for placing waste in landfills consisting of uncontrolled removals of solid waste with their transformation into solid waste landfills, in which the upper parts of the previously formed landfill body and the surface of the section cut or cleared from solid waste are subjected to vertical planning and create a slope to the side of the cut or cleared area, a dam is erected along the lower contour of the planned cut or cleared area 0.5 m high above the level of the intra-dump technogenic aquifer from the soils of the layout of the cut or cleared area, then along the planned surface of the landfill body and the cut or cleared area, the internal slope and an impervious screen is constructed at the top of the dam, forming an intra-dump filtrate reservoir equipped with drainage pipes laid along the inner slope of the dam with a slope towards the wellhead pipe connecting the drainage pipes with the outer cut. filtrate storage ditch (patent RU No. 2431530, cl. B09B 1/0, bul. No. 29, 2011).

The disadvantage of this method is the direct contact of the landfill body with the base of the landfill, which, if the groundwater level rises to the bottom of the landfill body during a flood or high water, will lead to contamination of groundwater, and then the soil, with landfill decomposition products. The landfill does not have a system for periodic washing and disinfection of the dump body, which has a negative impact on the environment.

The technical problem that the invention solves is to increase the safety of MSW waste storage and reduce their negative impact on the environment by reconstructing existing unauthorized dumps and converting them into the category of MSW landfills, including a system for collecting and removing contaminated filtration effluents, a system for washing the body of the landfill with disinfectants solutions, as well as protection of the base of the landfill from the penetration of MSW pollution along with groundwater (for example, perched water in the spring when snow melts).

The technical problem is solved by equipping an open-type annular drainage along the perimeter of the planned landfill body with waterproofing of the bottom, the outer slope and the lower part of the inner slope of the drainage trench, which, at the point with its lowest bottom mark, is connected to a drainage well connected in turn to a storage capacity of the water treatment plant, and if the filtration coefficient of the natural soil of the base of the landfill is higher than 10 ^-8 m / day, then the base is artificially made less permeable, for which horizontal wells 0.5 L long are drilled in the inner walls of the drainage trenches (L is the linear size of the landfill), into which cement mortar is injected (the ratio of the mass of cement and water can vary from 0.1 to 2), which ensures the water resistance of the base soil and increases its strength. In addition, the mound of waste is compacted from above, reinforced with a system of perforated pipelines made of plastic that is resistant to temperature extremes and chemically aggressive environments, waterproofed and covered with an outer layer of bulk soil. The system of perforated pipelines makes it possible to provide periodic supply of special disinfectant or washing solutions to the body of the landfill, as well as collection and removal from the body of the landfill with subsequent disposal of the resulting gaseous products.

The technical result of the invention is a method for reconstructing a landfill with its transformation into a solid waste landfill, which is illustrated by the figures.

In FIG. 1 shows the plan of the solid waste landfill after reconstruction.

In FIG. 2 - section A-A in Fig. one.

The method for reconstructing a dump into a solid waste landfill consists in the vertical planning of a previously formed dump body 1, where an open-type ring drainage 2 with waterproofing 3 of the bottom 4, the outer slope 5 and the lower part of the inner slope 6 of the drainage trench is equipped along the perimeter of the planned dump body 1 7, which at point 8 with its lowest mark of the bottom 4 is connected with the drainage well 9, connected in turn with the storage tank 10 of the water treatment plant 11. If the filtration coefficient of the natural soil of the base 12 of the ^landfill 13 is higher than 10 12 is artificially made less permeable, for which horizontal wells 15 0.5 L long are drilled in the inner walls 14 of drainage trenches 7 (L is the linear size of the landfill 13), into which cement mortar is injected (the ratio of the mass of cement and water can vary from 0.1 up to 2). If the filtration coefficient of the natural soil of the base 12 of the polygon 13 is below 10 ^-8 m/day, then artificial grouting of the base is not performed, since in this case the soil is sufficiently waterproof. From above, the landfill body 1 is compacted, reinforced with a system of perforated pipelines 16 made of plastic that is resistant to temperature changes and chemically aggressive environments, waterproofed and covered with an outer layer 17 of bulk soil.

The method is carried out as follows.

The previously formed landfill body 1 MSW is subjected to vertical planning and given the shape of a landfill 13 in plan, after which an open-type annular drainage 2 is laid along the perimeter of the planned landfill body 1, consisting of profiled drainage trenches 7 of trapezoidal cross section. The bottom 4, the outer slope 5 and the lower part of the inner slope 6 of the profiled drainage trenches 7 are subjected to waterproofing, which minimizes the infiltration of runoff into the base of the landfill 13 of moisture formed in the body of the landfill 13 and penetrating into it in the form of precipitation. At the lowest point 8 of the annular drainage, a catchment well 9 is arranged, connected by a piping system to the storage tank 10 of the water purification station 11. The volume of the catchment well 9 and the storage tank 10 is calculated based on the amount of runoff of polluted water entering the drainage trench 7, as well as the performance of the water treatment plant 11. If the filtration coefficient of the natural soil of the base 12 of the polygon 13 is higher than 10 ^-8 m/day, the base 12 of the polygon 13 is made less permeable by injecting cement mortar (the mass ratio of cement and water can vary from 0.1 to 2) into horizontal wells 15 drilled in the inner walls of 14 drainage trenches 7 to a depth of 0.5 L (L is the linear size of the landfill 13). In the case when the filtration coefficient of the natural soil of the base 12 of the landfill 13 is below 10 ^-8 m/day, then artificial grouting of the base is not done, since the soil of the base 12 is sufficiently waterproof. From above, the landfill body 1 is planned and compacted, after which it is reinforced with a system of perforated pipelines 16 made of plastic that is resistant to temperature changes and chemically aggressive environments. After that, the body of the landfill is waterproofed from above to minimize the ingress of atmospheric precipitation and covered with an outer layer 17 of bulk soil to isolate MSW from the environment.

The system of perforated pipelines 16 is used for periodic supply of special disinfecting or washing solutions to the body of the landfill 13, which, passing through the solid waste disposed in the body of the landfill 13 and disinfecting them, enter the drainage trenches 7, and then sequentially into the drainage well 9 and storage tank 10 with subsequent treatment at the station 11 water treatment to prevent the negative impact of contaminated wastewater from solid waste on the environment.

The system of perforated pipelines 16 in the intervals between washings of MSW in the body of the landfill 13 ensures the collection and removal from the body of the landfill 13 of the gaseous products formed in it, which are subsequently disposed of to prevent the negative impact of waste on the components of the environment.

Using the proposed method allows

1) dispose of the dump of uncontrolled removal of solid waste by converting it into an engineering structure - a solid waste landfill - without additional movement of waste from the territory of an unauthorized dump, which will provide additional savings in money and time;

2) to increase the reliability of the structure by strengthening the water resistance of the base of the landfill, protecting it from the impact of groundwater contaminated with MSW runoff and thereby ensuring the protection of the environment from their harmful effects;

3) to provide washing with disinfectant solutions in the body of the landfill of the products of MSW decomposition, minimizing their negative impact on the environment;

4) eliminate the negative impact on the environment of gaseous products formed in the body of the solid waste landfill and released periodically from the body of the landfill into the atmosphere.

Claims (1)

A method for reconstructing a landfill when the filtration coefficient of the natural soil of the base of the landfill is more than 10 ^-8 m/day, including the vertical planning of a previously formed landfill body, characterized in that an open-type annular drainage is carried out along the perimeter of the landfill body, including waterproofing the bottom, the outer slope and the lower part of the inner the slope of the drainage trench, which, at the point with the lowest mark of the bottom, is connected to a drainage well connected to the storage tank of the water treatment plant, while horizontal wells 0.5 L long are drilled on the inner walls of the drainage trench, where L is the linear dimension landfill, into which a cement mortar is injected, in which the ratio of the mass of cement and water can vary from 0.1 to 2 to make the base less permeable, and the mound from the waste is compacted from above, reinforced with a system of perforated pipelines made of plastic, resistant to temperature changes and chemically aggressive environment, waterproofing and covering with an outer layer of bulk soil, through a system of perforated pipelines, special disinfecting or washing solutions are supplied to the body of the landfill, as well as collection and removal from the body of the landfill, followed by disposal of the resulting gaseous products.