RU2310525C1 - Method for safe utilization of household waste - Google Patents

Abstract

FIELD: process for utilization of mixed waste including solid household waste, construction waste, industrial waste, in particular, process for safe utilization of household waste.

SUBSTANCE: method involves sorting out collected household waste into five groups of waste; first group including organic and food waste; second group including wood, pressed wood-fiber board; third group including textile waste, laminate, paper, cardboard, foam plastic; forth group including rubber, reinforcing materials, polyethylene, glass, ceramics; fifth group including miscellaneous waste; carrying out further processes in groups; subjecting components of first group to intensified composting; filling resultant compost with mineral fertilizers; mixing with plant seeds; granulating and using in forming of road embankments, slopes and territories adjoining road; grinding waste of second group; adding resultant ground waste to concrete mixtures as filler in an amount of up to 10% to form power and contoured modules for borders, edges of roadway, drainage members and road ditches; grinding waste components of third group and mixing with sand and air-hardening lime, with components being used in the following ratio: sand 80%, air-hardening lime 10%, household waste of third group 10%; forming substrate members to be used under asphalt carpet by pressing resultant mixture while heating up to 150 C; grinding components of forth group and adding in an amount of up to 5% by weight into asphalt carpet compound and simultaneously introducing common mineral components; uniformly placing excessive components of this group in top layer of road embankment; using waste of fifth group in roadway for forming of lower layer.

EFFECT: increased efficiency by utilizing total mass of household waste in road construction.

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Description

The present invention relates to methods for the disposal of mixed waste, including municipal solid waste, construction waste, industrial waste, and in particular to methods for the safe disposal of household waste.

A known method of processing mixed waste includes the separation of waste into various fractions, passing them through several processing operations, conducting waste separation in an aqueous medium, transporting the ground waste together with the liquid to the pulp former, dissolving these materials there, separating the pulp into various fractions, disposing of the obtained fractions ( Patent RU 2279934 C1). According to the invention, a batch of mixed waste is fed in batches to a receiving and transmitting device, then during the preliminary sorting, a batch of mixed waste is divided into four streams in size and separator, then part of the waste from the first stream after secondary sorting, as well as waste from the second and third the stream is washed, disinfected, dewormed in washing drums, and the waste from the fourth stream after separation of ferrous and non-ferrous metals from them is sent to the unit for processing washes and waste, where they also manage all liquid washes with the wastes dissolved in them and where small fractions of wastes and washes are grinded and fed to a pulp former, in which they are successively treated with reagents to break down fats and convert heavy metals into soluble compounds, the mineral part is first extracted from the pulp , then the remaining part is treated with a powerful electromagnetic field, then the activated pulp is treated with a coagulant in order to intensively precipitate the organic part, which after dehydration living materials are mixed with various additives and granulated in order to obtain complex organic fertilizers, and reagents are added to the remaining solution in order to obtain two products at the output: a mixture of “heavy metals” hydroxides, which are accumulated before the industrial batch for processing, and purified water suitable for new cycle entering the water cycle. This method does not allow for complete disposal of waste at the place of collection.

There are also known methods of using individual components of household waste in the construction of roads, consisting in the allocation of waste polymers, rubber, fibrous materials, their grinding and inclusion in the coating of the roadway (patent RU 2026323 C1). The disadvantage of such technologies is their increased cost, since these components are improving additives manufactured and supplied from other industries. Accordingly, the partial intended use of waste products does not really affect the change in the ecology of the region, since it does not remove the problems of open landfills, on which the remaining unused components focus.

Known methods of waste disposal by burial under a layer of soil (in quarries, ravines, karst cavities or in specially prepared landfills). Such methods, while ensuring external cleanliness (in comparison with open landfills), are characterized by increased labor costs and really do not allow the possibility of economic use of occupied territories for at least 20-50 years. In addition, waste buried in this way should be recognized as lost for future use, even if over time there are needs and new technological possibilities for their processing.

Known methods for the disposal of household waste also include advanced modern recycling schemes based on preliminary multicomponent sorting. The resulting secondary resources are transferred to consumers for use as fuel, raw materials or additives to the main raw materials needed in the production of new products. Unsorted waste residues in this method are subject to compaction and burial under a layer of soil.

The disadvantage of these methods is the need to alienate territories for landfills, within which for a long period only landscaping is possible.

The closest to the essence of the claimed invention is the "Method for producing compositions for road and hydraulic engineering" (patent RU 2026323 C1). The proposed method and line for its implementation are aimed at eliminating the above disadvantages. The technical result of the invention is as follows: the ability to conduct a comprehensive primary sorting by size with the disposal of all components of the mixed waste, including the fine fraction, with the final separation from it of the organic part, converted into organic fertilizer, and a mixture of hydroxides "heavy metals "Sent for processing. The disadvantage of this technical solution is the inability to use the entire mass of household waste for road construction.

The technical task of the invention is the creation of such a method of safe disposal of household waste, which would allow to use the entire mass of household waste in road construction without the need to alienate special areas remote from housing for landfills, as well as maintaining the possibility of extraction and subsequent processing of some groups of waste that are in demand for household or other needs.

The technical result of the invention is achieved by the fact that the method of safe disposal of household waste includes sorting waste directly in the road construction zone and their further processing.

According to the invention, five groups of waste are sorted from collected household waste. The first group of waste includes organic and food waste. The second group of waste includes wood, chipboard. The third group of waste includes textiles, paper, laminate, cardboard, foam. The fourth group includes rubber, reinforcing materials, polyethylene, glass, and ceramics. Other waste forms in the fifth group of waste. Further waste processing is carried out in groups, while the components of the first group are subjected to accelerated composting. The resulting compost is filled with mineral fertilizers, mixed with plant seeds, granulated and used in the formation of road embankments, slopes and territories adjacent to the road. The components of the second group are crushed, added as filler to concrete mixtures in an amount of up to 10%, from which power and contour modules are formed for borders, edges of the roadway, drain elements and ditches. The components of the third group are crushed and mixed with sand and air lime in the following ratio of components:

sand 80%

air lime 10%,

household waste of the third group of 10%.

Then, from the resulting mixture, by pressing under heating to 150 ° C, substrate elements for asphalt concrete coatings are formed. The components of the fourth group are also crushed and added in an amount of up to 5% by weight to the composition of the asphalt concrete pavement simultaneously with the introduction of the usual mineral components, and the excess components of this group are evenly placed in the upper layers of the road embankment, the waste of the fifth group is used in the roadway when forming the lower layer.

To be able to control the utilized waste during the formation of the lower layer of the road embankment using the components of the fifth group, RFID tags containing information about the type, composition and timing of waste disposal are put into the array of the latter.

To increase the wear resistance of the roadway by compaction of the substrate layers, plasma welding of the upper layer of the road embankment is additionally performed by plasma jet before laying the asphalt concrete pavement.

The invention is further illustrated by an example of a specific implementation.

The method of safe disposal of household waste can be carried out as follows. In the area of the proposed construction of the road, household waste is collected, then the waste is sorted manually on mobile vehicles (conveyor). Household waste is sorted into the following groups. The first group of waste includes organic and food waste. The second group of waste includes wood, chipboard. The third group of waste includes textiles, paper, laminate, cardboard, foam. The fourth group includes rubber, reinforcing materials, polyethylene, glass, and ceramics. Other waste forms in the fifth group of waste.

Combined technologies include the following. The components of the fifth group are directly laid in a road embankment together with gravel, crushed stone, sand and soil in the lower layers of the embankment in an amount of up to 20% and compacted. The components of the third group are subjected to preliminary grinding, then they are mixed with sand - 80%, air lime - 10%. From the resulting mixture, by pressing when heated to 150 ° C, substrate elements are formed under an asphalt concrete coating. Elements can be made in the form of plates of various sizes, volume blocks and other profiles. The components of the second group are also crushed and added as a filler in the finished concrete mixes in an amount of up to 10%. Power and contour modules for curbs, edges of the roadway, drain elements and cuvettes are then made from such concrete mixtures by casting. The components of the fourth group are crushed and added in an amount up to 5% by weight to the composition of the asphalt concrete coating simultaneously with the introduction of conventional mineral components. In this case, the excess components of the fourth group are evenly laid in the upper layers of the road embankment.

The components of the first group are subjected to accelerated composting using one of the known methods. Next, the resulting compost is filled with mineral fertilizers, mixed with seeds of soil-strengthening plants, granulated. The prepared soil mixture is used in the formation of road embankments, slopes and territories adjacent to the road.

To control the waste used in the claimed method, radio identification tags are used. The so-called RFID tags are an analogue of the well-known bar code used to control the movement of products in supermarkets. When forming the lower layer of the road embankment using the components of the fifth group of waste, labels that are stored on the waste from the period of sale of the goods and new RFID tags with information about the type, composition and timing of waste disposal are laid.

The use of the technology of volume welding of materials with a water-plasma jet of the well-known “multiplase” device described in RF patent 2112635 is carried out to compact the upper layer of the road before laying the asphalt concrete pavement.

The present invention can be used in the field of waste management and contributes to the improvement of environmental cleanliness in the regions through the implementation of the most complete utilization of household waste by combining technologies for the processing of municipal solid waste and the preparation of materials, elements and products for road construction.

The claimed method has high environmental efficiency, due to the possibility of quickly stopping the use of open and phased elimination of previously created waste landfills based on the use of the naturally occurring proximity of the latter to roads. Full utilization of household waste. In addition, the proposed method allows you to safely and reliably save some components of the waste under the roadway, for the disposal of which at present no effective recycling methods have been found. Recognition of such waste is possible by RFID tags.

Claims (3)

1. A method for the safe disposal of household waste, including the sorting of waste directly in the road construction zone and their further processing, characterized in that five groups of waste are sorted from household waste, the first group of waste includes organic and food waste, the second group of waste includes wood, Particleboard, in the third group of waste include textiles, paper, laminate, cardboard, foam, in the fourth group include rubber, reinforcing materials, polyethylene, glass, ceramics, other waste is formed in the heel waste group, further waste processing is carried out in groups, while the components of the first group are subjected to accelerated composting, filled with mineral fertilizers, mixed with plant seeds, granulated and used to form road embankments, slopes and territories adjacent to the road, the components of the second group are crushed, added to as a filler in concrete mixtures in an amount of up to 10%, from which power and contour modules are formed for borders, edges of the roadway, drain elements and ditches, components The enta of the third group are crushed and mixed with sand and air lime, with the following ratio of components: sand - 80%, air lime - 10%, household waste of the third group - 10%, then the elements are formed from the mixture by pressing when heated to 150 ° C. substrates for asphalt concrete coatings, the components of the fourth group are also crushed and added in an amount up to 5% by weight to the composition of the asphalt concrete coating simultaneously with the introduction of conventional mineral components, and I evenly lay the excess components of this group the upper layers of road embankments, waste fifth group used in road surface in the formation of the lower layer. 2. The method according to claim 1, characterized in that when forming the lower layer of the road embankment using the components of the fifth group, RFID tags containing information about the type, composition and timing of waste disposal are placed in the array of the latter. 3. The method according to claim 1, characterized in that they additionally carry out volumetric welding with a plasma jet of the upper layer of the road embankment before laying the asphalt concrete pavement.