RU2164447C1 - Method of disposal, sorting out and processing of hard society's refuse - Google Patents

Abstract

FIELD: municipal equipment. SUBSTANCE: hard society's refuse from residential and trade districts of town is removed separately. Refuse from trade districts of town is subjected to sorting out, and that from residential districts is subjected to compacting together with sorted out tailings. Manual sorting out of refuse is carried out at conveyor speed from 0.05 to 0.5 m/s, and mechanized sorting out, at conveyor speed from 0.8 to 1.2 m/s. Combined compacting of tailings and hard refuse from residential districts is done at content of sorted out tailings in mixture from 50 to 95%. Hard refuse from residential districts of town is removed by carriers, body capacity from 3.5 to 10 m³. Refuse from trade districts is removed by carriers, body capacity from 10 to 20 m³. EFFECT: improved efficiency of processing of hard refuse. 4 cl, 3 tbl, 2 dwg

Description

 The invention relates to the field of disposal, sorting and processing of municipal solid waste (MSW) and can be used in installations for their integrated processing and enrichment in cities of the Russian Federation.

 At present, in Russia, about 99% of the generated solid waste mass is removed by garbage trucks to landfills located, as a rule, at a considerable distance from the city. To reduce the cost of disposal, a two-stage removal of solid waste is practiced: from the places of accumulation of solid waste, they are removed by collecting garbage trucks to garbage transfer stations (MPS), where they are compacted (compacted, pressed), transferred to disposal facilities to disposal sites. In some cases, sorting is used on the MPS to extract waste components.

 A known method for sorting solid waste (AS Matrosov. Waste management. Publishing house "Gardariki", M., 1999, p. 121,123), including the manual selection of certain valuable components from the belt of a low-speed conveyor, on which "is divided and previously part of the black scrap metal (especially lump) is removed, and textile components and large fragments of plastic film are removed, blocking the waste on the conveyor and making it difficult for them to be manually selected. " To increase the efficiency of manual sorting, the waste is preliminarily divided into several fractions by size.

 The disadvantages of this method: the complexity of its practical implementation (MSW artificially divided by size into several streams, each of which requires its own equipment) and low reliability of the equipment (due to the presence of textile components in the MSW, they are difficult to screen by size in drum screens, clogging holes ) As a result - a small yield of useful products - only 12-14% of the original.

 The closest in technical essence and the achieved result to the invention is a method for the removal (removal), sorting and processing of solid waste, including the removal of solid waste from the places of formation by collecting garbage trucks, manual and mechanized sorting of waste with the recovery of waste elements and their compaction (L.G. Fedorov. Trends in the development of waste transfer stations in the Moscow region. Scientific and technical journal "Clean City", 1998, N 2, p. 8-9).

 The disadvantages of this method include the low efficiency of the removal of solid waste by collecting garbage trucks without differentiating the sources of formation and the extremely low efficiency of the subsequent removal of waste elements from the solid waste at the MPS, since a significant part of the solid waste from households (they account for 60% of all generated solid waste) is removed in its packed form (in bags, boxes, etc.), therefore manual sorting of certain components from the MSW stream is difficult. In addition, MSW from the residential sector contains 30-45% of food and plant residues that pollute other components and give MSW a specific unpleasant odor. Manual contact with MSW from the residential sector is contrary to sanitary and epidemiological requirements. The degree of compaction of solid waste without their differentiation is low.

 An object of the invention is to increase the efficiency of removal, sorting and processing of solid waste.

The stated technical problem is solved in such a way that in a method for the removal, sorting and processing of solid waste, including the removal of solid waste from the places of formation by garbage trucks, manual and mechanized sorting of waste and their processing by compaction, the removal of solid waste is carried out separately from the residential and non-residential sector of the city, waste is sorted from the non-residential sector, and compaction - waste from the residential sector of the city, together with the tailings of the sorting of waste from the non-residential sector of the city. In addition, manual sorting of solid waste is carried out on a low-speed conveyor belt at a speed of 0.05 to 0.5 m / s, and mechanized sorting on a conveyor belt moving at a speed of 0.8 to 1.2 m / s, with compaction of tailings of sorting and solid household waste from the residential sector is carried out with the tailings in the waste mixture from 50 to 95%. In this case, the removal of solid waste from the residential sector is carried out by garbage trucks with a body volume from 3.5 to 10 m ³ , and the removal of solid waste from non-residential sector is carried out by garbage trucks with a body volume from 10 to 20 m ³ .

 The invention consists in the following.

As a result of the studies, it was possible to optimize the system for the disposal, sorting and processing of solid waste based on the organization of immiscible waste streams at the stage of their removal from residential (home ownership) and non-residential (commercial and commercial enterprises, administrative and educational institutions, etc.) sectors of the city, separate their delivery to the processing complex, which creates favorable conditions for sorting waste from the non-residential sector of the city (the waste is enriched with waste paper and is characterized by low content eat food and plant residues) and joint compaction of sorting tailings and waste from the residential sector of the city. In this case, the removal of solid waste from the residential sector is carried out by small-capacity garbage trucks (body volume from 3.5 to 10 m ³ ), and the removal of solid waste from the non-residential sector by garbage trucks with a body volume from 10 to 20 m ³ , and the solid waste are sorted in different speeds (manual - at a conveyor speed of 0.05-0.5 m / s, mechanized at a conveyor speed of 0.8-1.2 m / s), and the joint compaction of the sorting tailings and MSW from the residential sector is carried out when the sorting tailings are kept in the waste mixture not less than 50%.

The invention is illustrated by drawings, where:
FIG. 1 shows a technological scheme of sorting and compaction of solid waste;
FIG. 2 - the effect of the composition of the waste on its compaction.

 An example of a specific implementation of the described invention.

 Studies were conducted on samples of solid waste from the residential and non-residential sectors of the city, as well as on their mixtures.

 The source material is removed from the non-residential sector of the city for the sorting of solid waste (Fig. 1). Using the methods of manual and mechanized sorting of solid waste transported by belt conveyors, valuable components (waste paper, glass, plastics, wood, textiles, metals) are isolated. The yield of useful products is 40% of the initial MSW from the non-residential sector, the tailings yield is 60%.

 The developed regime for the selection of useful products from solid waste in the non-residential sector of the city (manual sorting - on a low-speed conveyor belt at a conveyed waste stream speed of 0.05-0.5 m / s, mechanized sorting - on a conveyor belt at a speed of 0.8-1.2 m / s) contributes to the effective enrichment of solid waste with high technological parameters. In the table. 1 shows data confirming the validity of the described technical solution regarding the sorting of solid waste.

 An analysis of the results shows that only under optimal conditions for sorting solid waste, a high extraction of components into useful products is achieved (see Table 2): waste paper - 90, glass - 80, PET bottles - 80, polymer film - 50, wood - 50, ferrous metal - 90, non-ferrous metal - 80, textile - 80. When you go beyond the upper and lower limits of the speed limit, the loss of components in the tails increases. This is due to the fact that in the described method, the question of the optimal preparation of the waste stream for the extraction of metals was solved: when loading the tailings of manual sorting from the belt of a low-speed conveyor (0.05-0.5 m / s) to belts moving at a higher speed (0, 8-1.2 m / s) the material is loosened, disconnected and the thickness of the transported waste layer decreases. As a result, an almost monolayer waste supply to the metal sorting process is realized, which in turn provides an increase in the extraction of metals into the product with the least pollution by impurities. At the stage of manual sorting, the maximum extraction of components is achieved at a conveyor speed of 0.05-0.1 m / s.

 Sorting tails are quite uniform in size (mainly 200 mm) material that does not contain oversized and prepared for compaction without using crushing operations.

 The experiments showed (Fig. 2) that compaction of the sorting tailings together with MSW from the residential sector provides, with a certain ratio of waste, a better compaction of the material with the same force of the pushing plate of the sealing device. So, when the tailings content in the mixture of compacted waste is not less than 50%, the mass of waste compacted in the container increases by almost 20% compared with the compaction of mixed solid waste removed from the city without organizing separate flows from the residential and non-residential sectors.

 The increase in the degree of compaction is explained by the fact that with the joint compaction of waste, the volume occupied by air decreases due to changes in the composition and size of the waste subjected to compaction (Table 3), in particular, the content of PET bottles, glass and tin containers, bulky items, etc.

When implementing the method of separate waste disposal from the residential and non-residential sectors with a view to their subsequent selective collective processing, the system of solid waste removal is optimized: garbage trucks with a body volume of 3.5 to 10 m ³ are used to remove solid waste from the residential sector, and waste is removed from the non-residential sector - with a body volume of 10 to 20 m ³ . The use of small-capacity garbage trucks to remove solid waste from the residential sector of the city greatly facilitates the maintenance of container sites for collecting solid waste and contributes to the improvement of the composition of compacted waste (KGM - bulky and non-crushable materials practically do not fall into small-capacity garbage trucks, which increases the efficiency of subsequent compaction). Disposal of sorting waste from the non-residential sector by heavy-duty garbage trucks optimizes the preparation of waste for sorting (with a relatively small number of incoming garbage trucks, better conditions are created for inspecting the waste stream and its portioning into the process).

 Thus, the significant differences of the method are characterized by the novelty of the set of essential features - a change in the procedure for performing known operations and techniques: separate collection and organization of immiscible solid waste streams from the residential and non-residential sector with waste from the non-residential sector being sorted, and solid waste from the residential sector for compaction together with sorting tails provides a higher positive effect compared to the prototype (the result is an increase in the efficiency of sorting equipment at the same time SG simplifying technology, increase the degree of compaction at constant compacting force). As a result, the costs of disposal of solid waste are minimized, the turnover of collecting garbage trucks increases, commercial profits from the sale of products are obtained, the amount of waste is minimized, i.e. the most important city tasks are being solved.

 The described method, which is implemented in the design, construction and operation of complexes for sorting and compacting solid waste, is of great importance for the economic and social development of Russian cities.

 It is very important that the batching and briquetting section of the finished product, which is part of the complex, can accept part of the waste from recycling points (waste paper, aluminum) and from compact sources (waste paper) for processing, and the waste sorting section can take up waste, selectively collected in containers from the population.

 With a productivity of the complex for sorting and compacting solid waste of 150 thousand tons / year, serving a city (or part of the city) with a population of about 0.8 million inhabitants, 60 thousand tons of solid waste, which are removed mainly by small-tonnage garbage trucks, are compacted, 90 thousand .t solid waste removed from the non-residential sector of the city by heavy garbage trucks; sorting tails are compacted together with MSW from the residential sector (the content of tails in the mixture is about 50%). The yield of useful products is about 40% of the sorted waste (about 25% of the original). A 25% reduction in the amount of solid waste sent for burial and incineration, which does not require large capital investments, is a practical solution to the most important environmental and economic problems of Russian cities (primarily the Moscow region).

Claims (4)

 1. A method for the disposal, sorting and processing of solid household waste (MSW), including the removal of waste from the places of its generation, manual and mechanized sorting of waste and its processing by compaction, characterized in that the removal of solid waste is carried out separately from the residential and non-residential sector of the city, sorting waste from the non-residential sector, and recycling by compaction method - waste from the residential sector of the city together with the tailings of sorting waste from the non-residential sector.  2. The method according to p. 1, characterized in that the manual sorting of solid waste is carried out on a low-speed conveyor belt at a speed of 0.05 to 0.5 m / s, and mechanized - on a conveyor belt moving at a speed of 0.8 - 1 , 2 m / s.  3. The method according to claim 1, characterized in that the joint compaction of the sorting tailings and MSW from the residential sector is carried out with the content of the sorting tailings in the waste mixture from 50 to 95%. 4. The method according to claim 1, characterized in that the removal of solid waste from the residential sector is carried out by garbage trucks with a body volume of from 3.5 to 10 m ³ , and the removal of solid waste from non-residential sector by garbage trucks with a body volume from 10 to 20 m ³ .

Images