RU2772178C1 - Method for complex processing of mixed solid waste - Google Patents

Abstract

FIELD: solid waste processing.

SUBSTANCE: invention relates to a method for the complex processing of mixed solid waste, in particular construction waste, demolition of buildings, structures and soil (СSaSW), and can be used at organized production sites or sites for the reclamation of disturbed lands. The method includes acceptance, express control, distribution of raw materials into two streams according to their state of aggregation and types of origin, processing of the first stream of raw materials in the form of construction and demolition waste of IV and V hazard classes, mechanical sorting by area of ​​use, separation of metal inclusions as a secondary product disposal, separate processing of the remaining raw materials using successive methods of fragmentation, screening, crushing and grinding to obtain demanded secondary processing products in the form of secondary crushed stone in three fractions, polymer raw materials and wood chips. Processing of the second stream of raw materials in the form of bulk soil waste of III, IV, V hazard classes includes the separation of soil according to hazard classes, separate screening, in which the isolated large inclusions and debris are sent to the first stream, mixing each separated soil with components to obtain two demanded mechanical mixtures. At the same time, the first mixture is obtained by mixing soils of III and V hazard classes, sorbent and secondary crushed stone with a fine fraction from the first flow, and the second mixture - soils of V and IV hazard classes, wood chips from the first flow, sorbent and organic waste.

EFFECT: increasing the efficiency of waste processing СSaSW, obtaining secondary products in demand or new ones in which secondary products are used.

4 cl, 1 dwg

Description

The invention relates to the field of ecology, and in particular to a method for the complex processing of mixed solid waste, in particular construction waste, demolition of buildings, structures and soil (OSSG), and can be used at organized waste processing production sites or at organized sites for the reclamation or conservation of disturbed lands .

At present, the growth in the volume of new construction, overhaul, reconstruction and demolition of obsolete buildings entails the formation of a significant amount of OS&G, which can later be used as a secondary material resource. The development of a waste-free technology for the utilization of OSS&G and the production of demanded products from them is currently relevant. Attention to this issue was served by: the project of the Government of the Russian Federation - the waste reform, which started in January 2019, and documents, in particular, the order "Requirements for OSSG processing facilities", approved by the Ministry of Ecology and Nature Management of the Moscow Region dated February 25, 2021 No. 134 -RM and dated August 24, 2021 No. 914-RM, as well as Decree of the Government of Moscow dated August 26, 2020 No. 1386 "On approval of the Procedure for handling construction and demolition waste in Moscow".

The prior art methods for the processing of mixed solid waste, including SSGS. According to one of the technologies, fractionated crushed stone is obtained from concrete scrap, which is used as a material in roadworks, or as additives in the production of concrete and in reinforced concrete structures (RU No. 2437722 op. 27.12.2011, B03B9 / 06 B09B3 / 00) , and according to another technology, secondary crushed stone with fraction sizes in a wider range is obtained from concrete scrap, which makes it possible to increase the efficiency of disposal (RU No. 2503730, op. 10.01.2014 C22B 7/00 B09B9/06). However, the disadvantage of these methods is that as a result of the processing of building recyclables, single types of secondary products are obtained, and the main part is not utilized and goes into the category of waste.

A known method of processing mixed waste containing, among other things, soil from overburden and crushed construction and demolition waste. The method allows to obtain popular products for soil restoration in the form of humic fertilizers, artificial biological soil and technical soil (RU, No. 2484024 C2, CO2F 11/02, op. 2013). This method is costly and energy-consuming, since it uses a large amount of chemical reagents (potassium or sodium oxide hydrate, zinc sulfate salts, lowland peat) and an electroplasma installation.

Also known are methods of disposal of OSSiG, including sanitary disposal of waste into the soil during the dismantling of buildings and structures. According to the disposal technology, a destructible structure is treated with a reagent for dust suppression, a burial pit and a transport trench are formed near the structure, the waste stream at the entrance and exit from the trench is treated with a flocculant (No. 2393310 op. in the pit, they are treated by leaching, and the resulting wastewater enters the water treatment plant (RU No. 2633397, op. 12.10.2017, B09B3 / 00). These methods require large material costs, labor costs and lead to contamination of the soil-vegetative layer and surface and groundwater. In addition, according to the order of the Government of the Russian Federation dated July 25, 2017 N 1589-r., direct burial of OSSiG in the ground is prohibited.

Known methods for processing solid construction waste and re-engaging them in production, including washing, crushing, separation into fractions, magnetic separation, re-washing, treatment with 10% hydrochloric acid, and the use of the resulting substrate as part of a slag-forming mixture (RU, No. 2186637, op. 08/10/2002, B07B9 / 00), or including crushing to a dimension of 0.01-1 mm, and obtaining a substrate according to the above method, but at the same time, a chemical analysis of the resulting substrate and slag-forming mixture is carried out, and using a mathematical method of calculation during processing determine the specified ratio of the resulting substrate in the slag (RU, No. 2677550, op. 17.01.2019, B09B3/00). These methods are technologically complex and, moreover, economically disadvantageous.

The closest in technical essence to the claimed method, and which is accepted by the applicant as a prototype, is a well-known method for the complex processing of mixed solid waste, including construction waste, described in patent RU, No. 2279934 C1, op. July 20, 2006, B09B 3/00). The method includes acceptance, express analysis to identify hazardous waste, distribution of feedstock into four streams, processing of waste in each individual stream with the accumulation of secondary materials that are used from one stream as components during processing in other streams. The technology of waste processing in each stream is multi-stage and includes: washing, disinfection, deworming, separation of ferrous and non-ferrous metals, sorting, grinding, combining streams, processing with chemical reagents, pulp formation, separation of the mineral part, activation by an electromagnetic field, dehydration and granulation.

The disadvantage of this method is that the technology uses mechanical and chemical means that complicate the processing of waste, make the processing technology time-consuming and costly. In addition, the method does not allow efficient separation of constituent components directly from construction waste.

The objective of the present invention is to develop such a technology for the processing of OSSG, which ensures the complexity of the recycling approach aimed at the waste-free extraction of constituent components from waste and the production of demanded products from them.

The technical results of the claimed invention are to increase the efficiency of waste processing OS&G and achieve complexity aimed at the disposal and processing of raw materials, while obtaining both high-demand secondary products and new ones that use secondary products. In addition, the technical results are the expansion of the range of use, in particular, the possibility of using the method in the reclamation and conservation of disturbed lands, as well as the fact that construction waste will become a more demanded recyclable material, and its cleaning and processing will be a profitable direction, and, as a result, will be increase the profitability of the collection and deposition of generated waste.

These technical results are achieved by the fact that in the well-known method of complex processing of mixed solid waste, including acceptance, express control, distribution of feedstock into streams, processing of each individual stream with the accumulation of secondary processed products in them, the last of which are some of the streams used as components when processed in other streams, in the proposed method, construction waste, demolition waste of IV and V hazard classes and loose soil waste of III, IV and V hazard classes are used as mixed solid waste, the feedstock is distributed into two streams according to the state of aggregation and by type of origin, at the same time, construction and demolition waste of IV and V hazard classes are sent to the first stream of processing, and loose soil with III, IV and V hazard classes is sent to the second stream, and which is stored separately according to hazard classes, waste processing in the first stream includes mechanical sorting of raw materials by area of use, highlighting scrap concrete and asphalt concrete, wood residues, plastic and metal inclusions, the last of which are separated by magnetic separation, accumulated and, as a secondary product, sent for use, then, after the accumulation of each type of sorted raw material, they are separately fragmented, obtaining secondary crushed stone of a large fraction from scrap concrete and asphalt concrete, wood semi-finished product from wood residues and polymeric raw materials from plastic, the latter of which is accumulated and, as a secondary product, sent for use, secondary crushed stone of a large fraction is subjected to screening, obtaining secondary crushed stone with fine, medium and coarse fractions, and crushed stone with a fine fraction, after accumulation, is used as a component in the second processing stream, and crushed stone with medium and large fractions is separately accumulated and, as secondary products, sent for use, the semi-finished wood product is subjected to successive crushing and grinding, obtaining wood chips, which the torus is accumulated and used as a component in the second processing stream and as a secondary product that is sent for use, when processing waste in the second stream, each loose soil of III, IV, V, hazard classes is separately screened, while separating large inclusions and debris, which are sent to the stage of mechanical sorting of waste of the first stream, the sifted soils are separately accumulated according to hazard classes and then each of them, in the form of a constituent component, is fed for mixing with secondary products from the first stream, with a sorbent and with organic waste, while obtaining two products , in the form of mechanical mixtures, moreover, the first mixture is obtained by mixing soils of hazard class V and III, crushed stone from the first flow and a sorbent, and the second mixture is obtained by mixing soils of hazard classes V and IV, wood chips from the first flow, sorbent and organic waste.

In addition, the distinguishing features are that the sizes of fractions of crushed stone secondary on the first stream are: fine - 0-20 mm, medium - 20-40 mm; large - 40-80 mm; that in the first processing stream, wood chips are crushed to a size of 200-300 mm, and crushed to a size of 50-100 mm, and that the aluminosilicate mineral Glauconite is used as a sorbent, and a mixture of sludge and agro-industrial complex waste is used as organic waste, having the ratio components as 9:1.

The analysis of the prior art carried out by the applicant did not reveal sources containing information about analogues of the claimed invention, which would have signs identical to the totality of the essential features of the claimed invention, which allows us to conclude that it meets the criterion of "novelty".

To verify the compliance of the claimed invention with the criterion of "inventive step", the applicant conducted an additional search for known solutions to identify features that match the identified distinguishing features from the prototype. The search results showed that the proposed set of distinguishing features for a specialist does not explicitly follow from the prior art; no solutions have been identified that have all the features that coincide with the features that are distinctive from the prototype. The proposed technology for the complex processing of OSSG is a product of creativity, it differs significantly from all known technologies for processing OSSG that were created before, therefore the claimed invention meets the criterion of "inventive step".

On FIG. a block diagram of the claimed method of complex processing of mixed solid waste is presented, which reflects the technological operations according to the claimed method. The essence of the invention is as follows. Mixed solid waste of construction, demolition of buildings, structures and soil (OSSG) is distributed into two streams according to the state of aggregation and types of origin, as a result of which construction waste, demolition of buildings and structures of IV, V hazard classes enter the first stream (Stream 1, Fig. .), and in the second - loose soil waste of III, IV, V hazard classes (Stream 2, Fig.).

The waste of the first stream is mechanically sorted according to the area of use, separating and separately accumulating scrap concrete and asphalt concrete, plastic, wood residues, and metal inclusions. The latter are separated by magnetic separation and, as a secondary product, are sent for use. Scrap concrete and asphalt concrete, plastic, wood residues are separately fragmented, obtaining crushed stone of a large fraction, semi-finished wood and polymeric raw materials, which, as a secondary product, are sent for use. Next, the crushed stone of a large fraction is sent for screening, obtaining crushed stone of the secondary three fractions (40-80mm; 20-40mm and 0-20mm), and the semi-finished wood product is subjected to successive crushing (up to a size of 200-300 mm), grinding (up to a size of 50-100 mm), getting wood chips. Crushed stone with large and medium fractions, as well as part of the wood chips, as secondary products of processing, are sent for use. Secondary products in the form of secondary crushed stone with a fine fraction and wood chips are used in the second stream of raw material processing as constituent components in the production of new products.

Waste of the second stream is divided into hazard classes and each of them is screened, accumulated and then each of them, in the form of a constituent component, is fed for mixing with secondary products from the first stream, with a sorbent and organic waste, while obtaining two new products in the form of mechanical mixtures, and the first mixture is obtained by mixing soils of hazard classes V and III, secondary crushed stone from the first flow and a sorbent, and the second mixture is obtained by mixing soils of hazard classes V and IV, wood chips from the first flow, sorbent and organic waste. After sifting, the selected large inclusions and debris are sent to the first stream, to the stage of mechanical sorting. The aluminosilicate mineral Glauconite is used as a sorbent, and a mixture of sludge and agro-industrial complex waste, having a ratio of components as 9:1, is used as organic waste.

Technological operations in each stream are interconnected and are connected between two streams, thereby creating a single complex for processing OSSG waste with the production of five popular secondary products and two new ones in the form of mechanical mixtures, in which secondary products are constituent components.

An example of the implementation of the claimed method

Processing of OSSiG is carried out on a prepared land plot (production site), on which equipment is placed designed to perform the technological operations of the method, in particular, equipment for sorting, fragmentation, screening, crushing, grinding, for separating metal inclusions, screening soil and equipment for mixing components. The technological process also involves a steam plant (for the winter period), a diesel generator, bulldozers, backhoe loaders and other heavy equipment. In addition, the site has special storage bins for the accumulation and storage of secondary and new processed products, as well as containers for sorbent and organic waste. Taking into account that the storage of processed raw materials is also carried out at the site, special canopies are provided on it to protect against rain, snow, and pollution. A storm drain is formed along the entire perimeter of the site, and areas for loose soils of III, IV and V hazard classes are covered with cement or asphalt.

The delivery and unloading of the raw materials of the OSSiG is carried out using dump trucks. The acceptance of a batch of waste includes checking the availability of accompanying documents regarding sanitary-epidemiological and microbiological indicators, the compliance of the waste with the Federal Classification Catalog of Waste (FKKO). Each batch of waste is subjected to express control, which measures the specific activity of natural radionuclides using a dosimeter - radiometer. The criterion for admission to processing is the exposure dose rate, which should not be more than 30 μR / h.

The raw materials received at the site are distributed according to their state of aggregation and by type of origin into two streams, while construction waste, demolition waste of IV and V hazard classes are sent to the first stream, and bulk waste of soil III, IV and V hazard classes are sent to the second stream. The distribution of the feedstock into streams is carried out mechanically, and if there are many large inclusions in the waste batch, for example, with a size of more than 80 cm, then they are separated using a loader or excavator (Catarpiller), and if small ones predominate in the batch, then separation is carried out with using a screen, air or magnetic separators. The separation of raw materials into two streams allows you to completely extract useful components from them and carry out recycling in a simplified mode. Wastes of the first and second streams are stored in piles, while loose soils intended for processing in the second stream are stored in piles separately according to hazard classes.

The waste of the first stream is mechanically sorted according to the area of use with the separation of scrap concrete and asphalt concrete, plastic, wood residues and metal inclusions, each of which is sent to separate storage bins. At the sorting stage, metal inclusions are separated using a magnetic separator, collected in a storage hopper and, as they accumulate, as a secondary product, they are sent to specialized organizations for use.

Further, each type of raw material is sent to separate fragmentation, where, with the help of special equipment, not only deformations in the structure of each type of raw material are achieved, but also changes in their characteristics, which allows optimizing the subsequent stages of recycling of solid elements. As a result of fragmentation, secondary coarse crushed stone is obtained from scrap concrete and asphalt concrete, wood semi-finished product from wood residues and polymeric raw materials from plastic (TU38.32.33-017-51953486-2022), the latter, in the form of a flaky mixture with different shapes and sizes of particles from 2 up to 15 mm and with bulk density from 200 to 400 kg/m. cube accumulate and, in the form of pressed bales, or agglomerate or in crushed form, as a secondary product, are sent for use in the production of polymeric and building materials, rubber-containing products or in the production of consumer goods.

The crushed stone of the secondary coarse fraction is subjected to screening, after which the crushed stone is divided into fractions, in particular: the 1st fraction - 40-80 mm, the 2nd - 20-40 mm, and the 3rd - 0-20 mm. Crushed stone with a fraction of 0-20 mm, in the form of a homogeneous material and without mechanical impurities, after accumulation, is used in the second processing stream as a constituent component in the production of one of the mechanical mixtures. Secondary crushed stone with fractions of 40-80mm and 20-40mm (TU 38.32.39-020-51953486-2022) is accumulated separately, and, as secondary products with different fractions, is sent for use, where it is used to construct roadsides and foundations of aprons, in as fillers for concretes and mortars for various purposes, as components of mixtures used for reclamation of disturbed lands, for the arrangement of temporary roads, trenches, and even for creating landscape elements.

The wood semi-finished product, after accumulation, is first crushed to a particle size of 200-300 mm, and then crushed to a particle size of 50-100 mm and a secondary product is obtained in the form of wood chips (TU 38.11.59-010-51953486-2022). The accumulated wood chips are used as a constituent component of one of the mechanical mixtures in the second stream. In addition, wood chips, as a secondary product, are sent to specialized organizations, where they are used as fuel, for mulching in landscape architecture and horticulture, and are also used in furniture, paper and pulp and other industries. industry.

Loose waste of the second flow, pre-separated according to III, IV and V hazard classes, is separately screened with the separation of large inclusions and debris, which are sent to the stage of mechanical sorting of waste of the first flow. The sifted soils are separately accumulated according to hazard classes and then each of them, in the form of a constituent component, is fed for mixing with secondary products from the first stream, with a sorbent and organic waste, while obtaining two products in the form of mechanical mixtures, moreover, the first mixture is obtained when mixing soils of hazard class V and III, secondary crushed stone from the first flow and a sorbent, and the second mixture is obtained by mixing soils of hazard classes V and IV, wood chips from the first flow, sorbent and organic waste.

Mixing is carried out by a "rotation" operation using a rotary unit (Valentini Lion 2000) equipped with a stone crusher, which makes it possible to grind solid particles and simultaneously mix them with bulk waste. In the case of the implementation of the method of processing OSSG in the project for the reclamation of disturbed lands, the mixing of the components is carried out directly on the reclaimed land. Before the operation of mixing the components and obtaining each of the two mechanical mixtures, the operator receives a technological task, which reflects information and quantitative indicators on the type of origin of the waste, its volume, as well as the name of each input component to obtain a mechanical mixture of a certain batch.

With the help of a backhoe loader, sifted loose soils of V and III hazard classes (in a ratio of 10: 1), secondary crushed stone with a fraction of 0-20 mm from the first stream up to 5-15% of the volume of the mixture and a sorbent in the form of an aluminosilicate mineral Glauconite, which is added when the value of the indicator of the residual content of oil products in the sifted soil of the III hazard class is more than 15% and in an amount of up to 0-4.5% of the volume of the mixture. After mixing the components, a product is obtained in the form of a dispersed, unbound mechanical mixture containing mineral substances, the estimated indicators of the mixture determine the use of the product as an anthropogenic soil (TU 23.99.19-018-51953486-2022).

The specified product, as a product of utilization and processing of OSSG, is sent to the consumer or used on site during the reclamation of disturbed lands, if the method of processing OSSG is included in the reclamation project. The product is also used for the vertical planning of plots, raising the level of the soil cover (including the construction of ski slopes), as well as in the reconstruction and arrangement of land management works.

To obtain the second mechanical mixture, with the help of a backhoe loader, sifted loose soils of hazard classes V and IV (in a ratio of 2: 1), wood chips from the second flow up to 3-8% of the mixture volume, a sorbent in the form aluminosilicate mineral Glauconite, which is added when the residual content of oil products in the sifted soil of hazard class IV is up to 15% and in an amount of up to 0-4.5% of the volume of the mixture and organic waste in the form of a mixture of sludge and agro-industrial complex, having a ratio of components like 9:1. After mixing the mechanical mixture, a holding operation is required.

The second mechanical mixture is a dispersed, unbound mechanical mixture containing mineral and organic substances. The estimated indicators of the mixture determine the use of the product as an anthropogenic soil (TU 23.99.19-021-51953486-2022). According to the degree of epidemiological danger, the studied soil samples in all samples belong to the pure category of pollution. Pathogenic organisms, including salmonella, were not isolated, eggs and larvae of helminths, larvae and pupae of flies were not found. This product is suitable for use in the biological reclamation of disturbed lands, landscaping and landscaping in forestry and landscape construction.

The products from the second stream in terms of composition, structure and physical and mechanical properties meet the requirements of technogenic reclamation soils formed as a result of the processing of OSSG waste. Moreover, the first product, containing sifted soils of V and III hazard classes, crushed stone with a fine fraction and a sorbent, is a technical mineral recultivator (trade name: "RM-Techno"), and the second, containing sifted soils of V and IV hazard classes, wood chips , a sorbent and a mixture of organic waste, is a biological mineral recultivator (trade name: "RM-Bio").

The implementation of the claimed method in industrial conditions is confirmed by an expert opinion, according to the environmental assessment, of the applicant's activities, approved by the Federal State Budgetary Institution "VNII Ecology".

Claims (4)

1. The method of complex processing of mixed solid waste, including acceptance, express control, distribution of feedstock into streams, processing of each individual stream with the accumulation of secondary processed products in them, the last of which from one stream are used as components during processing in other streams, which differs by the fact that construction and demolition wastes of IV and V hazard classes and loose soil wastes of III, IV and V hazard classes are used as mixed solid waste, the feedstock is distributed into two streams according to the state of aggregation and by type of origin, while in the first processing stream construction and demolition waste of IV and V hazard classes are sent, and loose soil of III, IV and V hazard classes is sent to the second stream, which is stored separately according to hazard classes, waste processing in the first stream includes mechanical sorting of raw materials according to the area of use, separating scrap concrete and asphalt concrete, wood residues, plastic and metal high inclusions, the last of which are separated by magnetic separation, are accumulated and sent for use as a secondary product, then, after the accumulation of each type of sorted raw material, they are separately fragmented, obtaining secondary crushed stone of a large fraction from scrap concrete and asphalt concrete, wood semi-finished product from wood residues and polymer raw materials from plastic, the last of which is accumulated and sent for use as a secondary product, secondary crushed stone of a large fraction is subjected to screening, obtaining secondary crushed stone with fine, medium and coarse fractions, and crushed stone with a fine fraction after accumulation is used as a component in the second processing stream , and crushed stone with medium and large fractions is separately accumulated and, as secondary products, sent for use, the wood semi-finished product is subjected to successive crushing and grinding, obtaining wood chips, which are accumulated and used as a component in the second processing stream. waste and as a secondary product that is sent for use, when processing waste in the second stream, separate sieving of each loose soil of III, IV, V, hazard classes is carried out, while separating large inclusions and garbage, which are sent to the stage of mechanical sorting of waste of the first stream, sifted soils are separately accumulated according to hazard classes and then each of them, as a constituent component, is fed for mixing with secondary products from the first stream with a sorbent and organic waste, while obtaining two products in the form of mechanical mixtures, the first mixture being obtained by mixing soils V and III hazard classes, secondary crushed stone from the first stream and a sorbent, and the second mixture is obtained by mixing soils of V and IV hazard classes, wood chips from the first stream, sorbent and organic waste. 2. The method according to claim 1, characterized in that the sizes of fractions of crushed stone secondary on the first stream are: fine - 0-20 mm, medium - 20-40 mm, large - 40-80 mm. 3. The method according to p. 1, characterized in that in the first processing stream, wood chips are crushed to a size of 200-300 mm, and crushed to a size of 50-100 mm. 4. The method according to claim 1, characterized in that the aluminosilicate mineral Glauconite is used as a sorbent, and a mixture of sludge and agro-industrial complex waste having a ratio of components of 9:1 is used as organic waste.

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