RU2781130C1 - Building reclamation agent made of waste from building, demolition, and dismantling of buildings and structures, soils - Google Patents

Abstract

FIELD: building.

SUBSTANCE: group of inventions relates to the reclamation of disturbed lands, petroleum-contaminated lands, sludge fields, sludge storage tanks, and landfills for industrial and household waste, and can be applied in building road networks and landscaping. Building reclamation agent made of waste from building, demolition, and dismantling of buildings and structures, non-contaminated soils, constituting a dry fraction mixture, contains two fractions; wherein the first fraction is a crushed mixture of building and building demolition waste excluding wood waste, with a granule size from 20 to 80 mm, with a moisture content not above 20%, and the second fraction is a mixture of a fraction of building and building demolition waste with a natural non-contaminated soil with a granule size from 10 to 20 mm. Building waste of hazard classes 4—5 with an averaged density of 0.8 to 1.1 t/m³, excluding polymers, rubber, metals, and wood waste, is used as the raw material. The reclamation agent contains the first and the second fractions in the following ratio, wt.%: first fraction 70 to 85, second fraction 15 to 30, and additionally natural biological reagents - powdered shungite, humic acids, native soil bacteria in the amount of: 1.8 kg of natural biological reagents per 1 ton of the crushed mixture of building waste and non-contaminated soils in the reclamation of petroleum-contaminated objects, slurry dumps, and sludge fields; 100 grams of natural biological reagents per 1 ton of crushed mixture of building waste and non-contaminated soils in the reclamation of slurry storage tanks and industrial waste landfills. Natural biological reagents are taken in the following ratio, wt.%: powdered shungite 45 to 52; humic acids 45 to 47; native soil bacteria 1 to 10.

EFFECT: creation of a broadly targeted reclamation agent with high operating characteristics from waste from building, demolition, and dismantling of buildings and structures.

2 cl, 4 ex

Description

Building reclamation agent from construction waste, demolition and dismantling of buildings and structures, soil is intended for reclamation of disturbed lands (ravines, beams, quarries, etc.), oil-contaminated lands, silt fields, sludge storages, industrial and domestic waste landfills, can be applied in the construction of road networks and landscaping.

The proposed reclamator has analogues, which are various products obtained in the process of processing and disposal of waste intended for the restoration of disturbed land plots, worked out quarries, for landscaping. For example, the following products are known:

according to the patent of the Russian Federation No. 2654074 for an invention called “Method of restoring disturbed land plots using soil for reclamation”, soil is used for reclamation, which is obtained from construction and demolition waste processed at a crushing plant to the state of crushed stone-sand mixture of wood waste and soil formed during excavation, not contaminated with hazardous substances, with a fraction with a particle size of 5-10 mm. The disturbed land plot is divided into conditional technological maps for the production of works with an area of 1 ha (100 m × 100 m), ingredients for the production of soil for reclamation are delivered to the technological map for the formation of technological tiers, including backfilling of the mined-out space, its leveling and laying the soil layer, which includes the steps :

a) backfilling and leveling the crushed stone-sand mixture,

b) backfilling and leveling of soil formed during excavation, not contaminated with hazardous substances,

c) mixing and compaction with construction equipment,

d) backfilling and leveling the reinforcing layer from wood waste.

according to patent RU 2690557 "Technical soil "Fisht-soil" techno brand for reclamation of disturbed lands and method of its production", technical soil "Fisht-soil" is obtained by recycling waste of IV-V hazard classes and contains components in the following ratio, vol. %: crushed stone-sand mixture from construction waste 50-57, soil waste 33-40, crushed wood waste 3-10. With the help of the soil, it is ensured that a homogeneous and environmentally safe technical soil is obtained for the reclamation of disturbed lands.

The closest analogue is known by patent RU No. 2611750 a method of restoring worked-out quarries for the construction of a cemetery, which uses construction waste with a fraction size of up to 200 mm without preliminary crushing. This method includes separate excavation, moving and storing the soil layer and overburden in separate belt dumps, working out a quarry field, backfilling the worked-out area to the boundary of the upper groundwater level with construction waste, similar in composition to natural minerals with different particle sizes, layer by layer, followed by compaction of each layer, laying the drainage layer with construction waste, with a particle size of 150-200 mm. On top of the drainage layer, an intermediate layer is poured with construction waste with a particle size of not more than 120 mm. Backfilling is carried out until the upper boundary of the intermediate layer reaches 1/2 of the quarry goaf height. Then, on top of the intermediate layer, the primary backfilling of the mined-out space of the quarry is carried out with a mixture consisting of overburden rocks mixed in equal proportions, clay and crushed construction waste with a fraction size of not more than 100 mm, and backfilling is carried out in layers with a thickness of each subsequent layer of not more than one meter and compaction of each layer. This operation is performed until the mined-out space of the quarry is completely filled. On the surface planned by the bulldozer, the entire surface of the mined-out space of the quarry is backfilled with a mixture of sand and gravel of a fraction of 5 mm, mixed in equal proportions with a layer thickness of at least 100 mm.

These methods and soils are soil-slurry soil mixtures containing wood waste, a fraction size of 5-200 mm and are intended for layer-by-layer backfilling, which improves the reliability of isolation and disposal of waste that meets environmental and sanitary standards.

The aim of the invention is to create from the waste of construction, demolition and dismantling of buildings and structures and soils of a more widely specialized reclamator with improved functional characteristics.

The goal is achieved due to the composition of the recultivator, namely, due to the fact that the recultivator includes two fractions, namely:

the first fraction is a crushed mixture of construction waste, waste from the demolition of buildings, with the exception of wood waste, with a granule size of 20 to 80 mm, with a moisture content of not more than 20%,

the second fraction is a mixture of the fraction of construction waste and waste from the demolition of buildings with natural uncontaminated soil with a granule size of 10 to 20 mm, and construction waste of 4-5 hazard classes with an average density of 0.8-1.1 t/ m ³ , excluding polymers, rubber, metals, wood waste,

while the recultivator contains the first and second fractions in the ratio, wt. %: first fraction 70-85, second fraction 15-30,

and additionally natural bioreagents - shungite powder, humic acids, native soil bacteria in the amount of:

1.8 kg of natural bioreagents per 1 ton of crushed mixture of construction waste and uncontaminated soils during the reclamation of oil-contaminated facilities, sludge dumps, silt fields,

100 grams of natural bioreagents per 1 ton of crushed mixture of construction waste and uncontaminated soils during reclamation works of sludge storages, industrial waste landfills, natural bioreagents are taken in the following ratio to each other, wt. %:

45-52 - shungite powder,

45-47 - humic acids,

1-10 - native soil bacteria.

Due to this, the reclamator has sorbent and bearing characteristics, corresponding on the one hand to a high-quality roadbed substrate, and on the other hand, providing high reclamation characteristics. Natural mixing, consisting in the mixing of fractions due to the wide distribution of particle size, gives properties close to natural soil masses and/or man-made soil.

The goal is also achieved due to the method of manufacturing a recultivator, which involves the following actions:

to create a recultivator, construction waste of 4-5 hazard classes with an average density of 0.8-1.1 t / m ³ is taken as a feedstock, waste is sorted, polymers, rubber, metals, wood waste are excluded, waste is crushed using a crusher equipment, fractions are taken in the following ratio, wt.%: the first fraction is 70-85, the second fraction is 15-30, where the first fraction is a crushed mixture of construction waste, waste from the demolition of buildings, with a granule size of 20 to 80 mm, with humidity not more than 20%, the second fraction is a mixture of construction waste and demolition waste with natural uncontaminated soil with a granule size of 10 to 20 mm, and natural bioreagents are added - shungite powder, humic acids, native soil bacteria in the amount of:

1.8 kg of natural bioreagents per 1 ton of crushed mixture of construction waste and uncontaminated soils during the reclamation of oil-contaminated facilities, sludge dumps, silt fields,

100 grams of natural bioreagents per 1 ton of crushed mixture of construction waste and uncontaminated soils during reclamation works of sludge storages, industrial waste landfills natural bioreagents in the amount,

natural bioreagents are taken in the following ratio to each other, wt. %:

45-52 - shungite powder,

45-47 - humic acids,

1-10 - native soil bacteria.

The addition of natural reagents in the form of shungite powder to the composition of reclamation agents leads to the presence of unique cleansing, catalytic, detoxifying properties in the resulting reclamation agent, which contribute to the rapid purification of the soil from pollutants (oil products, heavy metals) and to the rapid formation of a fertile soil layer.

The use of shungite powder is due to its unique cleansing, catalytic and detoxifying properties. The present water, as a result of the chemical decomposition of ecotoxicants, is purified from chlorine, organochlorine elements, heavy metals and nitrates, and is also saturated with useful macro- and microelements to physiological values.

Humic substances act as natural detoxifying substances, which makes them promising preparations for the reclamation of territories contaminated with organic substances, including silt fields and sludge reservoirs. Along with binders, humic substances have pronounced surface-active properties, which allows them to be used as agents that increase the solubility of hydrophobic organic substances, including fats and petroleum products. Therefore, humic substances can be used as the basis for solutions designed to eliminate pollution by aromatic organic substances. Unlike synthetic surfactants commonly used for these purposes, toxic substances are not used in the production of humic substances. In addition, humic preparations are not xenobiotics, that is, their use does not harm the environment. When using humic substances, the soil structure, its buffer and ion-exchange properties are improved, the activity of soil microorganisms is activated.

Native soil bacteria (microorganisms) that consume hydrocarbons are common components of soil biocenoses. All soils contain large quantities of microorganisms capable of oxidizing hydrocarbons of various origins (vegetable, animal, oil). The entry of fresh energy material into the soil causes an intensive development of hydrocarbon-oxidizing microflora, which ensures the utilization of this pollutant.

The use of reagents is carried out by the method of bioremediation - in situ biostimulation. This approach is based on stimulating the growth of native natural microorganisms naturally found in any soil and potentially capable of utilizing the pollutant, but unable to do so efficiently due to the lack of a complete set of food components (compounds of nitrogen, phosphorus, potassium, etc.).

In quantitative terms, when recultivating oil-contaminated facilities, sludge dumps, sludge fields, it is necessary to use 1.8 kg of natural reagents per 1 ton of crushed mixture of construction waste and uncontaminated soils.

When carrying out reclamation work, sludge storages, industrial waste landfills, etc. natural bioreagents in the amount of 100 grams per ton of crushed mixture of construction waste and uncontaminated soils.

The natural reagents used are natural for the environment, do not form toxic compounds in soil and water, do not pollute the atmosphere, do not adversely affect flora, fauna and biogeocenoses even when using high concentrations (in silt fields and oil-contaminated soils). This method activates and repeatedly accelerates the natural processes of self-purification and self-recovery of soils.

When carrying out reclamation works of worked-out quarries, ravines, gullies, when carrying out works on the vertical planning of the territory, road construction of raising the soil level, there is no pollution of the territory with waste, including oil-containing ones, and therefore the use of natural bioreagents is inappropriate.

The introduction of natural reagents is divided into several stages. At the first stage, 100% of the total mass of shungite powder is introduced, after which watering and mixing (plowing) of the mixture is carried out using an industrial mixer and/or cultivator. At the second stage, a mixture of humic acid salts and native soil bacteria is added, after which watering and mixing (plowing) of the mixture is again carried out using an industrial mixer and / or cultivator. At the third stage, 5-10 days after the end of the second stage, the second half of the mixture of humic acid salts and native soil bacteria is introduced, after which watering and mixing (plowing) of the mixture is again carried out using an industrial mixer and / or cultivator.

The use of natural reagents in the form of shungite powder of humic acids and native soil bacteria is advisable at temperatures above 5 degrees Celsius.

The morphological composition of the wastes used and the bioreagents used are very close to the properties of natural components, including physicochemical and granulometric properties, humidity and density.

As a result, there is no wood waste in the proposed recultivator, only a crushed mixture of inert building materials and soils from 10 to 80 mm in size with the addition of natural reagents is used, and there is no need for layer-by-layer laying of layers during use.

Implementation of the invention

Building reclamator from construction waste, demolition and dismantling of buildings and structures, soil "is a crushed mixture of inert materials obtained from:

• construction waste (concrete, cement, brick, sand, ASG, reinforced concrete, etc.);

• waste from the demolition and dismantling of buildings and structures (concrete and reinforced concrete ceilings, beams, foundations, etc.);

• uncontaminated soils;

• other wastes similar in morphological composition;

• natural reagents (shungite powder, humic acids, native soil bacteria).

They take construction waste and waste from the demolition and dismantling of buildings and structures with an average density of 0.8-1.1 t / m ³ , sort and analyze the components of the initial mixture of construction waste, exclude waste containing polymers, rubber, metals and other waste with humidity over 20%.

The main part of the recultivator - 70-85% - was obtained at the crushing and screening site using special equipment - a mounted crushing bucket SimexCB1400, a DeltaF-5 hydraulic hammer. The remaining 15-30% o are fractions formed as a result of mixing the already crushed main part of the recultivator and soil from 10 to 20 mm in size and natural reagents (shungite powder, humic acids, native soil bacteria), which are not in the above patents, and they are an integral part of the recultivator.

The joint use of inert waste, similar in morphological composition, moisture content, density and loosening, makes it possible to form a product resistant to mechanical, physical and chemical stress. The addition of natural reagents allows you to quickly clean the soil from oil pollution, process silt deposits, and form a fertile soil layer.

The morphological composition of the product is close to the components of the environment, so this product is environmentally absolutely safe, and therefore has a very wide range of applications and can be used for:

- arrangement of foundations for motor roads of IV and V technical categories;

- strengthening roadsides;

- devices of temporary roads;

- devices of the bases of sidewalks, pedestrian paths;

- arrangement of bases for parking lots, recreation areas, etc.;

- restoration work on the reclamation of disturbed lands of natural and anthropogenic origin. Natural objects include ravines, gullies, etc., anthropogenic objects include depleted mining quarries, industrial and municipal waste landfills, oil-contaminated soils and soils, silt fields and sludge reservoirs that require recultivation, etc.;

- landscaping;

- and other construction industries.

This component composition allows:

- reuse construction waste of hazard class 4-5;

- preserve non-metallic minerals (crushed stone, sand, etc.) previously used for similar works (reclamation, landscaping, road works, etc.);

- to clear the lands polluted with oil products and sludge;

- quickly restore and/or form the soil layer;

- unload the existing solid municipal waste landfills, thereby saving volumes for specialized waste;

- reduce the number of unauthorized dumps;

- restore the original landscape and natural ecosystem in the area of work;

- improve the sanitary and epidemiological situation and environmental conditions.

The claimed method for the production of the product "Construction reclamator from construction waste, demolition and dismantling of buildings and structures and soils" consists in the process of processing and disposal of waste of 4-5 hazard classes and consists of the following main stages:

1. Organization of a crushing and screening site. Since the equipment used is mobile, work can be carried out both on the territory of the Contractor and on the territory of the Customers of the work.

2. Equipment for sanitary facilities to ensure the life of the working personnel.

3. Organization of places for temporary storage of waste in accordance with sanitary and environmental requirements

4. Training and instruction of working personnel.

5. Installation and installation of operating equipment (Simex CB 1400 mounted crushing bucket, DeltaF-5 hydraulic hammer)*.

*equipment can be replaced by similar equipment from other brands and manufacturers

6. Arrangement of access roads (if necessary).

7. Organization of a warehouse for raw materials (construction waste of 4-5 hazard classes according to FKKO), with an area of at least 15x15 m.

8. Organization of a warehouse for finished products, with an area of at least 20 × 20 m.

9. Delivery of raw materials (construction waste of hazard classes 4-5, natural reagents) to the preparatory section of the site (raw materials warehouse). If necessary, the delivery of raw materials to the crushing and screening site is carried out both by our own transport and by transport of third-party organizations. Waste is weighed either on the Customer's scales, or is determined by the carrying capacity of the machine, taking into account the density of the waste.

10. Visual inspection of the received waste to exclude the ingress of waste prohibited for use.

11. Radiological control of incoming waste using a dosimeter.

12. Processing (initial grinding of large parts) using mobile attachments - a Delta F-5 hydraulic hammer, working on the basis (carrier) of a hydraulic backhoe loader TLB 825-RM.T.e. preliminary crushing of waste into pieces up to 700 × 700 × 1200 mm in size is carried out.

13. Loading pre-crushed (processed) raw materials into the crusher. Loading of raw materials is carried out using a loader or excavator.

14. Utilization (grinding on a mounted crushing bucket Simex CB1400), with the receipt of finished products, 10-80 mm in size.

15. The output from the crusher of the resulting product is a reclamator with a particle size of 10-80 mm.

16. Addition of natural reagents.

17. Warehousing of the received products "Building reclamation agent from construction waste, demolition and dismantling of buildings and structures and soils" in the warehouse of finished raw materials.

The product is stored in bulk on an asphalt platform under a canopy. Transportation is possible by road or rail in containers covered with an awning.

Based on the conducted laboratory studies, “Construction reclamation agent from construction waste, demolition and dismantling of buildings and structures, soil” belongs to the 5th class of danger to the environment. Compared to natural materials previously used for reclamation of disturbed lands (crushed stone, sand, etc.), the product has good sorption properties and, at the same time, has a low cost, without requiring additional mining with the formation of new quarry workings.

Below are the results of determining the component composition and the results of biotesting with the definition of the hazard class of the resulting product.

Claims (19)

1. Construction recultivator from construction waste, demolition and dismantling of buildings and structures, uncontaminated soil, which is a mixture of dry fractions, characterized in that the recultivator includes two fractions: the first fraction - a crushed mixture of construction waste, waste from the demolition of buildings, with the exception of wood waste, with a granule size of 20 to 80 mm, with a moisture content of not more than 20%, the second fraction - a mixture of the fraction of construction waste and waste from the demolition of buildings with natural uncontaminated soil with a granule size of 10 to 20 mm, moreover, construction waste of 4-5 hazard classes with an average density of 0.8-1.1 t/m ³ is used as a feedstock, excluding polymers, rubber, metals, wood waste, while the recultivator contains the first and second fractions in the ratio, wt.%: the first fraction 70-85, the second fraction 15-30, and additionally natural bioreagents - shungite powder, humic acids, native soil bacteria in the amount of: 1.8 kg of natural bioreagents per 1 ton of crushed mixture of construction waste and uncontaminated soils during the reclamation of oil-contaminated facilities, sludge dumps, silt fields, 100 grams of natural bioreagents per 1 ton of crushed mixture of construction waste and uncontaminated soils during reclamation works of sludge storages, industrial waste landfills, natural bioreagents are taken in the following ratio to each other, wt.%: shungite powder 45-52 humic acids 45-47 native soil bacteria 1-10. 2. A method for creating a building recultivator from construction waste, demolition and dismantling of buildings and structures, soil, including grinding construction waste and their further natural mixing, characterized in that to create a recultivator according to claim 1, construction waste 4 is taken as a feedstock -5 hazard classes with an average density of 0.8-1.1 t/m ³ , waste is sorted, polymers, rubber, metals, wood waste are excluded, waste is crushed using crushing equipment, fractions are taken in the following ratio, wt.% : the first fraction is 70-85, the second fraction is 15-30, where the first fraction is a crushed mixture of construction waste, demolition waste, with a granule size of 20 to 80 mm, with a moisture content of not more than 20%, the second fraction is a mixture of fractions construction waste and waste from the demolition of buildings with natural uncontaminated soil with a granule size of 10 to 20 mm, and natural bioreagents are added - shungite powder, gum new acids, native soil bacteria in the amount of: 1.8 kg of natural bioreagents per 1 ton of crushed mixture of construction waste and uncontaminated soils during the reclamation of oil-contaminated facilities, sludge dumps, silt fields, 100 grams of natural bioreagents per 1 ton of crushed mixture of construction waste and uncontaminated soils during reclamation works of sludge storages, industrial waste landfills, natural bioreagents are taken in the following ratio to each other, wt.%: shungite powder 45-52 humic acids 45-47 native soil bacteria 1-10.