RU2161542C2 - Domestic wastes processing method - Google Patents

Abstract

FIELD: commercial processing and separation of domestic wastes. SUBSTANCE: method involves preliminary sorting of wastes by separating reusable, hazardous and mineral components; providing self-grinding of remaining part of wastes; separating portion adapted for combustion; sieving noncombustible portion into large-size and small-size fractions; sorting out both fractions by separating hazardous, reusable and mineral materials and separating ferrous and nonferrous metals; upon sorting and separation, directing large-size fraction to combustion devices; subjecting small-size fraction to composting; aerating composted material for separating film remains and sieving for separating biologically inactive particles. Combustion of wastes allows heat and electric energy to be produced. EFFECT: increased efficiency by producing fertilizer with reduced content of hazardous substances and materials, and reduced discharge of hazardous outbursts during combustion of wastes. 8 cl, 1 dwg

Description

 The invention relates to industrial methods of processing household waste, schemes for the separation of household waste.

 There are many known methods for sorting and processing household waste.

In A.S. USSR N 1727914, pr. 13.09.89, cl. B 03 B 9/06 "Sorting garbage transfer station" the garbage is loaded by air and then poured, mixed and aerated at the same time. The aerobic microflora of garbage is excited, warming up the mass to 25-50 ^o C. Garbage is separated - large particles, small particles. Next, large particles are crushed. Then magnetic and electrodynamic separation is performed. The compacted mass of garbage goes either to compost or to pyrolysis.

 In A.S. USSR N 1039597, class 03 V 9/06 "Device for cleaning compost from film materials" and in A.S. USSR N 784916 "Method for the aeration separation of municipal solid waste" solves particular problems of the allocation of waste paper and film materials by aeration.

 In a. from. USSR N 1818147, class 03 03/09/06 "Household waste sorting line" implements a manual sorting method.

 According to the application of Great Britain N 2262246, class. B 03 B 9/06 "Method for the disposal of hazardous waste" in the presence of high-value waste fuel is extracted, refined or distilled. In the treatment of organic waste unsuitable for incineration, detoxification, neutralization, emulsion breakdown and detoxification. If the organic waste is suitable for incineration, it is sent for mixing to level the composition of the waste.

 According to the application of France N 269504, cl. B 03 B 9/06 "A method for sorting household waste with the separation of plastic, glass, metal and organic products used for composting" waste is loaded into a bin with water. Floating plastic is collected. Glass and metal fall into the filter. In the final phase of the cycle, the remaining product is passed.

 In the application of Germany N 4325948, cl. B 03 B 9/06 "Method for the extraction of valuable materials from household waste" emit magnetic components, the mixture is pre-crushed, and then subjected to impact loading for the final grinding. Then the garbage is subjected to air treatment and heat treatment.

 Application of France N 2687061, cl. В 03 В 9/06 “Method of treating household and organic wastes by physicochemical and thermal methods in order to obtain products with reduced inertness and stability”, the wastes are first selectively selected from the materials used, and then the residues are chemically, thermally and physically processed using powdered reagents.

 In the patent EPO N 511176, class. B 03 B 9/06 "Method and device for cryodestruction of solid household waste" the garbage is strongly cooled and then crushed in the solid state.

 The considered methods are aimed at achieving one goal - a more complete waste treatment, but use various techniques and operations.

 The closest analogue is the application of Germany N 4222379, cl. B 03 B 9/06 "Method and device for the treatment of household waste and industrial waste."

 The known method includes pre-sorting waste into recyclable and reused components, separating ferrous and non-ferrous metals, grinding the remaining waste, separating the burnt part, sieving the waste into coarse and fine fractions, separating fractions containing harmful substances, burning part of the waste, cleaning flue gases, ash binding and heat and electric energy production during combustion. The method uses processes of grinding, metal extraction, mechanical screening, air separation and drying. Fractions that are free of harmful substances are reused, and from the fractions containing harmful substances, the energy necessary for the process is obtained. The resulting flue gas and coarse ash are cleaned and reused. Wastes generated during flue gas cleaning, as well as other wastes, are calcined.

 The prototype method solves an important task - the integrated processing of waste by separation into parts containing hazardous waste and not containing it. However, this problem can be solved in another way.

 The proposed method solves the problem of complex waste processing with the possibility of reuse of most fractions, to obtain high-quality fertilizer that does not contain harmful waste in a condition that is hazardous to agricultural products and humans and to burn part of the garbage to produce heat and electricity.

 The formulated problem is solved due to the fact that in the method of processing household waste, including pre-sorting waste into recyclable and reused components, separating ferrous and non-ferrous metals, grinding the remaining waste, separating the burnt part, sieving the waste into coarse and fine fractions, separating fractions, containing harmful substances, burning part of the waste, cleaning flue gases, binding ash and receiving thermal and electric energy during combustion, during pre-sorting reusable, harmful components — paint-containing containers, electric batteries and medicine packaging batteries, and mineral components (for example, cobblestones, stones, gravel, etc.) are additionally selected; coarse and fine fractions, both fractions are sorted by selection of harmful, - galvanic cells, bubbles from drugs, reused and mineral ma terials and separation of ferrous and non-ferrous metals, the coarse fraction after sorting and separation is sent to burning, and the fine fraction is composted, the result of composting is aerated to select film residues and sieved to select biologically inactive particles, the burned parts and fractions are subjected to additional sorting for selection materials giving harmful emissions during the combustion process.

 When extracting reusable components, waste paper, textiles, ferrous and non-ferrous metals, glass, and plastics are selected.

 In the particular case, self-grinding is carried out by rotating the waste while stirring.

 After self-grinding, the burnt part is separated in the form of rolled up flexible waste parts, such as ropes, long films, cables, wires.

 The non-combustible portion is screened for coarse and fine fractions, for example on sieves. The size of the sorted parts can be small fraction - less than 50 mm, large - from 50 to 300 mm.

 Composting, in particular, is carried out by fermentation in bioreactors and aging in storage areas for ripening.

 In particular, ash is bonded after combustion, for example by granulation.

 In order to conduct further processing of plastics, the selected plastics are crushed and collected in closed stock boxes to ensure natural biofermentation of biological components.

 The operation of self-grinding is one of the key in this method. During rotation and mixing, solid, heavy and sharp waste particles act in the form of grinding elements proper. Plastic bags are cut, paper is torn and nutrients are crushed (for example, kitchen and garden waste). The self-grinding operation is not similar to the commonly used waste grinding operation. When grinding garbage, for example, in crushers, harmful substances are crushed into small fractions and will surely fall into compost, which is used as fertilizer in the form of dispersed particles. When self-grinding, environmentally harmful materials are not crushed, in the method under consideration they are further recovered, but even if small elements get into the compost, they will not be scattered over its volume. Moreover, they will remain in the state that is the best, since non-fragmented harmful debris is worse absorbed by the roots of plants.

 When implementing the method, its new, non-obvious properties are manifested.

 Firstly, due to the comprehensive sorting of waste, the selection of recycled materials and fractions, the selection of harmful components carried out twice for the composted part of the waste, the rejection of waste crushing and the transition to a gentle self-crushing operation, and the last operations: aeration and sieving for the selection of biologically inactive particles compost, it is possible to obtain fertilizer containing harmful substances in small quantities and meeting agrochemical requirements.

 Secondly, the number of recyclable substances and materials increases due to several stages from extraction from waste at different stages of the method.

 Thirdly, obtaining additional energy through the burning of part of the waste, moreover, the burning does not harm the environment, since materials are selected that give harmful emissions during the burning process.

 The invention is illustrated by a diagram of a method for processing household waste.

 After unloading of household waste, they fall on sorting conveyors, where they are pre-sorted. When sorting, reusable, harmful and mineral components are selected, in particular waste paper, textiles, ferrous and non-ferrous metals, glass, plastics, paint containers, electric batteries and accumulators, and drug packaging.

 Self-grinding can be performed, for example, in mills of self-grinding. With self-grinding, the waste is released and reduced, as well as in the flexible waste compartment. During rotation of the mill, the contents are caught by knives and unloading slats, turned over. The solid, heavy and sharp particles contained in the waste act in fact as grinding elements. Plastic bags of waste are torn, paper is torn, which has lost its hardness due to the presence of moisture in the waste. After some time, due to the rotation of the mill, the flexible parts of the waste coagulate, for example, ropes, film cables, wire into a bundle, which is then sent to combustion, but components that can release harmful substances when burned to the atmosphere are removed before burning.

 After self-grinding, the non-combustible part is sieved, for example, in a drum sieve, where two fractions are formed: coarse - superlattice (from 50 to 300 mm) and fine fraction, sublattice - less than 50 mm.

 Both fractions are again sorted by selecting harmful, reusable and mineral materials and separating ferrous and non-ferrous metals. Ferrous and non-ferrous metals are eliminated, for example, using magnetic separators. The advantage of eliminating metals after self-grinding is that less waste passes through the separators, they are already shredded, which makes their extraction more efficient. The selection of harmful, reusable and mineral materials is carried out on conveyor belts. Particular attention in this operation is drawn to the selection of galvanic cells, bubbles from under drugs. The selection of plastics in this operation can also be carried out using air separation.

Composting of fine, purified from harmful and reusable materials fraction is carried out in bioreactors with a constant supply of heated air and stirring. In this case, stimulation of the vital activity of microorganisms occurs, the result of which is an active biothermal process. During this process, the temperature rises to 60 ^o C, which contributes to the death of pathogenic bacteria. In order for the compost to turn into a full-fledged fertilizer, it is kept in storage areas for ripening.

 After ripening, compost is again aerated to select film residues and sieved to select sufficiently large, biologically inactive particles. These finishing operations improve compost quality.

 The burned parts and fractions are also subjected to further processing. The components are selected that, when burned, can produce harmful gas emissions into the atmosphere. These include, in particular, some types of plastics. To improve the combustion process, crushing, which is carried out using crushers, may be required.

 After combustion, ash is bound, for example, by mixing ash with cement and a small amount of water to produce granules. In this case, valuable building material is obtained, and the ash does not disperse and does not pollute the environment.

 Thermal and electrical energy is generated on the well-known, serial equipment and can be used, including for ensuring the process of processing household waste.

 Binding of ash, for example by granulation, can be done by mixing with cement and a small amount of water.

 The selected plastics are crushed, then collected in closed stock boxes to ensure natural biofermentation of biological components. After which their secondary use is possible.

 The proposed method provides a comprehensive processing of household waste, some of which can be reused as a variety of secondary raw materials, high-quality fertilizer and building materials. In addition, the process provides thermal and electrical energy.

Claims (8)

 1. A method of processing household waste, including pre-sorting waste into recyclable and reused components, separating ferrous and non-ferrous metals, grinding the remaining waste, separating the burnt part, sieving the waste into coarse and fine fractions, separating fractions containing harmful substances, and burning part waste, flue gas cleaning, ash binding and heat and electric energy production during combustion, characterized in that in pre-sorting, additional re-sorting is taken Reusable, harmful components - paint containers, electric batteries and accumulators, drug packaging and mineral components, the remaining waste is crushed by self-grinding, after separation of the burnt part, the non-combustible part is sieved into coarse and fine fractions, both fractions are sorted out by selection of harmful - galvanic cells , vesicles from under drugs, reusable and mineral materials and the separation of ferrous and non-ferrous metals, a large fraction after the toilet The seeds and separations are sent to incineration, and the fine fraction is composted, the result of composting is aerated to select film residues and sieved to select biologically inactive particles, the parts and fractions to be burned are subjected to additional sorting before burning to select materials that give harmful emissions during the combustion process.  2. The method of processing household waste according to claim 1, characterized in that when removing reusable components, waste paper, textiles, ferrous and non-ferrous metals, glass, plastics are selected.  3. The method of processing household waste according to claim 1, characterized in that the self-grinding is carried out by rotating the waste while stirring.  4. The method of processing household waste according to claim 1, characterized in that after self-grinding, the combustible part is separated in the form of rolled up flexible waste parts.  5. The method of processing household waste according to claim 1, characterized in that during sieving, a fine fraction of less than 50 mm and a large fraction of 50 to 300 mm are isolated.  6. The method of processing household waste according to claim 1, characterized in that when composting, fermentation is performed in bioreactors and the fermentation result is kept in storage areas for ripening.  7. The method of processing household waste according to claim 2, characterized in that after burning, ash is bound by granulation.  8. The method of processing household waste according to claim 1, characterized in that the selected plastics are crushed and collected in closed stock boxes to ensure natural biofermentation of biological components.