RU2109035C1 - Method of processing garbage, briquetting fuel, and additives - Google Patents

Abstract

FIELD: garbage disposal. SUBSTANCE: invention relates to processing garbage for using it as fuel to burn on power plants. Method includes preliminarily sorting and processing original garbage to separate soft fractions containing organic residues, which are further crushed, mixed with crushed coal, supplemented by fat-containing residues, e.g. bleaching earth, and compressed into briquets. Briquets contain equal weight portions of coal, soft garbage fractions, and fat-containing residues. EFFECT: optimized fuel composition. 6 cl

Description

 The invention relates to methods for processing garbage, as well as briquetted fuel and additive.

 During the preliminary sorting and processing of garbage, the so-called soft fraction of garbage containing organic residues is released and burned with coal at power plants, heating plants or in small heating installations. The soft debris fraction containing mainly organic residues arises as a result of removing glass, plastics, metal, paper and the like from the processed debris using known methods, resulting in a crushed, dried and metal-free soft output fraction of garbage, the combustible organic matter of which has a structural structure almost identical to coal. Compared to burning clean coal in power plants, heating plants and small thermal plants in large quantities of ash and emitted in smoke treatment plants, filtered fly ash is generally suitable for further use as additives to building materials. With this method, the amount of garbage to be heat treated in waste incineration plants is thus reduced, thereby achieving a significant reduction in the construction of waste incineration containers. This is especially important given the significant protest of the affected population against the impact of incinerators. In addition, the share of ash obtained from waste incinerators is reduced, the burial of which is possible only with special measures.

 A similar method is known in which a part of the garbage corresponding to approximately the above-mentioned soft fraction of garbage is combined with combustible material to produce fuel. As a combustible material, preferably coal dust is used [1].

 A known method in which plant waste is dehydrated and then burned in a furnace together with sulfur-containing coal. Due to alkaline residues in dehydrated plant waste, harmful substances that otherwise occur during coal combustion are prevented from entering the surrounding space [2].

 The objective of the invention is to increase the calorific value arising from the use of a soft fraction of fuel debris with an unchanged or reduced amount of coal used.

 This problem is solved in accordance with the invention by the fact that in the soft fraction of the garbage, in addition to the constituent garbage itself, further fat-containing residues are added, especially in the form of bleaching earth. Such bleaching earth is formed in various industrial processes and to date must be eliminated in complex ways. Due to the use of such residues in the proposed method, respectively, in the manufacture of a fuel or additive corresponding to the invention, the properties of such fat-containing residues can be used to increase the heat of combustion of the fuel, respectively, of the additive. In addition, fat-containing residues can be used with the use of their inherent heat of combustion, for the elimination of which a large amount of money is otherwise expended. To obtain fuel that is easy to transport and easy to handle, it is necessary to grind a fraction of soft debris and mix it before burning with coal, which has a certain particle size distribution curve, and then compact it.

 If the fraction of soft debris is dried, its calorific value increases, and the specific gravity decreases.

 To reduce the proportion of the initial waste sent to heat treatment, it is possible to expose the material that was passed during preliminary sorting and preparation through a cylindrical sieve (drum screen) to air separation and thereby separate the deposited plastic and paper, and then separate the metal components. After that, the remaining processed material can be processed as the so-called heavy fraction of soft debris.

 To further improve the environmental properties of the method, the incoming material can be ground before separation of the metal from it, and after grinding, plastic and paper can again be separated from it.

 To increase the calorific value for the fraction of soft garbage with coal added to it, fat-containing residues, such as bleaching earth, can be added. Such residues are obtained during various industrial operations, which then need to be processed. In the above process steps, they can preferably be used to increase the calorific value of the resulting fuel, moreover, equalization power can be achieved by processing or removing these fractions.

To ensure greater environmental protection, soft binder fractions during incineration can be supplemented with SO ₂ and / or odor-suppressing and / or odor-suppressing additives, lime-based additives being preferred.

 It is preferable to carry out combustion in a fluidized bed installation.

 Part of the fuel, which is garbage having a certain coal content and a certain garbage content, intended for burning at power plants, heating plants and small heating installations, consists preliminarily of the so-called soft garbage fraction, which has organic fractions separated during the sorting and preparation of the initial garbage. Due to this, the advantages indicated in the proposed method are created.

 Fuel is transportable and easily used if it consists of a crushed fraction of soft debris and is obtained by mixing and compaction with fine-grained coal having an appropriate particle size distribution curve.

 The calorific value of the fuel increases, and its specific gravity decreases if the fraction of soft debris is dried.

 The heavy fraction specified during its manufacture can be added to the fuel, while the amount of garbage that needs to be processed thermally in waste incineration plants is even more reduced.

 To increase the calorific value of the fuel, fat-containing residues, for example bleaching earth, can be added to it, due to which additional economic advantages are obtained, which are described in the corresponding method.

Improving the properties of fuels, favorable from the point of view of environmental protection, is achieved through the use of binding SO ₂ and / or hygienic and / or absorbent odors, for example, additives based on lime.

 If the fuel fraction consisting of debris freed from particularly harmful substances during the pre-sorting process consists mainly of moist organic material and crushed to a grain diameter of ≤ 10 mm, the coal fraction has finely divided dry coal with a maximum water content of 10%, and coarser coals with a grain diameter of up to 10 mm, the debris fraction is partially dried before it is mixed with the coal fraction, and the mixture of the coal and debris fraction is compressed into a compact mass, without the need to add news or quicklime to the debris fraction, since dehydration of the debris fraction is carried out by adding a finely divided coal fraction having a certain moisture content. In addition, to improve the briquetting properties of the fuel, another coal fraction is added, which consists of coarser coal with a grain diameter of up to 10 mm. Due to this, without lime or quicklime, fuel is obtained that can be burned under favorable conditions without emissions. After the metal is separated from the waste used using high-quality recycling techniques, emission-related components such as paper and plastics are removed. Due to this, only organic fractions remain in the garbage, for example, waste greenery, as well as residues of predominantly mineral origin. These components are used as the so-called soft material for the combustion process. To reduce the high humidity of this soft material and ensure stable combustion, this soft material is preferably ground in a wet mill to a grain size of 0-10 mm, partially dried and mixed with finely divided coal, whose moisture or water content is below 10%. To simplify the handling of the mixture after the mixing process, compacting the mass should be carried out. For this, a structure of finely divided coal is added to the specified mixture, the grain size of which is also 0 - 10 mm, which is the support. In order to prevent undesired fermentation during briquetting, appropriate chemicals are added to the mixture.

 To further reduce emissions, additives are added to the fuel with the help of which it is possible to reduce emissions, especially acidic harmful gases.

 As a suitable additive (s), you can enter insoluble white lime.

 These garbage components may first be processed into an additive before being introduced into the coal to be burned.

 Execution example. Source waste is processed in a plant for pre-sorting and recycling. In this case, the incoming source debris is separated in a drum screen (cylindrical sieve) with a mesh size of about 80 mm in size of their components into a coarse and fine fraction. Glass, plastic, paper, metals, etc., are removed from the fine fraction during the subsequent steps of the method, after which the so-called soft fraction of garbage remains, which mainly consists of organic fractions. The coarse fraction, consisting of the material emerging after the cylindrical sieve, is subsequently separated in the air separator from the constituent elements of plastic and paper.

 In the next grinding stage, the coarse fraction thus treated is crushed, and then the metal fraction is separated from it in a conventional separator and, in the subsequent air separation stage, the remaining particles of plastic and paper are separated, after which the so-called heavy fraction, which contains, for example, wood, textiles, etc.

The soft debris fraction and the heavy fraction are mixed together and dehydrated. Fat-containing residues are added to the mixture, for example, bleaching earth, which is released during or after bleaching and washing of fats and oils and degreasing of wool as waste that must be removed and which significantly increase the calorific value of the mixture. In addition, additives are added to the mixture, which, when burned, bind SO ₂ , are hygienic and can remove odors, for example, lime-based additive (s).

 The mixture thus obtained is again crushed and then compacted into an additive, which can be added to coal without negative effects, after which they can be burned in power plants or heating plants, or small heating plants, and the combustion is preferably carried out in a fluidized bed installation.

 The specified mixture can also be crushed and mixed with coal having an appropriate particle size curve, and processed or compacted before burning to obtain a conveniently transportable and non-polluting fuel.

 The method described below as an example involves the receipt of household waste in the amount of 30 t / h. It is shown that using various stages of the method, this volume is prepared so that it can be burned in a conventional energy furnace.

 1. Household garbage is loaded from an underground bunker by means of a polygonal capture onto two plate conveyors and fed into two drum screens [1] with holes with a diameter of 60 - 80 mm. Screening [1] about 40% V = 12 t / h is called soft garbage. It consists predominantly of organic material, as well as mainly of mineral inert fine debris and has a high moisture content of about 50%. The screening falls on the conveyor belt and is largely freed from iron by means of a magnet mounted above the conveyor. During subsequent dry grinding in a shock or impact-reflective mill, further grinding to a particle size of 20-30 mm and drying to a moisture content of 10-20% occur. The exact values are selected depending on the coal being mixed so that the calorific value of the mixture is as high as possible or corresponds to the calorific value of the calculated fuel for a large-capacity furnace. Regulation is carried out by installing the air separator of the mill and the temperature of the drying gases. In this case, we can talk about heated air or flue gases. At a raw material moisture content of 50% and a residual moisture content after drying of 15%, about 7 t / h of crushed material accumulated in the buffer remains.

 Using a screw conveyor, shredded and dried soft garbage is transported to the mixer and mixed with a set amount of coal in the most optimal ratio of 1: 1. In this case, it was supplied without mixed material in a volume of 14 t / h. The mixer may be batch or continuous. Here, the prepared screening is dosed [1]. Other residual substances that increase the calorific value, such as bleaching earth and additives that reduce harmful emissions, are added. The mixed material is unloaded from the receiving tank of the mixer, fed to one or more briquette presses and pressed at a pressure of about 80 MPa. The result is a dry, suitable for fastening briquetted fuel with certain properties, which together with the main fuel is fed through the mill to the pulverized coal furnace of a high-capacity boiler.

 At the second stage of the method, the processing and grinding of screenings are described [1]. It should be assumed that a certain preliminary sorting takes place in the underground bunker and that really bulky debris is pre-crushed in a grinder or crusher to a particle size of about 1000 mm.

 The screenings [1] of both drum screens [1] (in this example, 18 t / h) are transported using a conveyor belt through a magnetic separator to an intermediate warehouse. Here a visual inspection takes place, in which impurities are sorted. From the intermediate warehouse, the separated large material is loaded with a crane into the loading funnel of two rotary shears, which are crushed to a particle size of about 300 mm. From rotary shears, material enters the loading funnel of another drum screen [2] either directly - this is a matter of space availability, or by conveyor belts. The separation boundary of the screen is 300 mm. On the subsequent transport paths of screening [2] and screening [2], an iron separator is installed. Due to the re-arrangement of the metal separators behind the steps of separation and grinding, metal impurities are largely removed.

 First you need to track the sifting [2] <300 mm. It is about 15 t / h and is ground in a hammer mill. In another drum screen [3] with two different hole sizes, screening [3] <40 mm (8 t / h), screening [3]> 120 mm (3 t / h) and a fraction of 40 - 120 mm (4 t / h). Sifting [3], as already mentioned, is cleaned of iron using a magnet mounted above the conveyor. The screening is thin enough for briquetting and is fed to a mixer for organic material. Possible too high humidity is reduced by adjusting the drying temperature of soft debris.

 Screenings [3]> 120 mm (3 t / h) are finely ground using rotary scissors and together with an intermediate fraction of 40 - 120 mm (4 t / h), the remaining heavy components are freed in the air separators. The resulting light fraction contains volatile material. After additional magnetic separation and passing through the metal detector, the light fraction is ground in a cutting mill into “fluff”, which, together with the sifting [3] <40 mm, is fed into the mixer.

 Now there is still screening [2]> 300 mm (t / h) of the drum screen [2]. It is also ground in rotary scissors to a particle size of about 40 - 80 mm, and then, together with other ground material, is sent through an air separator and, as described above, is processed into "fluff". Can be accumulated during the preparation of "fluff", in general, about 5 - 6 t / h, to use when using other methods of disposal instead of burning it.

 Therefore, with the exception of some impurities and metals, which in general are less than 2 t / h, it is possible to prepare the amount of household waste 30 t / h selected in this example so that it can be used in a power boiler with high efficiency, as well as stored during dry storage for a long time and spend as needed.

 Briquetted fuel contains a mixture of equal parts by weight of crushed coal and separated during pre-sorting and processing of a soft fraction of garbage containing organic residues. The soft fraction of the garbage contains fat-containing residues, such as bleaching earth, and is dried.

 Briquetted fuel additionally contains a softened heavy fraction, which is allocated during the preliminary processing and processing of the initial waste and is separated from plastic, paper and metal components.

 Briquetted fuel further contains additives (additives), for example, lime-based additives, with the help of which sulfur dioxide arising from its combustion is bound and all fuel is made more hygienic and / or freed from odors.

 The soft fraction of the fuel is crushed to a grain size of less than 10 mm in diameter. The crushed coal is partially finely ground and has a maximum water content of 10%, with a maximum grain diameter of 10 mm.

 Quicklime is preferably used as an additive.

 The additive mainly prepared from garbage for an additive to coal to be burned contains a soft fraction of garbage separated during pre-sorting and processing, containing organic residues, and additionally fat-containing residues, such as bleaching earth. Further, binders resulting from the combustion of sulfur dioxide, hygienizing and / or odor-removing additives, for example, based on lime, are added to the additive.

 In addition, the additive contains a crushed heavy fraction, which is selected during the preliminary sorting and processing of the initial garbage and is separated from plastic, paper and metal components.

 The soft debris used in the additive is dried.

Claims (16)

 1. A method of processing garbage into fuel for burning in power plants, including pre-sorting and processing of the original garbage with separation of the soft garbage fraction containing organic residues, grinding this fraction, mixing with ground coal and compacting the mixture into briquettes, their subsequent burning, characterized in that fatty residues, such as bleaching earth, are added to the soft debris fraction.  2. The method according to claim 1, characterized in that the fraction of soft debris is dried.  3. The method according to PP. 1 and 2, characterized in that the heavy fraction of the garbage leaving the drum screen used for pre-sorting and processing is separated in the air separator from plastic and paper, then in the metal separator from metal components and added to the soft garbage fraction.  4. The method according to p. 3, characterized in that before separation from the metal components, the heavy fraction of the debris is crushed and then the plastic and paper are again separated.  5. The method according to claims 1 to 4, characterized in that additives are added to the soft debris fraction that bind sulfur dioxide released during combustion, hygienize and / or eliminate odors, for example, based on lime.  6. The method according to claims 1 to 5, characterized in that the combustion is carried out in a fluidized bed installation.  7. Briquetted fuel containing a mixture in equal parts by weight of crushed coal and a fraction of soft garbage containing organic residues isolated during pre-sorting and processing of the initial garbage, characterized in that the fraction of soft garbage contains fat-containing residues, for example, bleaching earth.  8. The fuel according to claim 7, characterized in that it contains a dried fraction of soft debris.  9. The fuel according to claims 7 and 8, characterized in that it further comprises a crushed heavy fraction extracted during preliminary sorting and processing of the initial waste, separated from plastic, paper and metal components.  10. Fuel according to claims 7 to 9, characterized in that it further comprises additives that bind sulfur dioxide released during combustion, hygienizing and / or eliminating odors, for example, based on lime.  11. Fuel according to claims 7 to 10, characterized in that it contains a fraction of soft debris crushed to a grain diameter of less than 10 mm, finely divided coal with a maximum water content of 10% and coarse coal with a grain diameter of up to 10 mm.  12. Fuel according to claims 10 and 11, characterized in that it contains quicklime as an additive.  13. Additive to burned coal, containing a fraction of soft garbage containing organic residues, selected during the preliminary sorting and processing of the initial garbage, characterized in that it additionally contains fat-containing residues, such as bleaching earth.  14. The additive according to item 13, characterized in that it further comprises additives that bind sulfur dioxide released during combustion, hygienizing and / or eliminating odors, for example, based on lime.  15. Additive according to claims 13 and 14, characterized in that it further comprises a crushed heavy fraction isolated during preliminary sorting and processing of the initial garbage, separated from plastic, paper and metal components.  16. The additive according to claims 13 to 15, characterized in that it contains a dried fraction of soft debris.