EA038561B1 - Complex of equipment and method of waste-free processing of biodegradable municipal waste - Google Patents

Abstract

A complex of equipment for a waste-free processing of biodegradable municipal waste is solved in such a way that at the input (1) of BMW a crusher (2) is included, the output of with is connected to either a hygieniser (3) or a drying line (5). The output from the hygieniser (3) is connected to the biogas plant (4) input. The output of the bulk intermediate from the biogas plant (4) is connected to the drying line (5). The drying line (5) output is connected either to a pyrolyzer (7) with a second product output (7.1) of bio-coal or is connected to a compaction machine (8). The drying line (5) or the compaction machine (8) has the first product output (8.1) of soil substrate. From the pyrolyzer (7) to the drying line (5) there is a return loop included through a mixing device (6) with input (10) of bio-nutrient waste, whereby the compaction machine (8) included after the drying line (5) has a third product output (8.2).

Description

Technology area

The invention relates to a set of equipment and a method for waste-free processing of biodegradable municipal waste (BMO). The invention relates to the field of waste processing.

State of the art

Biodegradable municipal waste also includes biological food service waste from homes and food service establishments. There are residues after cleaning fruits and vegetables, residues of ready-made meals, etc. From a quantitative point of view, catering and restaurant waste is the most important contributor to mixed municipal waste. Depending on the time of origin, they make up 30-45% of the weight. This component of a separate collection must be sorted out at the source of its origin in order to prevent excessive pollution by foreign substances. This waste requires urgent processing. They are a very dense material and must be mixed with free flowing agents (such as straw or wood shavings) when composting waste to improve air flow. Frequent mixing is necessary, especially in the early stages of composting waste. As the waste decays, they experience a strong demand for air and quickly enter the anaerobic phase of fermentation. Thus, they are also used in anaerobic digestion. This happens all year round when composting waste and producing biogas from animal catering waste or mixtures of plant and animal materials, and the rules set out in Commission Regulation (EC) No 1774/2002 must be adhered to.

Biodegradable municipal waste can be disposed of using what is known as hygienization. It is a process by which pathogenic microorganisms are removed or significantly reduced by exposure to high temperature and time and therefore also the health risks associated with the use of products derived from this biological waste.

Commission Regulation (EC) No 1774/2002 regarding animal by-products came into force in the Slovak Republic after our accession to the EC in May 2004. This regulation sets out health standards for animal by-products that are not intended for human consumption. The regulation sets out the rules for handling these products, toughens the ban on feeding and, in addition, introduces an additional degree of control (the regulation has not been introduced into national legislation, but is applied directly). This regulation also defines the rules for the processing of materials containing animal by-products in composting and biogas plants. The regulation also applies to the following catering waste:

i) originating from international vehicles;

ii) intended for feeding animals;

(iii) intended for use in biogas production or waste composting.

Regulation (EC) No 1774/2002 divides organic materials into three categories according to hygiene risks.

Category 1 material: This includes, but is not limited to, catering waste from international vehicles.

Category 2 material: This includes, but is not limited to, manure and digestive contents.

Category 3 material: This includes, but is not limited to, animal by-products from the manufacture of products for human consumption, including fat-free bones and fat residues;

Expired food products of animal origin, other than catering waste, that are no longer fit for human consumption for commercial reasons or due to manufacturing problems or packaging defects;

catering waste, excluding waste from international vehicles.

Even a small amount of material from the highest category means a higher categorization and, therefore, also more stringent conditions for the handling of this material.

Category 1 materials must be recycled and no recycling technology allowed. For some Category 2 materials, anaerobic digestion and composting are also possible, and they are also possible for all Category 3 materials.

When recycling LMC, taking into account the hygienic requirements of Regulation (EC) No 1774/2002, it is necessary to grind the waste to particles with a maximum particle size of 12 mm, and the waste must remain at a temperature above 70 ° C for 60 minutes.

From the above it follows that the result of the requirements of Regulation (EC) No 1774/2002 is that composting of catering waste is only possible in closed bioreactors equipped with automatic temperature measurement. Deterioration of public catering waste is possible only at biogas plants with a hygiene scale. Sources of waste that

- 1,038561 are currently giving their catering waste for feeding, they will look for new ways to recover or utilize this waste in the near future. For some composting and biogas plants, this provides the opportunity for waste to be recycled. The waste will require high hygiene requirements, but at the same time, the cost of using this waste should be significantly higher than for other waste. Regulatory requirements must be met by existing waste composting facilities using municipal biological waste collected at the marshalling yard, which also contains catering waste. This will apply to the vast majority of individual biological waste collection systems in the Slovak Republic. The increased costs of using catering waste must be paid for by the waste sources for the use of this waste.

Based on the above, attempts have been made to solve this problem, and the result of this attempt is the development of a set of equipment for waste-free processing of biodegradable municipal waste and a method for waste-free processing of biodegradable municipal waste in accordance with the presented invention.

The essence of the invention

The above disadvantages are essentially eliminated by a complex of equipment for waste-free processing of biodegradable municipal waste and a method of waste-free processing of biodegradable municipal waste in accordance with the presented invention. The essence of the basic configuration of a complex of equipment for waste-free processing of biodegradable municipal waste is that a shredder is located at the first inlet of a complex of equipment for BMO, the outlet of which is connected to a hygienizer or drying line in a controlled manner. The outlet of the free-flowing intermediate product from the hygienizer is connected to the inlet of the biogas plant. The outlet of the free-flowing intermediate product from the biogas plant is connected to a drying line. The outlet of the drying line is connected to a pyrolyzer with an outlet for the second biochar product or connected to a compaction machine. Thus, the drying line or compacting machine has an outlet for the first product of the soil substrate. The compacting machine also has an outlet for the first product of granular soil substrate.

The complex of equipment for waste-free processing of biodegradable municipal waste can be expanded with an additional input of raw material in such a way that a return loop is provided from the pyrolyzer to the drying line, connected through a mixing device with an input for biological waste of nutrients. The dryer line or compactor also has an outlet for the third product of the reclamation substrate. The compactor also has an outlet for a third product of granular soil reclamation substrate.

A complex of equipment for waste-free processing of biodegradable municipal waste has an output of heat energy, and / or an output of electricity, and / or an output of compressed natural biogas (Bio-CNG) energy from a biogas plant.

In the complex of equipment described above, a method of waste-free processing of biodegradable municipal waste is implemented, the essence of which lies in the features described below. In a waste-free method for recycling biodegradable municipal waste, it is also important to prepare the material to be recycled. Recycled waste is collected in tanks and then fed to the inlet for the first raw material for biodegradable municipal waste, after which it is crushed by a grinding operation in a shredder, which grinds to a fraction at which the particles have a maximum particle size of 12 mm. The subsequent operation depends on the composition of the LMC.

If LMOs consist only of plant waste - phytomass, such as leaves, pruning of branches and shrubs after landscape design, the operation of drying the input crushed biodegradable municipal waste to dry soil substrate, which is already in free-flowing form as an output product, follows. If the granulation operation of the dry soil substrate occurs after the drying operation, the first output product is the granular soil substrate.

The technology described above can be expanded such that the dry soil substrate is transferred to the next carbonization step with a second output product, which is biochar.

If BMOs consist only of plant waste - phytomass, such as peel of potatoes, vegetables or cucumbers, tops, as well as animal waste - biomass, such as leftover meat dishes, from catering and restaurant waste, then a hygienization operation follows, when which crushed BMOs are exposed to temperatures above 70 ° C for 60 minutes with stirring. The result of hygienization is an intermediate product of hygienized biomass. The hygienized biomass is processed in the next biomass gasification step, the intermediate waste product of which is digestate (separately). The main products of biomass gasification are heat that can be used in drying operations, electricity used to power at least some of the equipment for the waste-free processing of biodegradable municipal waste and compressed natural biogas (Bio-CNG). The intermediate waste digestate (separate) is fed into the dryer and through the drying operation it is processed by drying into a dry soil substrate, which is already in free-flowing form as an output product. If the granulation operation of the dry soil substrate occurs after the drying operation, the first output product is the granular soil substrate.

The technology described above can be expanded such that the dry soil substrate is transferred to the next carbonization step with a second output product, which is biochar.

In yet another advanced technology, the second biochar output product goes to the next mixing operation - mixing with biological waste nutrients from the second inlet, where the intermediate mixing product is fed to the drying operation with the output of dry soil reclamation substrate if the dry reclamation soil substrate is subjected to a granulation operation. get the third output product of granular soil reclamation substrate.

The advantages of a set of equipment for the non-waste processing of biodegradable municipal waste and a method for the non-waste processing of biodegradable municipal waste in accordance with the invention are obvious from the effects that they manifest from the outside, in general, it can be argued that the originality of the presented equipment complex lies in the fact that the requirements of the Regulation (EC) are met. No. 1774/2002 when processing BMO with a hygienic scale and, at the same time, obtain a wide range of output products, such as free-flowing soil substrate or in the form of granules, free-flowing amelioration substrate or in the form of granules and biochar. At the same time, heat energy outputs and / or electrical energy outputs and / or compressed natural biogas (Bio-CNG) energy outputs are generated.

Description of figures in drawings

The essence of the solution in accordance with the invention will be explained in more detail in the drawings, in which FIG. 1 is a set of equipment for waste-free processing of biodegradable municipal waste; fig. 2 is a block diagram showing a waste-free method for processing biodegradable municipal waste in a package of equipment.

Examples of implementation options

It should be understood that certain implementations in accordance with the invention are illustrative and not limiting technical solutions.

Those skilled in the art will find or be able to establish, using no more than routine experimentation, a wide variety of equivalents to specific embodiments of the invention. Also, such equivalents will be included within the scope of the following claims.

For a person skilled in the art, it will not be a problem to realize the optimal design and select its elements. For this reason, these features have not been described in detail.

Example 1.

This example of a specific implementation describes the minimum configuration of a set of equipment for waste-free processing of biodegradable municipal waste in accordance with the invention, as shown in FIG. 1. It consists of the first inlet 1 for BMO in a complex of equipment, which contains a shredder 2, the outlet of which is connected to a hygienizer 3 or a drying line 5 in a controlled manner. The outlet of the bulk intermediate product from the hygienizer 3 is connected to the inlet of the biogas plant. The outlet of the free-flowing intermediate product from the installation 4 for biogas production is connected to the drying line 5. The outlet of the drying line 5 is connected to the pyrolyzer 7 with an outlet 7.1 for the second biochar product or connected to the compaction machine 8. Thus, the drying line 5 or the compaction machine 8 has an outlet 8.1 for the first product in the form of a free-flowing or granular soil substrate. The complex of equipment for the non-waste processing of biodegradable municipal waste has an output of 4.1 heat energy, and / or an output of 4.2 energy of electricity, and / or an output of 4.3 energy of compressed natural biogas (Bio-CNG) from unit 4 for biogas production.

Example 2.

In this example of a specific embodiment, the complete configuration of a complex of equipment for waste-free processing of biodegradable municipal waste in accordance with the invention is described, it follows from the minimum configuration described in example 1, and is expanded as described below. The complex of equipment for the non-waste processing of biodegradable municipal waste can be expanded with an additional input of raw material in such a way that a return loop is provided from the pyrolyzer 7 to the drying line 5, connected through a mixing device 6 with an input 10 for biological waste of nutrients, such as animal manure. Further, the drying line 5 or the compaction machine 8 has an outlet 8.2 for the third product in the form of a free-flowing or granular reclamation substrate.

Example 3.

This example of a specific implementation describes a limited method of waste-free processing of biodegradable municipal waste in accordance with the invention, implemented on

- 3 038561 the above-described set of equipment for the non-waste processing of biodegradable municipal waste described in example 1, while in the method according to the invention, the processed waste is collected in tanks and then fed to inlet 1 for the first raw material for biodegradable municipal waste BMO, after which they are crushed by grinding operation A in a grinder, which grinds to a fraction at which the particles have a maximum size of 12 mm.

If LMOs consist only of plant waste - phytomass, such as leaves, pruning of branches and shrubs after landscape design, the operation of drying the input crushed biodegradable municipal waste to dry soil substrate, which is already in free-flowing form as an output product, follows. If the step E of granulating the dry soil substrate D.1 takes place after the step D drying, the first output is the granular soil D.1-1.

The technology described above can be expanded so that the dry soil substrate £ is transferred to the next carbonization step F with a second output F.1-1, which is biochar.

If BMOs consist only of plant waste - phytomass, such as the peel of potatoes, vegetables or cucumbers, tops, as well as animal waste - biomass, such as leftover meat dishes, from catering and restaurant waste, then hygienization operation B follows. in which the crushed BMOs are exposed to temperatures above 70 ° C for 60 minutes with stirring. The result of hygienization is intermediate product B.1 of hygienized biomass. The hygienized biomass is processed in the next step C of biomass gasification, the intermediate waste product C.1 of which is digestate (separately). The main products of biomass gasification are heat H. biogas H.3 (Bio-CNG). The intermediate waste digestate C.1 (separate) is fed into the dryer, and by drying step D it is processed by drying into dry soil substrate D.1, which is already in free-flowing form as an output product if step E is granulating dry soil substrate D .1 passes after drying step D, the first output D.1-1 is a granular soil substrate.

The technology described above can be extended so that the dry soil substrate D.1 is transferred to the next carbonation step F with a second output F.1-1, which is biochar.

Example 4.

This example of a specific implementation describes a complete method of waste-free processing of biodegradable municipal waste in accordance with the invention, implemented in the method described above in example 3, expanded as described below. The second output product F.1-1 of biochar goes to the next step G mixing - mixing with biological waste nutrients from the second input 10, where the intermediate product G.1 mixing is fed to step D drying with the output of dry soil reclamation substrate D.2. If the dry soil reclamation substrate D.2 is subjected to the granulation step E, a third granular soil reclamation substrate output D.2-1 is obtained.

Industrial applicability

The industrial applicability of a set of equipment and a method for waste-free processing of biodegradable municipal waste in accordance with the invention, in particular, is included in the field of BMO processing.

Claims (8)

CLAIM 1. A complex of equipment for waste-free processing of biodegradable municipal waste (BMO), containing a shredder (2) with an inlet for BMO, a hygienizer (3), an installation (4) for biogas production, a drying line (5), a pyrolyzer (7) and a compacting machine (8), and the outlet of said grinder (2) is connected to a hygienizer (3) or a drying line (5); the outlet of the hygienizer (3) is connected to the inlet of the installation (4) for biogas production; the outlet of the bulk intermediate product from the installation (4) for biogas production is connected to the drying line (5); the outlet of the drying line (5) is connected to a pyrolyzer (7) having an outlet (7.1) for the second product in the form of biochar, or connected to a compaction machine (8); moreover, the drying line (5) or the compacting machine (8) has an outlet (8.1) for the first product in the form of a soil substrate. 2. A set of equipment for waste-free processing of biodegradable municipal waste according to claim 1, characterized in that a return loop is provided from the pyrolyzer (7) to the drying line (5), connected through a mixing device (6) with an inlet (10) for biological nutrient waste. substances, and the compacting machine (8), provided after the drying line (5), has an outlet (8.2) for the third product. - 4 038561 3. A complex of equipment for waste-free processing of biodegradable municipal waste according to claim 1, characterized in that the installation (4) for biogas production has an outlet (4.1) for heat, and / or an outlet (4.2) for electricity, and / or an outlet (4.3 ) for compressed natural biogas (Bio-CNG). 4. A method of waste-free processing of biodegradable municipal waste in a complex of equipment according to claims 1 to 3, in which, at the first stage, operation (A) of crushing of biodegradable municipal waste is carried out, followed by one of the operations (B or D): step (B) for a mixture of plant and animal waste, consisting of the hygienization of shredded biodegradable municipal waste with an intermediate product (B.1) of hygienized biomass, which is further processed in step (C) gasification of biomass with intermediate product (C.1) digestate, and it is further processed in step (D) drying to a dry soil substrate (D.1); step (D) for plant waste only, consisting of drying the biodegradable municipal waste shredded at the inlet to a dry soil substrate (D.2). 5. A method of waste-free processing of biodegradable municipal waste according to claim 4, characterized in that after the drying step (D) is followed by the step (E) granulating the dry soil substrate (D.1) to the first output product (D.1-1) of the granular soil substrate. 6. A waste-free method for processing biodegradable municipal waste according to claim 4, characterized in that the dry soil substrate (D.1) is transferred to the next carbonization step (F) to obtain a second output product (F.1-1) in the form of biochar. 7. A waste-free method for processing biodegradable municipal waste according to claims 4-6, characterized in that said second output product (F.1-1) is transferred to the next step (G) of mixing nutrients with biological waste from the second input (10), where the intermediate product (G.1) mixing is fed to the step (D) drying to obtain a dry soil reclamation substrate (D.2). 8. A method of waste-free processing of biodegradable municipal waste according to claim 7, characterized in that after the drying step (D) is followed by the step (E) granulating the dry reclamation soil substrate (D.2) to the third output product (D.2-1) in the form of granular soil reclamation substrate.