FI13268Y1 - Deep composter - Google Patents

Abstract

1. A deep composting device consisting of an external structure with a base (1) and an air pressure dome (1a) and an openable cover (3) at the top, characterized by the fact that the air pressure dome (1a) and liquid collection space (1b) in the bottom (1) are pumped with a liquid pump (1c) ) liquid into the upper part of the inner container (4), into the compost, creating a uniform circulation of the liquid in the compost, and that by opening and closing the air valves (3b) and (3c) of the air pressure control (3a) in the cover (3), the air pressure in the composting device can be adjusted, speeding up or slowing down the ventilation. In addition, protection requirements 2-4.

Description

DEEP COMPOSTING DEVICE - DJUPKOMPOSTERARE

FIELD OF THE INVENTION The object of the invention is a deep composting device, which consists of an outer structure with a base and an air pressure dome and an opening lid at the top.

BACKGROUND OF THE INVENTION Composting equipment of this type is presented in Finnish utility models 13151 and 13166.

The invention concerns the collection of biological waste from communities — and a deep composter. A deep composter processes biowaste into compost with the help of biological microbial activity in a composter that is dug into the ground. When composting, biological waste is odorless, its quantity is reduced and it can be stored and composted near the place of origin (in the yard) in an odorless manner. The composting process can be completed in accordance with the invention. in a deep composter close to its place of origin or it can be emptied for removal N further from the place of origin of the waste for centralized composting. 3 25 N The deep composting equipment according to the invention can be used, for example, in the co-composting of bio-waste from 7 households in apartment and townhouses, in the composting of bio-waste from larger & sites such as large kitchens and in the composting of residual sludge from sewage treatment plants. 3 30 S Biological waste is effectively composted under optimal conditions. At a suitable temperature, in the right nutrient ratio C-N-P (carbon - nitrogen - phosphorus), in an effectively ventilated space with oxygen for biological decomposition and in suitable humidity conditions, when microbes are effective in breaking down bio-waste. Efficient waste sorting and utilization are today an essential part of housing and the infrastructure that belongs to it. According to the new regulations (Finnish and EU regulations), efficient utilization of waste is necessary wherever waste is produced. According to waste treatment goals (EU and Finnish goals), waste should be utilized as well as possible. According to the new waste legislation, 55 percent of municipal waste must be recycled in Finland in 2025 and already 65 percent in 2035. Efficient sorting of waste is necessary to increase the recycling rate. In a deep composter, biological waste can be processed, stored and utilized in the immediate vicinity of its place of origin, which is the most cost-effective and recommended way of waste treatment (EU directives). It is the most environmentally friendly option because the environment is not burdened with unnecessary waste transport costs. In the same way, it is the most economical method of processing calculations. Biological waste is often generated from several small sites, and an obstacle to their efficient utilization in large processing units is the amount of waste transportation costs. Biological waste should be utilized close to its place of origin, either in its entirety by composting it or partially, by reducing its amount before transferring it to a larger one. for co-composting.

N a 25 Biological waste is also the waste fraction that contaminates other wastes and complicates the utilization of waste fractions that can be rolled up. Among other waste fractions, it 7 causes odors, runoff and increases the need for reductions in waste disposal. & When biological waste is sorted out of other fractions, recycling is also more profitable, 3 in the form of fewer emptyings and larger single transport quantities. 3 30 S Achieving a high utilization rate of biowaste in an environmentally friendly manner is challenging with the currently used and known methods.

PURPOSE OF THE INVENTION With the help of the device, biological waste can be processed and utilized in the immediate vicinity of its place of origin, which is the most cost-effective and recommended way of waste treatment (EU directives). It is the most environmentally friendly option because the environment is not burdened with unnecessary waste transport costs. In the same way, it is the most economical method of processing calculations. Effective techniques for utilizing bio-waste include drum composters and tunnel composters in co-composting. However, these techniques are not technically complex, but are nevertheless expensive. They cannot be easily used in pre-composting, when the composting of bio-waste to the end of the process is desired to take place in a common composting place.

The deep composting device according to the invention is characterized by the fact that liquid is pumped from the air pressure hood and the liquid collection space at the bottom to the upper part of the inner container, into the compost, creating a uniform circulation of the liquid in the compost, and that by opening and closing the air pressure control air valves on the lid, the air pressure in the composting device can be adjusted, speeding up or slowing down the ventilation. : The different application forms of the invention are in the non-independent N protective claims of the protective claim arrangement. 3 25 N The device according to the invention is efficient and easy to maintain for biowaste composting and it 7 is suitable for co-composting bio-waste either in the device itself or for pre-composting & enabling odorless storage and reducing the amount of bio-waste before transfer 3 to co-composting. a 30 S Devices suitable for joint composting, i.e. current biowaste drum composting equipment and tunnel composting equipment, are at best equipped with mechanical air circulation. Air circulation is introduced into the composters by means of a pressure-increasing fan or a similar mechanical device. As the composting process progresses, the biowaste becomes denser. As the bio-waste compacts, the back pressure in the compost increases, which worsens the air circulation. In the device according to the invention, the air circulation also works when the waste is compacted, because the device is equipped with a pressure hood, which automatically controls the pressurized air circulation. Air circulation in current bio-waste composting equipment can be adjusted with the help of a fan. The air circulation is also affected by the temperature difference inside the composter and outside. However, the adjustment requires quick actions from the user when the temperature changes outside. In the device according to the invention, the air circulation is adjusted more efficiently, because the invention is placed underground in an unchanging temperature condition and the air circulation is automatically equalized by monitoring the air pressure in the bottom space. Even humidity conditions inside the composter are important for an efficient composter. In current biowaste composting equipment, the humidity can vary significantly, the compost is wetter at the bottom and drier at the top. Composting is not efficient and various microbes form in the composter. In addition, the air circulation through the wetter compost mass (bottom) deteriorates. . In the device according to the invention, the moisture conditions are uniform, because the invention is N equipped with automatic moisture recycling, which equalizes the same moisture throughout the N 25 compost mass. <Q

QA 7 The correct nutrient balance (C-N-P) is important for the efficiency of composting. & In current composters, nitrogen is removed due to uneven oxygen conditions. Nitrogen is oxidized to nitrate (nitrification) in oxygenated conditions, which is a good thing, but when the conditions are low in oxygen, S (denitrification) nitrogen gas is released into the air through reduction. Nutrients also leave the composter through evaporation.

The device according to the invention has uniform oxygen conditions, because the invention is equipped with pressure monitoring that maintains the air space and a pressure hood, so that the oxygen content can be controlled. Low-oxygen conditions are not created and nitrogen does not leave the composter in large quantities. 5 Adequate temperature in the compost is important for microbial activity. Current bio-waste facilities often have a lot of thermal insulation in the walls, lid and bottom, which aims to ensure composting in cold conditions. Since temperature is caused by the efficiency of microbial activity, the conditions of microbial activity are of primary importance for maintaining the correct temperature in cold conditions. The composter according to the invention has an automatically adjustable air circulation, the correct moisture balance in the entire composter and the nutrient balance contribute to maintaining a sufficient temperature in cold conditions.

Techniques used for the collection of bio-waste are above-ground smaller bio-waste containers, which are emptied by generally used waste trucks, and underground larger bio-waste collection containers, which are emptied by special waste trucks. Both use waste bags to keep dishes clean and odor-free. The problem is poor grounding of waste bags and poor air circulation. In oxygen-free conditions, biowaste smells and causes liquid accumulation and runoff. . It should be easy to empty the biowaste collection container. The current mechanical emptying of biowaste tank N into a waste truck is harmful to the environment, e.g. because of odors and N 25 leachates. <Q

QA 7 The device according to the invention is easy to empty in its inner container, and intermediate storage & further composting in the container can be continued either at the place of origin of the waste or in its vicinity, temporarily stored without harm to the environment in the form of odorous or leachate liquids 3 30.

N 5 It should be easy to empty the composter. In the current biowaste drum composter and tunnel composter equipment, it is possible to empty the waste mechanically. They are not suitable for emptying pre-composted bio-waste because handling pre-composted waste with a tractor or bucket loader or similar work machine is harmful to the environment, e.g. because of odors and leachates.

The device according to the invention is easy to empty in its inner container, and intermediate storage and further composting in the container can be continued either at the place of origin of the waste or in its vicinity, temporarily stored without environmental harm in the form of odors or leachates.

Detailed description of the invention with reference to the accompanying drawing showing a deep composting device in section Deep composting device consisting of an outer structure, base 1, air pressure hood 1a, liquid collection space 1b, liquid pump 1c, walls 2, opening lid 3, lid air pressure control 3a, air valves 3b and 3c and inner container 4, inner container intermediate cover 4a, from the bottom plate of the inner container 4b The air pressure hood 1a has gaskets with which it seals to the base 1 and the inner container 4 with the help of the weight of the inner container 4, forming a tight space.

The air pressure dome 1a is open from above, connecting it to the inner container through the base plates 4a to the compost space of the inner container 4. N Air pressure dome 1a has liquid collection 1b and liquid pump 1c. & i 25

S N Inner vessel 4 has bottom plate(s) 4b.

O x a Inner container 4 has an intermediate cover (4a) with adjustable air circulation openings.

S

S N 30 Cover 3 has air pressure control 3a, via air valves 3b and 3c.

No. 5

When two or more deep composting devices work side by side, they form a deep composting equipment, where one device is filled with biowaste while the other/other devices act as secondary compost. It is clear to a person skilled in the art that the invention is not limited exclusively to the example explained above, but can vary within the limits of the protection requirements presented below.

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No. 5

Claims (4)

PROTECTION REQUIREMENTS 1. Deep composter consisting of an outer structure with a bottom (1) and an air suction bucket (1a) and in the upper part there is a lid (3) which can be opened, characterized by the compressed air bucket (1a) in the bottom (1) and the liquid collection space ( 1b) is pumped with the liquid pump (1c) liquid to the upper part of the inner container (4) and the compost, which constitutes the even circulation of the liquid in the compost and that the air pressure control (3a) air valves (3b) and (3c) can adjust the air pressure via opening and closing in the composting device, to increase or decrease the air conditioning. 2. Deep composter according to protection requirement 1, characterized in that the air suction bucket (1a) divides the air in terms of pressure in the compost's inner container via a bottom plate (4b) which is removed via the valves (3b) and (3c) of the air pressure control (3a). 3. Deep composter according to protection requirements 1 or 2, characterized by the fact that the bottom (1), the suction bucket (1a) and the inner container (4) are sealed by the weight of the container and constitute an airtight construction when the inner container is in place in the device, and enable replacement of the complete the inner container against an empty easily. 4. Deep composter according to any of the protection requirements above, characterized in that the air pressure cup (1a) in the bottom (1) of the device equalizes the temperature of the incoming air at the different seasons underground to a uniform temperature. N No <Q QA O I = > S O O N QA O No. 5