MD613Z - Biohumus production complex - Google Patents

Abstract

The invention relates to agriculture and can be used in the processing of organic waste into biohumus.The biohumus production complex includes a compost preparation site (10), located near a compost fermentation site (3), a biohumus production site (12) and a heating system. The compost fermentation site (3) consists of a thermally insulated base, thermally insulated side walls and an inner wall, which divides the site (3) into two equal parts. The biohumus production site (12) consists of biohumus production ditches (1), alternating with technological ditches (2), consisting of a thermally insulated base and thermally insulated concrete walls. The ditches (1 and 2) are covered with thermally insulated covers and bridges, respectively. The heating system consists of pipelines for the heat-transfer agent, placed inside the compost fermentation site (3), equipped with valves (9) and connected to pumps (5) with thermostatic regulators (4) placed in technical reservoirs (11). To the pumps (5) are connected pipelines (7, 8) for the heat-transfer agent, connected to collectors (6), placed in the technological ditches (2), to which are connected hoses (22), placed in the biohumus production ditches (1).

Description

The invention relates to agriculture and can be used to process organic waste into biohumus.

A complex for producing biohumus in closed rooms (barns or tunnels, etc.) is known, in which the compost substrate is located in crates arranged on the shelves of a modular construction, placed on a concrete sector, where as a result a larger and better quality quantity of biohumus is obtained [1, p. 9 - 11].

The disadvantage of this complex is that the work is done manually, and in winter, heating the rooms is expensive and the capital investments are large.

There is also a known biohumus production complex, which consists of land, technological trenches, in which biohumus is produced, with a base and walls made of timber and without nails, in which about 50 earthworms can be obtained per lodge [1, p. 131].

The disadvantage of this complex is that in summer the temperature increases and can exceed the optimal living temperature of California red earthworms, and it is also not possible to mechanize the technological process.

The complex for producing biohumus in open ground during the cold season is also known, which consists of arranging microtunnels, made of arched metal mesh, installed on wooden stakes, with straw mats placed over the mesh, where shredded straw is placed between the microtunnels, and a thick layer of straw is placed over the mats [1, p. 134 - 139].

The disadvantages of the complex are that in the summer the temperature of the compost substrate is high, the substrate is unprotected from light, wind and rain, and in winter it is difficult to carry out the necessary work.

The closest solution is the process of processing agricultural waste into biohumus and its execution device, which consists of a number of stationary racks placed parallel with passages between them, in a greenhouse-type room, which is equipped with heating, humidification, ventilation and lighting systems. The racks are made of multi-level vertical pillars, equipped with pallets, which serve as bases for vermicompost boxes, and the vertical pillars are equipped with guides for placing additional pallets when forming new boxes, which are populated by worms migrating upwards. The levels are made in the form of layers consisting of rows of pallets, the joints of which are located on the lines of the vertical pillars, and are arranged one above the other at a height that ensures the possibility of adding new layers of compost. The guides on the vertical pillars for the additional pallets are located at the level of the initial lodges, and the pallets placed on these guides are made with a sharp side edge, which allows the separation of the initial layer from the added layer [2].

The disadvantages of the given invention are that it is impossible to mechanize the technological process, at the same time in summer the temperature in the greenhouses is high, and in winter heating the greenhouses is expensive.

The problem solved by the invention consists in eliminating the aforementioned disadvantages by producing biohumus in concrete trenches, optimizing and mechanizing the technological process.

The complex, according to the invention, eliminates the above-mentioned disadvantages by including a compost preparation sector, located next to a compost fermentation sector, a biohumus production sector and a heating system. The compost preparation sector consists of an agricultural waste accumulation area and a manure accumulation area. The compost fermentation sector consists of a thermally insulated base, thermally insulated side walls on both sides and an inner wall, which divides the sector into two equal parts. The biohumus production sector consists of biohumus production trenches, which alternate with technological trenches, consisting of a thermally insulated base and thermally insulated concrete walls on both sides, the biohumus production trenches and technological trenches are covered with thermally insulated covers and bridges, respectively. The heating system consists of pipes for the heating agent, located inside the compost fermentation sector, equipped with valves and connected to pumps with thermostats, located in technical tanks, while the pumps are connected to pipes for the heating agent, connected to collectors, located in technological trenches, to which hoses are connected, located in the biohumus production trenches.

The result of the invention consists in obtaining biohumus from various agricultural wastes by using California red earthworms.

The invention is explained by the drawings in Fig. 1 - 6, which represent:

- Fig. 1, biohumus production complex, top view;

- Fig. 2, biohumus production sector, front view in section;

- Fig. 3, biohumus production ditch, side view in section;

- Fig. 4, technological trench, side view in section;

- Fig. 5, compost fermentation sector, front view in section;

- Fig. 6, compost fermentation sector, top view.

The biohumus production complex (see Fig. 1) includes a compost preparation sector 10, which consists of two areas, one for the accumulation of agricultural waste (a) and the other for the accumulation of manure (b). The compost preparation sector 10 is located next to a compost fermentation sector 3. The latter (see Figs. 5 and 6) consists of a base 25, thermally insulated with an insulating layer 29, reinforced concrete pillars 30, placed at equal intervals and provided for ensuring the rigidity of the structure, side walls 28, thermally insulated on both sides with an insulating layer 29, and an inner wall 24, which divides the sector 3 into two equal parts. The complex also includes a biohumus production sector 12 (see Fig. 2), which consists of biohumus production trenches 1, alternating with technological trenches 2. The biohumus production trenches 1 (see Fig. 2 and 3) consist of a thermally insulated base 13 and concrete walls 14 thermally insulated on both sides with an insulating layer 15 and covered with thermally insulated covers 17, which are placed on supports 19 and fixed with fasteners 18. The technological trenches 2 (see Fig. 2 and 4) consist of a thermally insulated base 20 and concrete walls 14 thermally insulated on both sides with an insulating layer 15 and covered with decks 16, which, if necessary, are thermally insulated with straw bales. The biohumus production complex also includes a heating system (see fig. 1, 5 and 6), which consists of pipes 27 for the thermal agent, covered with protectors 26 and located inside the compost fermentation sector 3, equipped with valves 9 and connected to pumps 5 with thermostats 4, located in technical tanks 11, at the same time, pipes 7, 8 for the thermal agent are connected to the pumps 5, connected to the collectors 6 (see fig. 3 and 4), located in the technological trenches 2, to which hoses 22 and 23 are connected, fixed by clamps 21.

The biohumus production complex operates in the following way.

In the compost preparation sector 10, agricultural waste is deposited in the area of their accumulation (a) and manure in the area of its accumulation (b), after which the compost is prepared by mixing with the mixer for preparing feed from agricultural waste and manure. With the loader, the prepared compost is deposited in the compost fermentation sector 3 directly, without transporting it with the trailer. The compost fermentation sector 3, consisting of the thermally insulated base 25, the side walls 28 thermally insulated on both sides and an inner wall 24, allows maintaining the optimum temperature of the compost. The side walls 28 of the compost fermentation sector 3 are made at a height two times lower than the height of the inner wall 24. To ensure the rigidity of the construction, reinforced concrete pillars 30 are provided, placed at equal intervals. The biohumus production sector 12, due to the fact that it consists of four biohumus production trenches 1, allows the mechanization of the technological process using a bucket loader. The compost is distributed with the loader over the entire surface of the biohumus production trench 1 with a thickness of 100…150 mm, 500…30300 California red earthworms are introduced per square meter, compost is added with a thickness of 50…80 mm with a periodicity of 5…7 days. The execution of a complete cycle is 120…150 days. The biohumus production process takes place all year round, maintaining an optimal temperature for California red earthworms and minimal costs, due to the fact that the base 13 of the biohumus production trenches 1 and the concrete walls 14 are thermally insulated, and the insulating layer 15 of the concrete walls 14 is located at a depth that far exceeds the base 13 of the biohumus production trenches 1, the high soil temperature in summer and the low one in winter do not influence the optimal living temperature of the worms in the compost in the biohumus production trenches 1. The thermal insulation in the upper part of the trenches excludes heating of the compost substrate by direct penetration of sunlight and protects the earthworms from light. In winter, the compost substrate is additionally heated using the heating system. The heat agent in the pipes 27, located inside the compost fermentation sector 3, accumulates the heat released as a result of the compost fermentation process, which takes place in the given sector and is pumped by means of pumps 5 through the pipe system 8 to the collectors 6, located in the technological trenches 2, from where it is distributed to the hoses 22, located in the biohumus production trenches 1, thus heating the given trenches, after which the low-temperature heat agent is redirected through the pipes 7 to the compost fermentation sector 3. In order to make the heating process of the biohumus production trenches 1 more efficient, the heating system is divided into two divisions of 25 m of hoses 22, located on the walls of the biohumus production trenches 1. In order for the pipes 7 and 8, the hoses 22 and the collectors 6, located in the technological trenches 2, not to be damaged and to be protected from low temperatures, a deck 16 is installed over them, and if necessary, straw bales are placed over deck 16.

The mechanization of the technological process of biohumus production is possible due to the fact that the biohumus production trenches 1 are built 4 at a time, with the necessary interval for the technological trenches 2. When the biohumus layer reaches a thickness of 45…55 cm, nets are placed over it, on top of which a thin layer of compost is placed. The biohumus layer is first abandoned by the mature worms. The nets with worms are carefully taken, moved to the loader bucket, then distributed in the biohumus production trenches 1 with a new compost layer.

1. Городний Н.М., Мельник И.А., Povkhan М.Ф., Tivonchuk С.А., Гуцуляк В.Д., Сердюк А.Г., Вовкотруб Н.Ф., Ковалев В.Б., Надь Лоранд, Коржан С.И. Bioconversion of organic waste in biodynamic economy. Kiev, 1990, с. 9 - 139

2. RU 2108998 C1 1998.04.20

Claims (1)

Biohumus production complex, which includes a compost preparation sector (10), located next to a compost fermentation sector (3), a biohumus production sector (12) and a heating system; the compost preparation sector (10) consists of an agricultural waste accumulation area (a) and a manure accumulation area (b); the compost fermentation sector (3) consists of a thermally insulated base, thermally insulated side walls on both sides and an inner wall, which divides the sector (3) into two equal parts; the biohumus production sector (12) consists of biohumus production trenches (1), which alternate with technological trenches (2), consisting of a thermally insulated base and thermally insulated concrete walls on both sides, the trenches (1 and 2) are covered with thermally insulated covers and bridges, respectively; The heating system consists of pipes for the heating agent, located inside the compost fermentation sector (3), equipped with valves (9) and connected to pumps (5) with thermostats (4), located in technical tanks (11), at the same time, pipes (7, 8) for the heating agent are connected to the pumps (5), connected to collectors (6), located in technological trenches (2), to which hoses (22), located in the biohumus production trenches (1), are connected.