RU2791314C1 - Symbiotrophic module - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: symbiotrophic module is an autonomous area, isolated from the environment, in which the optimum temperature of 20-30°C for keeping various types of living organisms that feed each other and create a comfortable living environment for each other us created all year round. The symbiotrophic module consists of crop and livestock breeding units, a waste processing unit and a water treatment unit connected by outputs to the inputs of other units. The waste processing unit includes a device for processing waste into ecochernozem and concentrated soil solution, and the waste processing unit is connected by inputs to the outputs of the crop and livestock units. The symbiotrophic module additionally contains a pool with aquatic plants living in it. Sections for cassette keeping of bees are used as enclosing structures of the module.

EFFECT: increase in the bioproductivity of living organisms by optimizing feeding and maintenance with complete processing of waste products, including carbon dioxide released both during waste processing and during the breathing of animals.

4 cl, 1 dwg

Description

The invention relates to the field of agriculture and environmental improvement. It is known that the products and waste products of some species of organisms are food for other species; the trophic chains formed in this way are closed on a planetary scale. It is also known that people have long been using local closure of trophic chains to increase the efficiency of food production, for example: feeding livestock with vegetation and using manure to fertilize fields, which increases plant productivity. The use of waste always improves the environment and gives an economic effect in the form of a reduction in labor costs per unit of output. Therefore, an increase in waste processing and the closure of local trophic chains are among the main directions in the restoration of the environment.

The term "Symbiotrophs" was first proposed by F.Yu. Geltser /1/. Symbiosis significantly increases the survival of the organisms that have entered into a symbiotic relationship and expands their habitat area. The symbiosis of macro- and micro-organisms is especially important and obligatory for the survival of all multicellular organisms.

Russian academician A.M. Ugolev was the first to form an idea of the endoecology of humans and other higher organisms, pointing out that in trophic and metabolic terms, mammals are a complex system consisting of a dominant multicellular organism and specific bacterial cultures that maintain complex symbiotic relationships.

The symbiotrophic module is an artificial biogeocenosis created by man - living organisms and habitat. A symbiote module is a system that is characterized by the circulation of substances, a system capable of mutual regulation and maintaining its composition at a certain constant level. The Symbiotrophic Module is designed to create biogeocenoses not only inside the Symbiotrophic Module, but also around it.

In the Symbiotrophic module, you can get the right ratio of all components of biogeocenoses - a stable composition of the atmosphere, a regulated amount of vegetation, fertile soils, the composition and number of soil microorganisms, the number of animals raised. The symbiotrophic module provides all plants and all animals with specific protective microflora.

The composition of the atmosphere is regulated by the ratio of vegetation and animals. !2 kg of carbon fixed in the biomass of plants are obtained by the decomposition of 44 kg of CO2 (12 + !6 X 2). In 1 kg of vegetation (dry matter) approximately 45% carbon. The content of carbon dioxide in the composition of gases leaving the Symbiotrophic Module should not exceed 0.04%.

The main "producers" of oxygen in the atmosphere of the Symbiotrophic Module are fast-growing plants (grain sprouts, etc.) and microalgae, which are used as food for birds and fish.

Relatively recently, it was found that regulatory substances that turn biogeocenoses into a single whole produce fertile soils.

A person will never be able to artificially synthesize the great variety of regulatory substances that synthesize fertile soils, but he can produce highly fertile soils that are superior in humus content and other fertility indicators to chernozems /2/.

The creation of technologies for the production of highly fertile soils made it possible to create waste-free chains of living organisms in artificial climatic conditions in symbiotrophic modules, not only feeding each other, but also creating a comfortable living environment for each other.

The symbiotrophic module unites soil organisms, plants and animals by the phenomenon of “symbiotrophy”.

The creation of closed natural cycles leads to the fact that food produced there is a cardinal tool for restoring the human immune system and preventing systemic diseases.

Attempts to approach the creation of a symbiotrophic module are known.

For example, a complex is known in which blocks are combined together and form a residential building and utility rooms with a courtyard, and the residential and utility rooms are made in a two-level version, in which the house and utility rooms are placed in the plan of the complex so that they form a closed perimeter, inside where the pool is located, and all rooms of both levels are technologically connected to each other to ensure a single ecologically closed process of production and processing of biological products based on a multi-stage bioconversion cycle /3/.

Its disadvantage is the insufficiency of elements and connections for the use of waste and products of their processing, and there is no controlled processing of carbon dioxide released during the processing of waste and during the respiration of animals.

Known housing and production complex containing residential, crop, livestock and energy blocks interconnected by flows of matter, and crop and livestock blocks are located in temperature-controlled rooms, characterized in that the residential area is separated from the rest of the blocks that form the production area, and is equipped with a system collection and grinding of waste with a homogenizer, a waste processing unit was introduced into the production area, connected by inputs through pipelines to the output of the homogenizer and the outputs of the waste of the crop and livestock blocks, and the outputs - to the service water system of the residential area and all blocks, the inputs for supplying soil and stimulators for the development of crop production block, which includes a water purification system, a device for processing waste into ecochernozem and a concentrated soil solution, while the crop block includes devices for growing greens on ecochernozem, and the output of the device for growing greenery is connected to the power inputs of the residential area and the livestock block /4/.

Its disadvantage is the insufficient effectiveness of the totality of the means used and there is no controlled processing of carbon dioxide released during the processing of waste and during the respiration of animals .

The purpose of the invention is to increase the bioproductivity of living organisms by optimizing feeding and keeping with the complete processing of waste products, including carbon dioxide released both during waste processing and during the breathing of animals. The microelement composition of soils is enriched by the use of fossil fuels as raw materials (peat, brown coal, etc.), and then transferred along the trophic chains.,

This goal is achieved by the fact that the symbiotrophic module is an autonomous room, reliably isolated from the environment, in which optimal conditions are created all year round for keeping various types of living organisms that feed each other and create a comfortable habitat for each other, and in which the optimum temperature is provided for living organisms 20 - 30°C, and consisting of blocks that contain highly productive animals, soil organisms, and fast-growing plants.

To reduce the cost of thermoregulation, sections for cassette keeping of bees are used as enclosing structures of the symbiotrophic module, which not only reduces energy consumption for thermoregulation of the premises of the symbiotrophic module, but also allows you to create landscapes with entomophilous plants around the module within a radius of up to 2 km.

Sections for cassette keeping of bees bring the keeping of bees closer to the natural keeping, imitating a hollow, improve wintering conditions, facilitate maintenance, increase the productivity of bees. With its warmth, the symbiotrophic module facilitates wintering for bees, helps to maintain an optimal temperature in the heat, and prepares nectar-like food.

Sections with bees not only protect the inhabitants of the module in bad weather, but also provide marketable products.

Bees, unlike other insects, do not hibernate, but organize wintering on honeycombs, gathering in a club. The temperature in the club does not drop below 15 degrees, and in the hive it does not drop below 10 degrees. The bees use honey to heat the club. The cost of heating the hive is covered by bee products, so that the walls not only protect the module from bad weather, but also generate income.

The thermoregulation of the Symbiotrophic Module during cold weather is supported by air heating; in hot weather, the air is cooled by pumping through cool water.

Warm water contains heat-loving aquatic organisms. Aquatic organisms are also collected in a non-waste cycle. The main feed for aquatic organisms is produced by processing animal waste. In turn, the water cycle provides marketable products, feed and oxygen for animals.

There are many options for using different animal species in Symbiotrophic modules. Mandatory participants in the functioning of the Symbiotrophic Modules are chernozem-forming organisms as producers of ecochernozems and soil solutions necessary not only for growing fodder plants, but also for restoring soil fertility around the module, as well as bees that contribute to the restoration of landscapes with entomophilous plants.

Let us consider as an example the work of the especially demanded Symbiotrophic module quail - worm - sprouts of cereals and other plants together with the water cycle: aquatic plants (duckweed, eichornia) African catfish - chlorella - zooplankton.

If necessary, the symbiotrophic module can contain a boiler room that provides the optimum temperature inside the module during cold weather.

The described execution of the invention allows, while creating comfortable conditions and increasing productivity, to significantly reduce the consumption of heat and oxygen, as well as energy when obtaining useful products.

This device implements the connection of ground, underground and water cycles, which greatly increases productivity and improves the quality of food. Water allows you to regulate the temperature regimes inside the complex, the walls of which can be made, for example, from aerated concrete, which has a low thermal conductivity. The use of highly productive duckweed, which doubles the biomass per day, not only connects these cycles, but also accelerates them. Quail droppings are also food for duckweed, and duckweed is protein food for quail, duckweed contains up to 45% protein, and quail needs protein for egg production. Quail nutrition with duckweed has been confirmed experimentally. The most populated habitat on Earth has become fertile soils, which are the life regulator of any sustainable biogeocenoses. Chernozems have become the most highly productive soil, and ecochernozems created on their basis are even more productive. The raw materials for the production of ecochernozems are animal and vegetable waste. Animals "produce" carbon dioxide, which plants need for photosynthesis, and manure, which they need to produce soil for their own use and for sale, while plants produce oxygen and animal feed and marketable products.

One of the variants of the symbiotrophic module is described below, in which: 1 - a waste processing unit, including a series-connected unit 2 for collecting and grinding waste, a homogenizer 3, a device 4 for processing waste into ecochernozem and a concentrated soil solution (KPR), block 5 terrestrial plants, livestock block 6, mixer 7, pool 8, thermostat 9, water treatment unit 10, sections 11 of the cassette keeping of bees.

Blocks 1…10 are located in a closed temperature-controlled room, and sections 11 are located in the enclosure of the room and are made with internal transparent walls.

Block 2 has an input for loading external waste, other inputs are connected to the waste outputs of blocks 5 and 6, and outputs are connected to the input of homogenizer 3 and block 4 for processing into eco-chernozem and KPR, the other input of which is connected to the output of homogenizer 3, and the outputs are connected to the inputs blocks 5 and 6. The output of the block 5 of terrestrial plants is connected to the input of the mixer 7, the other input of which is connected to the output of the pool 8, and the output is connected to the input of the livestock block 6. The water treatment unit 10 is connected to the output of the homogenizer 3, and the outputs are connected to the inputs of the blocks 4, 5, 6 and the input of the thermostat 9, the output of which is connected to the input of the pool 8. Sections 11 of the cassette keeping of bees are connected by inputs to the output of the homogenizer 3.

The building for rational placement and maintenance has an area of 100 sqm or more. The building is equipped with multi-tiered racks, on which there are trays of block 5 of terrestrial plants and cages of the livestock block 6.

The thermostat 8 can, for example, be a heat exchanger, in the primary circuit of which water of the required temperature is supplied. The water preparation unit 10 has a purified water outlet connected to the inlets of blocks 4,5 and 6, and a feed water outlet connected to the thermostat inlet 9.

The symbiotrophic module works as follows: unit 2 is loaded with external waste, for example, from a farm. The waste of block 5 of terrestrial plants and litter from the livestock block 6 also come there. They are mixed, crushed to a particle size of 1 ... 2 mm and then their acidity is adjusted to a pH level of 6-8. Part of the mixture in the homogenizer 3, made as described in /5/, is brought to a particle size of 1 ... 10 microns suspended in a liquid, and together with the rest of the mixture is loaded into device 4, where it is processed into ecochernozem and concentrated soil solution ( CRC) as described in /2/. The duration of transformation into ecochernozem is, under optimal conditions, several days.

Ecochernozem enters block 5, where seeds are sown in it and green products are grown, for example, as described in /6/. The excess of eco-chernozem and CRC is a marketable product. The surplus of worms is partly supplied as food for quails to the livestock block 6, and partly is a commercial product for the preparation of medicines. Green products are mixed in the mixer 7 with the duckweed extracted from the pool 8 and sent to the livestock block 6 for feed, and its excess is also a marketable product. The duration of growing sprouts under optimal conditions is 6...8 days. In the pool 8, duckweed is grown from substances coming from the homogenizer 3 through the water treatment unit 10. The feed water in the thermostat 9 is brought to the required temperature and enters the pool 8, which has a large surface, the heat transfer from which sets the optimum temperature for all blocks of 20 ... 30 ° C throughout the building. The temperature control can go in both directions. In pool 8, fish is also grown - for example, African catfish, which is a commercial product of the module, for which products of homogenizer 3 are brought into pool 8. Periodically, products enriched with glucose are added to homogenizer 3 and the resulting products are used to feed bees in winter. In warm weather, bees pollinate the surrounding fields and accumulate honey.

The optimal way of operation of the device 4 for processing waste into enriched ecochernozem and enriched CRC is described in /7/.

Other exchange processes are also important for the operation of the module. Plants take in the carbon dioxide exhaled by animals, which consume the oxygen given off by plants. The content of carbon dioxide in the air of the module is several times higher than its concentration in the atmosphere.

As a result of the work, the module creates marketable products from incoming organic waste: quail eggs, which are especially necessary for baby food, quail carcasses, their feathers, green products, enriched eco-chernozems, concentrated soil solutions, enriched colloidal, chernozem-forming organisms, worms for the production of growth biostimulants, bee colonies and bee products.

At the same time, most of the trophic chains are closed inside the module, which ensures an increase in technical and economic efficiency.

Information sources:

1. F.Yu. Geltser "Symbiosis with microorganisms - the basis of plant life" Moscow 1990 publishing house of the Moscow Agricultural Academy.

2. Patent RU 2433109 C2 IPC C05G 3/08, prior. 08/05/2009.

3. Patent RU 2032048 C1 IPC A01K 1/00, priority 07/25/1994.

4. Patent RU 2535728 C1 IPC A01K 1/00, prior. 04.10.2013.

5. Utility model patent RU No. 74084 U1 IPC B06B 1/20 prior. 06/20/2008

6. Patent RU 2428403 C2, IPC C05F 3/06, prior. 11.11.2009

7. Patent RU 2707534C1 IPC C05G 3/00, prior. December 10, 2018

Claims (4)

1. Symbiotrophic module, characterized by the fact that it is an autonomous room, isolated from the environment, in which the optimum temperature of 20-30 ° C is created all year round for keeping various types of living organisms that feed each other and create a comfortable habitat for each other, consisting of plant and livestock blocks, a waste processing unit, which includes a device for processing waste into ecochernozem and a concentrated soil solution, and a water treatment unit connected by outputs to the inputs of the remaining blocks, and the waste processing unit is connected by inputs to the outputs of the crop and livestock blocks, additionally contains a pool with aquatic plants living in it, and sections for cassette keeping of bees are used as the enclosing structures of the module. 2. The module according to claim 1, characterized in that chernozem-forming organisms are used in the waste processing device. 3. The module according to claim 1, characterized in that duckweed is used as aquatic plants, and quails are used as farmed animals. 4. The module according to claim 1, characterized in that it includes a thermostat with a hot water inlet connected to the pool outlet.

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