RU2369062C1 - Method of agricultural crop seed processing and device for its implementation - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention relates to agriculture and can be used for drying, presowing treatment and improvement of plant crop seeds. The method implies treating seeds which are presented as dried biomass with the moisture content of 8-14% in a mass-transfer unit divided by an air permeable baffle into a mixing and a low-pressure chamber with the latter being connected to the ventilation system. The seeds are placed in the mixing chamber on the air permeable baffle and an ozone-air agent is passed through them; the agent movement is ensured by the ventilation system operating in the aspiration mode. The temperature of the ozone-air agent exceeds the temperature of the seed mass by 5…12°C. The device comprises a mass-transfer unit separated by a horizontal air permeable baffle where the treated seeds are placed, an air heater, an ozoniser, an air moisturiser and a radial-flow fan operating in the aspiration mode. The mixing chamber is formed above the air permeable baffle in the upper part of the mass-transfer unit. The low-pressure chamber connected to the fan is placed in the lower part of the unit. The air heater, ozoniser and air moisturizer are connected to the mixing chamber by air channels. The ozoniser is used to produce ozone from the ambient atmospheric air.

EFFECT: invention allows for the improvement of the seeds treatment quality.

2 cl, 1 dwg

Description

The invention relates to agriculture and can be used for drying, presowing treatment and healing of flax seeds, various herbs, grains, legumes and other plant crops.

A known method of seed treatment, which uses the wetting of the seeds with a solution of copper sulfate and then moistened with copper sulfate, the seeds are exposed to air-heat heating during the day (RU 2002112203 A, 2003.11.20).

The disadvantages of this method are the prolonged heat treatment of seeds, requiring significant energy consumption, as well as the use of a chemically active substance that harms the environment.

A known method of seed treatment, including soaking seeds for 12 ... 18 hours in a solution of growth stimulants and using as a stimulant 0.15 ... 0.20% aqueous solution of zoogumin (RU 2005114802, A, 2006.11.20).

The disadvantages of this method include the limited range of use and the high complexity of the process.

The closest analogue of the present invention is a method of treating seeds of agricultural crops, including processing using an active working body (mass transfer unit) a stream of rotating seeds at a speed of 120 ... 150 rpm by an ozone-air mixture pumped by a device with a capacity of 30 m ³ / h, with an ozone concentration of 10 ... 80 mg / m ³ and processing time 5 ... 7 min, and the generated streams of rotating seeds move along a helical path progressively in opposite directions, while the speed of The active working body for soft seeds is 60 ... 70 rpm (RU 2299543, C2, 05.27.2007).

This method uses the principle of actively treating the flow of rotating seeds with an ozone-air mixture injected into the mass transfer unit in which the ozonation procedure takes place. To increase the efficiency of seed treatment with an ozone-air agent, mechanical movement of biomass along a helical path is used translationally and in opposite directions with a certain speed, depending mainly on the size, configuration, density of seeds, and also on the concentration of ozone-air agent.

The above requirements of the technological process parameters of the known method cannot be fulfilled if the seeds have high humidity, since they will stick together, as well as stick to the working bodies of the technological equipment.

This method cannot be implemented in the case of a complex configuration of seeds, since with mechanical movement they will adhere, forming strong agglomerates.

The use of high concentrations of ozone-air agent 50 ... 80 mg / m ³ leads to intensive destruction of mechanical parts and components of technological equipment. Therefore, to implement this method, it is necessary to use expensive, highly alloyed, stainless steel grades and chemically resistant polymeric materials.

In fact, the effectiveness of the implementation of this method is of low importance, since biomass transfer requires additional energy costs and, in addition, in each individual case, careful adjustment of the working bodies and seed treatment modes is required.

The disadvantages of this method are the low efficiency of seed treatment, the high cost of technological equipment, increased energy consumption per unit mass of products, as well as a limited range of use.

An object of the invention is to provide a method for treating seeds of crops with an ozone-air mixture, which allows drying, pre-sowing treatment and healing of flax seeds, various herbs, grains, legumes and other crops, the suppression of bacteria, viruses, fungal microflora of any origin with high efficiency, economical energy consumption, as well as a wide range of applications.

This task is achieved by the fact that in the proposed method for treating seeds of crops with an ozone-air mixture placed in a mass transfer unit connected to a ventilation system, a moistened, heated, ozone-air agent is passed through the bulk layer of seeds, the movement of which is provided by a ventilation system operating in the aspiration mode, and the temperature of the ozone-air agent exceeds the temperature of the processed biomass of seeds by 5 ... 12 ° C.

The drawing shows a functional diagram of a device for processing seeds of agricultural crops, explaining the operation of the proposed method.

The closest analogue (prototype) of the present invention is a device for processing seeds of agricultural crops, containing a container with a lid (mass transfer unit) and an ozone generator (ozonizer) with a pumping device, and inside the container there is a two-shaft working body, the shafts of which are mounted with the possibility of opposite rotation relative to each other each other by means of a multi-speed electric motor, while a fan, an exhaust pipe and a hopper are installed on the lid of the tank (RU 2299543, C2, 05.27.2007).

The disadvantages of this device are increased power consumption, low efficiency of the ventilation system, as well as a limited range of applications.

An object of the invention is to provide a device for processing seeds of agricultural crops, which allows drying, pre-sowing treatment and healing of flax seeds, various herbs, grains, legumes and other crops, the suppression of bacteria, viruses, fungal microflora of any origin, which has high efficiency, economical consumption electricity, as well as a wide range of applications.

This technical problem is achieved by the fact that in the device for processing seeds of agricultural crops, containing a mass transfer unit, separated by a horizontal air-permeable partition, on which the processed products, an air heater, an ozonizer and a centrifugal fan are placed, an air humidifier is introduced, providing an increase in seed moisture by 0.5 ... 3%, moreover, the breathable partition in the upper part of the mass transfer unit constructively forms a mixing chamber connected to the air supply evatelem, ozonizer and humidifier, while the bottom part forms a discharge chamber connected to the centrifugal fan operating in the suction mode.

The device comprises a mass transfer unit 4, separated by a horizontal air permeable partition 7, on which the processed product 6, an air heater 1, an ozonizer 2, an air humidifier 5 and a centrifugal fan 9 are located, the air permeable partition 7 in the upper part of the mass transfer unit 4 constructively forming a mixing chamber 3 connected with an air heater 1, an ozonizer 2 and an air humidifier 5, and in the lower part forms a vacuum chamber 8 connected to a centrifugal fan 9, work present in the aspiration mode, wherein the ozone-forming agent in the mixing chamber 3, passes through a bulk seed layer 6 in the vacuum chamber 8 and is discharged outward by the centrifugal fan 9.

Description of the device

Ozonation is one of the most progressive modern technological processes for seed treatment. The main advantages of using ozone are: high oxidation potential, the ability to obtain it at the place of consumption from oxygen, simplicity and affordability of ozone production in electrical apparatus, economic feasibility, waste-free production, environmental compatibility of ozone.

A device for processing seeds of agricultural crops consists of an air heater 1, an ozonizer 2, a mass transfer unit 4 separated by a horizontal air permeable partition 7, a humidifier 5 and a centrifugal fan 9. In the upper part of the mass transfer unit 4 above the horizontal air permeable partition 7, a mixing chamber 3 is structurally formed. the lower part of the unit 4 is a vacuum chamber 8, which is connected to a centrifugal fan 9. Air heater 1, ozonizer 2 and humidifier l air 5 is connected by air channels to the mixing chamber 3 of the mass transfer unit 4 in its upper part. Ozonator 2 produces ozone from ambient air. The movement of air-gas flows on the functional diagram is shown by arrows.

The seeds of agricultural crops 6 to be processed are loaded into the mixing chamber 3 directly onto the breathable partition 7. The centrifugal fan 9 operates in the aspiration mode. He sucks air from the vacuum chamber 8, creating a negative pressure in it. As a result of this, the air in the mixing chamber 3, through the air channels of the biomass 6 and the air-permeable baffle 7, moves into the rarefaction chamber 8 and then is discharged into the atmosphere by the centrifugal fan 9. Thus, a negative pressure is created in the volume of the mass transfer unit 4, which facilitates the movement of heated air from the air heater 1, ozone from the ozonizer 2 and moist air from the humidifier 5 to the mixing chamber 3, where an ozone-air agent is formed as a result of mixing of the air-gas components.

In the process of drying the seeds 6 in the first stage, only one component, ozone, is supplied to the mixing chamber 3. The air channels of the air heater 1 and humidifier 5, connecting them to the mixing chamber 3, overlap. In this case, the performance of the centrifugal fan 9 becomes minimal, since the ozonator 2 has significant resistance to air flow, and the vacuum in the chamber 8 reaches its maximum value. Moist biomass 6 is saturated with ozone coming from the mixing chamber 3, while the moisture is removed by evacuating the mass transfer unit 4. At this stage, seed disinfection occurs: suppression of bacteria, viruses, harmful insects, fungal microflora of any origin and other pathogenic environment.

At the second stage of drying, heated air from the air heater 1 is supplied to the mixing chamber 3 together with ozone, providing the optimal drying mode at the maximum performance of the centrifugal fan 9. The use of ozonized air during drying of wet biomass gives a significant economic effect, since the moisture yield from the seeds during ozonolysis sharply intensified.

Presowing treatment has its own specific features. Processed seeds are dried biomass containing 8 ... 14% moisture. In this regard, the usual ozone treatment of dried seeds is not highly effective, since the intensity of the diffusion processes of ozone with dry matter decreases with decreasing humidity.

The effectiveness of pre-sowing treatment increases dramatically if the ozone is mixed with moist air and the ozone-air agent obtained is passed through a bulk layer of seeds. Ozone is highly soluble in water, it is very effective in a humid environment, since its decomposition produces highly reactive hydroxyl radicals. In addition to this, the life time of ozone in water is longer than in dry air. As a result, a wet film is formed on the surface of the seeds in which ozone is dissolved, while the moisture content of the seeds during processing should not increase by more than 0.5 ... 3%, otherwise the biomass will cease to be loose due to the bonding of seeds. To accelerate the formation of a surface wet film, it is necessary to increase the temperature of the ozone-air agent by 5 ... 12 ° C relative to the biomass in order to form condensate on the surface of the seeds.

The proposed device allows for pre-sowing treatment of seeds 6 using an ozone-air agent obtained by mixing ozone with moist and heated air in the mixing chamber 3, while the processing conditions are set by changing the values of the air flows of the heater 1, ozonizer 2 and humidifier 5, and also by changing the operating mode of the centrifugal fan 9. If necessary, the moisture content of the biomass can be brought to the optimum value.

The process of recovery of seeds does not fundamentally differ from the drying process and pre-sowing treatment, its features are characterized by certain technological modes that are easily implemented when using the proposed device.

The main advantage of the proposed method is the high efficiency of the treatment, during which it is necessary to suppress bacteria, viruses, fungal microflora and other pathogenic media in a short time and at the same time carry out rapid recovery of agricultural products.

Using an aspiration system for processing products allows reducing energy costs by 1.5 ... 2 times compared to existing systems of fresh air ventilation.

The treatment of seeds with the proposed method has a universal effect: increases their safety and increases protection against pests and rodents. It has undoubted advantages over the well-known traditional processing methods, which make it possible to abandon expensive scarce and toxic chemicals, ensuring the ecological purity of products.

Its use is especially effective in conducting high-level biotechnology for research purposes.

The application of this method does not violate the ecology of the environment, and also does not cause genetic and structural changes in the processed products.

Claims (2)

1. A method of treating seeds of agricultural crops, characterized in that the treatment of seeds, which are dried biomass containing 8-14% moisture, is carried out in a mass transfer unit separated by an air-permeable partition into a mixing chamber and a discharge chamber, which is connected to the ventilation system, the seeds are placed in a mixing chamber on an air-permeable septum, and passed through them, obtained by mixing ozone with moist and heated air in a mixing chamber, ozone ozdushny agent whose movement provides the ventilation system operates in suction mode, wherein the ozone-agent temperature exceeds the temperature of the treated seed weight by 5 ... 12 ° C. 2. A device for processing seeds of agricultural crops, characterized in that it contains a mass transfer unit separated by a horizontal air-permeable partition, on which the treated seeds, an air heater, an ozonizer, an air humidifier, which increases the moisture content of seeds by 0.5 ... 3%, and centrifugal are placed a fan operating in the suction mode, in this case a mixing chamber is formed in the upper part of the mass transfer unit above the air-permeable partition, and in the lower part of the unit a rarefaction measure connected to a centrifugal fan, wherein the air heater, ozonizer and humidifier are connected by air channels to the mixing chamber, and the ozonizer generates ozone from the ambient air.