RU2555799C1 - System of fumigation of grain with phosphine - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: system comprises the phosphine generator with a control valve, a fan for supplying gas-air environment to the silage and piping. The phosphine generator is equipped with a dryer of recirculated gas-air environment. After the control valve on the outlet pipe of the phosphine generator an atmospheric pipe with a sealingly screw cap is mounted, equipped with a fitting. Inside the housing of the phosphine generator there are trays, on which the cells are arranged to accommodate the source of phosphine.

EFFECT: improvement of efficiency of grain disinfection.

3 dwg

Description

The invention relates to devices for fumigation of grain and can be used at large and small agricultural and grain processing enterprises during storage of grain, as well as at enterprises of the agro-industrial complex.

The methods of grain preservation, traditional for the grain industry, by fumigation using phosphine gas permitted in Russia in its tablet forms have been developed only for the construction of reinforced concrete elevators and for floor storage warehouses for grain. These methods, which imply the distribution of tablets of preparations by grain mass during the movement of grain from silage to silo or manual sensing of grain mass in warehouses, are completely unsuitable for use in newly built metal silos due to their design features.

Phosphine gas kills insects if it is present in the atmosphere in a certain concentration, and this concentration persists for a certain amount of time. Therefore, in order to maintain the necessary concentration of phosphine in the air for a rather long time, the storage where the grain is located should be distinguished by the possibility of its reliable sealing.

To date, the problem of grain preservation during storage in metal elevators is an urgent task.

The well-known proven and approved technologies for fumigating grain with phosphine in our country consist in distributing tablets of drugs relatively evenly in the grain mass. Then a cloud of phosphine gas forms around each tablet. These clouds are combined, and a continuous gas field is created in the intergranular air.

The technology of grain fumigation in reinforced concrete silos of elevators is as follows (Mortgage G.A., Zheltova S.A. Biological basis for the use of phosphine for the control of insects - pests of grain stocks. - Transactions of VNIIZ, 1987, issue 109, pp. 87-93 )

In the silo room above the conveyor belt, special automatic tablet dispensers are installed.

The insect-infested grain is transferred to a free airtight silo. During the movement of grain, tablets are dispensed into it on a conveyor belt. After moving the grain, the loading hatch is sealed. After 3-5 days, necessary for the decomposition of tablets and the destruction of insects, the silo is de-sealed. As a result, the degassing of the grain occurs by passive removal of phosphine, first from the intergranular space, and subsequently from the grain by natural desorption.

This technology of fumization of grain with phosphine in silos of elevators has several disadvantages:

- when infected grain is transported, the transport communications of the elevator become infected, which subsequently have to be further disinfected;

- upon completion of processing, the silo must be fully loaded with grain. Therefore, for example, if only 50 tons of grain are infected, and the silo holds 100 tons, then it is necessary to add another 150 tons and also to process them;

- Having started the introduction of tablets into the grain, it is impossible to stop the process until the silo is filled with grain;

- the process cannot be regulated, i.e. if there is not enough gas in the intergranular air to kill insects, it cannot be replaced;

- when the grain is moving, it is injured, about 1.5 percent of the total.

The technology of grain fumigation described above cannot be used for disinsection of grain in metal silos, because the time of grain movement from one metal silo to another exceeds the time of decomposition of the tablets and the release of phosphine. For example, in order to move grain from a silo with a capacity of 5000 tons with a productivity of transport equipment of 100 t / h, it takes 50 hours of continuous operation of the equipment. Tablets decompose in 24-48 hours.

Closest to the claimed system in technical essence and the achieved result, selected as a prototype, is a device for fumigation of products with phosphine, protected by RF patent for the invention No. 2088097, А23В 9/18, publ. 08/27/1997

The fumigation device according to the invention is intended for use with a plurality of vertical elevators (i.e., elevators having a height to width ratio of at least 1.5 to 1).

The fumigation device for granaries having many elevators, contains a source of a mixture of conveying gas and gaseous fumigant; a pipeline connected to this source; control means for changing the supply of the gas mixture from the source to the pipeline; the corresponding connection between the pipeline and the gas inlet channel of each elevator in the granary. Each such connection contains a valve and a diaphragm, each diaphragm is adjusted to form a differential pressure across the diaphragm, which is substantially larger than the differential pressure across any other component between the gas mixture source and the elevator with which the diaphragm interacts.

The control means may include a control valve between the source and the pipeline, or it may contain any other suitable device for controlling the gas supply to the pipeline, for example, means for changing the speed of the fan that supplies the gas mixture to the pipeline.

A disadvantage of the known device is the lack of fumigation efficiency due to the lack of recirculation of the gas mixture.

The problem solved by the proposed solution is the creation of a system of recirculation fumigation of grain with phosphine.

The technical result from the use of the invention is to increase the efficiency of disinfecting grain due to the recirculation of the gas mixture and the ability to control and control the fumigation process.

This result is achieved by the fact that in the system of fumigation of grain with phosphine, including a phosphine generator with a control valve, a fan for supplying a gas-air medium to a silo, a pipeline, a phosphine generator is equipped with a dehumidifier for a recirculated gas-air medium, while after a control valve on the outlet pipe of the phosphine generator it is installed atmospheric pipe with a hermetically screwed cap provided with a fitting, and inside the phosphine generator case there are pallets on which cells are located I am a source of phosphine.

As a process medium, a mixture of phosphine gas with air is used.

As a source of phosphine, tablet forms of kathfos, foskom, magnifos, fostoksin, charalfos, dacfosal and others are used, which, in accordance with the Law of the Russian Federation "On Safe Handling of Pesticides and Agrochemicals" No. 109-ФЗ, have passed registration tests and are included in the "State Catalog" pesticides and agrochemicals approved for use on the territory of the Russian Federation. ”

The tablets have a rounded shape with a diameter of about 19 mm. One tablet weighs 3 g and generates 1 g of phosphine gas. The remainder of the decomposition of the tablet occupies a volume of about 9 cm ³ and weighs about 3 g. Instead of tablets, Degesch plates can be used.

Figure 1 shows a functional diagram of a phosphine fumigation system of grain in a metal silo, figure 2 - phosphine generator, front view in the closed state; figure 3 - phosphine generator, front view in the open state.

The phosphine grain fumigation system comprises a phosphine generator 1, which is a rectangular sealed metal casing with inlet 2 and outlet pipes 3 not aligned. The outlet pipe 3 is equipped with a control valve 4. After the control valve 4 at the outlet pipe 3 of the phosphine generator 1, an atmospheric pipe 5 is installed with a hermetically screwed cap 6, equipped with a fitting 7.

The outlet pipe 3 is connected to the suction pipe 8 of the fan 9. The discharge pipe 10 of the fan 9 is connected to the ventilation duct 11 of the silo 12, in which the ventilation grill 13 is located. At the top of the silo 12 there is a ventilation hatch 14 connected to the pipe 15 connected to the dryer 16 recirculated gas located in the inlet pipe 2 of the phosphine generator 1. On the pipeline 15, a unloader 17 and a lock gate 18 are installed. Inside the generator housing 1, which is closed by the door 19, there are pallets 20. On pallets 20 there are cells 21 with a diameter of, for example, 12 mm, for placing the tablets, and after their decomposition, the remainder of the decomposition.

When used to generate phosphine plates, they are also stacked on pallets 20.

The diagram shows one recirculation network serving one half of the silo from one fan. The silo is equipped with two fans. A similar network is mounted to the second fan.

The process of fumigation of grain in a metal silo is as follows.

The fumigation efficiency is determined by the concentration of phosphine gas inside the silo during the exposure period. To keep the gas in the system, before starting fumigation, a silo seal is mandatory. Seal places of possible leaks of phosphine gas during the recirculation process. The silo volume is calculated. Provide the required number of tablets of the drug at the rate of 5-6 g / m ³ .

The phosphine-air mixture obtained in the phosphine generator 1 from tablets based on metal phosphides enters the suction pipe 8 of the fan 9 and from the discharge pipe 10 of the fan 9 enters the ventilation duct 11 of the silo 12. Next, the phosphine-air mixture is forced through the ventilation grill 13 and the grain mass in the silo 12.

From the above-grain space of the silo 12, the phosphine-air mixture is sucked through the grill of the ventilation hatch 14 into the pipe 15 and through it enters the phosphine generator 1 through a desiccant 17.

The control valve 4 at the outlet 3 of the phosphine generator 1 allows you to adjust the flow rate of the air-gas mixture in the system or to block the access of the phosphine-air mixture to the fan 9.

When degassing grain, close the control valve 4 and open the door 19 of the generator 1 and the cover 6 of the atmospheric pipe 5. In this case, phosphine is released into the atmosphere through the open door 19 of the generator 1, and clean atmospheric air enters the grain mass through the open atmospheric pipe 5.

Through the nozzle 7 and the desiccant 16, air-gas samples are taken to analyze the concentration of phosphine at the inlet and outlet of the phosphine generator 1.

Desiccant 16 is designed to collect condensation moisture and remove it from the system. The unloader 17 and the lock gate 18 are designed to collect and remove grain dust from the system.

Phosphine tablets are added to the generator 1 manually based on the data obtained according to the readings of the device on the concentration of the air-gas mixture in the recirculation system.

To perform the degassing and removal of phosphine, the following operations are performed: open the door 19 of the generator 1, close the control valve 4, open the atmospheric pipe 5.

Remove pallets 20 from the generator 1 with the remains of the decomposition of the tablets and make them decontaminated and disposed of in accordance with the requirements of the Instruction for the control of pests of grain stocks.

After 2-3 hours of ventilation, the concentration of phosphine in the air discharged from the silo is checked. When the concentration of phosphine decreases to the MPC in atmospheric air (0.01 mg / m ³ ), active degassing can be stopped. Grain samples are taken and the effectiveness of pest control is checked.

The system of recirculation fumigation of grain with phosphine is made as follows.

A phosphine generator, a regulating valve, pallets, an atmospheric pipe with a hermetically screwed cap, a pipeline, a recirculated gas dryer, are made of galvanized sheet steel. The fan is used, for example, of radial design of the VR-6-28-4 brand.

Tests of the prototypes of the proposed system were conducted at the ANO "Voronezh MIS", confirming its high efficiency.

Thus, in the proposed system of fumigation of grain with phosphine compared with the prototype increases the efficiency of disinfection of grain due to the recirculation of the gas-air mixture and the ability to control and control the fumigation process.

Claims (1)

The phosphine grain fumigation system, including a phosphine generator with a control valve, a fan for supplying a gas-air medium to a silo, a pipeline, characterized in that the phosphine generator is equipped with a recirculated gas-air dryer, and an atmospheric pipe with a tightly screwed screw is installed on the outlet pipe of the phosphine generator after the control valve a lid provided with a fitting, and inside the case of the phosphine generator there are pallets on which cells are located to house the source of phosphine.

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