RU2145784C1 - Method of generation of fumigant gas, device and composition for realization of this method, method of fumigation, method of fumigation of object in form of block of product (versions) - Google Patents

Abstract

FIELD: destruction of pests in products, such as grain, tobacco and quarantine objects. SUBSTANCE: method of generation of fumigant gas in form of mixture of phosphine and carbon dioxide includes introduction of mixture of acid and water to phosphide of metal, binder and agent forming carbon dioxide during reaction which are preliminarily mixed as homogeneous mass. Carbon dioxide is obtained simultaneously with phosphine. Heat released during generation of phosphine is compensated for due to endothermic process of forming of carbon dioxide. Device used for generation of the fumigant gas includes reactor consisting of at least two communicating chambers: one chamber is used for mass of metal phosphide, agent forming carbon dioxide and binder and second chamber is used for mixture of acid and water. Composition for generation of fumigant gas includes components in the following ratio: phosphine and carbon dioxide, 1(1.5-20.0) parts by volume and acid and water, 1(1-10) parts by mass. Method of generation of fumigant gas includes switching-on the device for generation of fumigant gas and generation of phosphine and carbon dioxide in device. Delivery of fumigant gas to the object to be treated is effected due to excessive pressure built up in the above-mentioned device. Method of fumigation of object in form of block is effected at the top or at the bottom of this block within the period of time sufficient for forming the fumigation wave which is then forced through object of fumigation by convective flow of air. According to another method of fumigation of object in form of block of product through which natural convective flow of air passes, fumigant gas is fed to object within the period of time sufficient for filling the entire block of product with fumigant gas. Version of method of fumigation of object having form of block of product through which natural convective air flow of alternating direction passes provides for deliver of fumigant gas at the top and at the bottom. Method of fumigation of object where convective air flows are absent or closed natural convective air flows are present inside object, consists in delivery of fumigant gas to upper portion of object. EFFECT: reduced consumption of fumigant gas; reduced expenses for decontamination of object. 28 cl, 14 dwg

Description

 The invention is intended for the destruction of pests in food products, mainly grain, tobacco, quarantine objects, as well as containers, vehicles and premises intended for their processing, storage or long-term transportation.

 The destruction of food pests during their storage and long transport is still a serious problem. When solving it, the main attention is paid to the following main points: the complexity of fumigation work, including waste collection and disposal, fire and explosion safety of fumigation, environmental safety (harmlessness of fumigation products and waste from its receipt). One of the most important factors is the effectiveness of fumigation work, depending on the method of their implementation and the fumigation agent used.

 Of the known fumigation products: chloropicrin, metal chloride, methyl bromide, preparations that produce phosphine, the fumigant gas containing phosphine is of most interest to consumers.

 The most popular means of generating a fumigant gas with phosphine are tablets, plates, pellets (German Application N 3047373, MKI C 01 B 25/06 - 1982; Prospectus from Degesch GMBH, Bundesrepublik Deutschkand, 1985).

Their disadvantage is the following:
- the production of fumigant gas and its effectiveness depend on environmental conditions: in the first case, on air humidity, in the second, on temperature;
- the rate of generation of the fumigant gas cannot be high, since the transfer of moisture from the environment to the surface of the tablet is provided by natural (convection) mass transfer, and non-condensed moisture comes into contact with the tablet;
- in case of accidental ingestion of a large amount of water on the tablet, overheating and explosive situations are possible;
- for fumigation work requires laborious piecewise distribution of tablets throughout the volume of the processed object;
- incomplete decomposition of tablets (a residue of 2% is allowed) worsens the environmental performance of the processed products and creates the prerequisites for a fire and explosion hazard during the collection, packaging, transportation and disposal of residual decomposition products of tablets;
- it is obligatory to carry out a laborious operation to collect and dispose of products for working out tablets: pulverized aluminum hydroxide (or magnesium), etc.

 Currently, the most effective in comparison with tablets and their analogues are devices in which a fumigant gas is produced by forcing a moistened diluent gas through a layer of metal phosphide.

 The disadvantage of such solutions is their complexity and high energy consumption, due to the need to pump gas preliminarily prepared in a special way (humidification, heating) through the device.

 In addition, an important problem is the creation and maintenance for the required period of time of the concentration field of the fumigant gas throughout the processed object, whether it is a silo, hold, warehouse or grain processing enterprise. It should be noted that it is especially difficult to create an effective concentration field in food layers with a large thickness, for example, in silos, since multipoint injection of a fumigant gas throughout the volume is impossible.

 Closest to the claimed method of generating a fumigant gas, device and composition for its implementation and methods of fumigation is the application of Germany N 3618297, MKI C 01 B 25/06, 01 J 4/00, A 61 L 2/20, A 23 B 9/00, A 01 N 59/26, A 23 L 3/34 - 1989.

 The method provides for the production of a fumigant gas in the form of a mixture of phosphine with carbon dioxide. Phosphine is formed by the interaction of metal phosphide with melting ice and is mixed with carbon dioxide, which is formed from solid carbon dioxide due to the heat released during the production of phosphine. In this way, heat compensation occurs.

 The device for generating a fumigant gas is a reactor with an outlet, in which the starting reagents are placed in layers: first, metal phosphide, then solid carbon dioxide, and ice above.

 To implement the method, heat is supplied to the device, after which ice melting begins, and solid carbon dioxide passes into a gaseous state, while water gains access to the metal phosphide.

 The disadvantage of this technical solution to fumigation problems is the difficulty of placing the starting reagents in the device, the uncontrolled reaction of the formation of phosphine and, accordingly, the fumigant gas. And, most importantly, the complexity of working with such a device during the fumigation process, since it must be stored in refrigerators before using the device.

 The technical result of the invention is to simplify and accelerate the process of producing fumigant gas, simplify the device used to implement the method, as well as increase the efficiency of fumigation and simplify it.

 The specified technical result is achieved as follows.

 In the method of generating a fumigant gas in the form of a mixture of phosphine with carbon dioxide, which involves the use of metal phosphide and water as the starting reagents, the introduction of metal phosphide in the reaction with water to produce phosphine, with compensation for the heat generated in this case, a binder is introduced into the composition of the starting reagents, acid and a substance forming carbon dioxide during the chemical endothermic process, while the metal phosphide, binder and carbon dioxide forming substance are pre-mixed and added to the resulting mixture a mixture of acid and water is produced to produce carbon dioxide simultaneously with phosphine, and the heat generated during the production of phosphine is compensated by the chemical endothermic process of carbon dioxide formation.

 In a device for generating a fumigant gas in the form of a mixture of phosphine and carbon dioxide, including a reactor for placing metal phosphide and other starting reagents, having an outlet for the fumigant gas, the reactor is at least one block of two chambers communicating via a shut-off element, one of which is designed to accommodate a mixture of metal phosphide, a substance that forms carbon dioxide and a binder during a chemical endothermic process, and the second for a mixture of acid and water, while the outlet for fumigant gas chamber located on the acid and water mixture.

 The cameras can be communicated through a blocked opening in a common partition or a blocked channel.

 To block the communication between the chambers, a tube can be installed as a locking element, one end of which is inserted into the channel or hole, and the other is connected to the fumigant gas outlet on the chamber for the mixture of acid and water.

 The reactor can be configured to translate from a vertical to a horizontal position to start the device.

 The cameras can be fastened together using a detachable connection.

 The device can be configured to recharge the reactor with a mixture of acid and water and / or a mixture of metal phosphide, a binder and a substance that forms carbon dioxide during the reaction.

 The device can be equipped with control means for temporarily delaying the movement of a mixture of acid and water into a chamber with a mixture of metal phosphide, a substance that forms carbon dioxide during the reaction, and a binder.

 The reactor can be made in the form of a battery of blocks.

 The device can be equipped with a line for supplying fumigant gas to the processed object.

 The device can be equipped with at least one additional reactor, made similarly to the main one, and all reactors are connected via the outlet openings for the fumigant gas to the main line for supplying it to the object to be processed.

 The device can be equipped with a carrier gas source and a line for supplying it to the object to be processed, with each reactor communicating with the carrier for the carrier gas.

 The device can be made of separate chambers with the ability to assemble and / or charge or recharge in the fumigation zone.

 In a preferred embodiment, the device is portable.

 The composition for generating a fumigant gas in the form of a mixture of phosphine and carbon dioxide, including water and metal phosphide, additionally includes acid, a substance that forms carbon dioxide during the chemical endothermic process, and a binder, with metal phosphide and a substance that forms carbon dioxide in amounts that ensure the ratio of phosphine and carbon dioxide in the fumigant gas 1: (1.5 - 20.0) parts by volume, and mixed with a binder, and acid and water are taken in a ratio of 1: (1-10) wt. h

 The carbon dioxide forming substance is preferably a salt of carbonic acid and / or carbamic acid.

 In the fumigation method, comprising turning on a device for generating a fumigant gas in the form of a mixture of phosphine and carbon dioxide, obtaining a phosphine in the device to compensate for the heat generated in this case, supplying a fumigant gas to the treated object and creating a fumigant gas concentration field in the latter, carbon dioxide get in the reactor device by a chemical reaction, the compensation of the heat generated during the production of phosphine is carried out due to the chemical endothermic process of producing carbon dioxide, and the gas supply umiganta in the object to be processed is carried out due to the excess pressure created in the device upon receipt of phosphine and carbon dioxide.

 To create a uniform concentration field and / or create and maintain a concentration field of a fumigant gas of a given level, several devices are installed in a large fumigation object, some of which are switched on as necessary by remote control.

 When applying the fumigant gas to the fumigation object, it can be mixed with the carrier gas.

 When generating fumigant gas, you can use a portable device or device, the assembly and / or charging or recharging of which is carried out in the fumigation zone.

 The supply of fumigant gas to the object can be carried out with a time delay.

 In the method of fumigating an object in the form of a product array, comprising turning on a device for generating a fumigant gas in the form of a mixture of phosphine and carbon dioxide, obtaining phosphine in the device, compensating for the heat generated in this case, supplying the fumigant gas to the treated object and creating a concentration field in the latter of a fumigant gas, carbon dioxide is obtained in the device by a chemical reaction, the compensation of heat generated during phosphine production is carried out due to the chemical endothermic process of carbon dioxide production gas, while the fumigant gas is supplied to the object to be processed, through which a natural convective air flow closes outside the product array, due to the excess pressure created in the device when receiving phosphine and carbon dioxide, from above or from below, depending on the direction air flow, for a period of time sufficient for the formation of a fumigation wave in the form of a layer saturated with a fumigant gas, then moved through the fumigation object by a natural convective flow spirit.

 In another embodiment of the method of fumigating an object in the form of a product array, through which a natural convective air flow passes, which is closed outside the product array, a fumigant gas is supplied from above or below the product array, depending on the direction of the air flow, for a time sufficient to fill the whole solid product fumigant gas.

 In the next version of the fumigation of the object in the form of a product array, through which passes a natural convective air flow of a variable direction, closing outside the product array, the fumigant gas is supplied from above and from the bottom of the product array.

 In another embodiment of the method of fumigating an object in the form of a product array through which convective air flow does not pass, or if natural convective air flows are closed inside the product array, the fumigant gas is supplied to the upper part of the object.

 At the same time, a fumigant gas is supplied to the object, in which phosphine and carbon dioxide are in a ratio of 1: (1.5-20) vol.h. In this case, carbon dioxide acts as a carrier gas, and not just as a diluent gas.

 When a fumigant gas is supplied to an object in the form of a product array, it can be mixed with a carrier gas using the gravitational flow of a higher density carrier gas formed in the upper part of the object.

 Carbon dioxide can be used as the carrier gas.

 The invention is as follows.

In FIG. 1-3 are devices for generating a fumigant gas:
FIG. 1 (a, b, c, d, d, e) - for such fumigation facilities as empty granaries, transportation means, processing enterprises;
FIG. 2 - for such objects of fumigation as storage facilities filled with grain, grain products, tobacco and other products, transportation vehicles, as well as empty rooms with hard-to-reach places and thick layers of grain;
FIG. 3 - for fumigation facilities requiring the introduction of a high-power fumigant gas stream.

 In FIG. 4a, b, 5a, b, c, 6 illustrate methods of fumigating objects in the form of arrays of products requiring deep penetration of a fumigant gas, for example, a silo filled with grain or a ship's hold.

 A device for generating a fumigant gas (Fig. 1a) includes a reactor 1, which is at least one unit of two communicating chambers 2 and 3. In the chamber 2 there is a mass of metal phosphide, a substance that forms carbon dioxide during the endothermic reaction, and a binder . Chamber 3 contains a mixture of acid and water. An outlet 4 for a fumigant gas is made on the chamber 3. The cameras are communicated through the hole 5 in the common partition, blocked by a shutter 6. The cameras and the outlet are closed by covers.

 Chambers 2 and 3 can communicate via channel 5 (Fig. 1a) or 7 (Fig. 1b). To block the channel 7 or hole 5, a flexible tube 8 can be installed as a locking element, one end of which is inserted into the channel 7 or hole 5 in the common partition, and the other passes through the hole 4 for the exit of the fumigant gas.

 Chambers 2 and 3 can be fastened to each other using a detachable connection 9, which can be made in the form of a channel for communication cameras (Fig. 1B).

 In the hole 5, channel 7 or 9, control means 10 (Fig. 1c) can be installed to temporarily delay the movement of the mixture of acid and water in a container with a mixture of metal phosphide, a binder and a substance that forms carbon dioxide during the reaction. The specified control means may be, for example, a chemical, mechanical or electrical time relay. In addition, the device can be equipped with a node 11 that implements its remote inclusion.

 In FIG. 1g shows a variant of the device in which the chamber for the reaction mixture 2 is placed inside the chamber for acid and water 3.

 In FIG. 1d shows reactor 1, which is a battery of units, each of which is made of two interconnected chambers: 2 and 3, 2 'and 3', 2 '' and 3 ''.

 In FIG. 1e shows an embodiment of the device when cameras 2 and 3 are placed one above the other.

 If necessary, a tube (line) 12 is connected to the device to supply the fumigant gas deep into the bulk material or inaccessible place of an empty or filled room with packed products (Fig. 2).

 If it is necessary to create a flow of a high-power fumigant gas, the device is equipped with a line 13, to which are connected, made similarly to the main device (Fig. 3).

 In the case when the fumigation object requires deep penetration of the fumigant gas into the object, and convective air flows are absent, the device is additionally equipped with a unit including a source of carrier gas 14 having a density greater than air. The assembly also includes a line 15 for the formation of a carrier gas stream with a fumigant gas (Fig. 4b).

 The method of producing fumigant gas and fumigation using this device is as follows.

 The operator turns on the device, allowing access of the mixture of acid and water from the chamber 3 of the reactor to the chamber 2. The device can be turned on simply by turning from a vertical position to a horizontal one. If necessary, for example, when installing multiple portable reactors over large areas, the device is turned on via a control means 10 to temporarily delay the movement of the mixture of acid and water into the chamber 2 with the mixture of metal phosphide, a binder and a substance emitting carbon dioxide during the reaction. The time delay control tool provides a predetermined interval necessary and sufficient to perform the final operations of fumigation preparation, the operator leaving the fumigation zone and sealing the object.

 After a specified time interval has elapsed, the mixture of acid and water enters chamber 2 without dosing. There, the mixture of acid and water interacts with the metal phosphide and the substance that forms carbon dioxide during the reaction. In this case, parallel chemical reactions proceed: the exothermic reaction of the formation of phosphine and the endothermic process of the formation of carbon dioxide. The result is a fumigant gas. Moreover, the compensation of the heat generated during the formation of phosphine, provides a chemical endothermic process of carbon dioxide formation.

 The ratio of metal phosphide to the substance that forms carbon dioxide during the chemical reaction is such that phosphine and carbon dioxide are formed in a ratio of 1: (1.5-20.0) vol.h. And the ratio of acid to water in their mixture is selected within 1: (1-10) parts by weight, which allows the process to be compensated for the heat generated during the formation of phosphine. Thus, fumigant gas is produced without overheating the reaction mass.

 The supply of fumigant gas to the processed object is carried out under the action of excessive pressure created in the device spontaneously, with the formation of phosphine and carbon dioxide.

 The supply of the fumigant gas to the processed object, which is a large volume filled with bulk product - the product array, which requires deep penetration of the fumigant gas into the product, is carried out using the so-called gas-gravity technology (Fig. 4 a, b). In this case, a gas with a higher density with respect to air, a carrier gas, is selected. Using the line (pipe) 15 form the flow of carrier gas from its source 14 into the mass of the product, while the driving force of the flow is provided by gravity. A fumigant gas is introduced into the carrier gas stream thus formed via a line. This allows you to ensure the delivery of fumigant gas to the deeper layers of the product without such additional labor-intensive work as pouring grain from silo to silo.

Gas-gravity technology in the case of using carbon dioxide as a carrier gas can be provided without the use of a special carrier gas source 14 and a trunk — carrier gas flow former 15. This is achieved by greater enrichment of the fumigant gas with carbon dioxide during its production in G ₁ devices , G ₂ , G ₃ , ..., G _n and feeding the fumigant gas more enriched in carbon dioxide into the object using line 13 (Fig. 4a). The ratio of phosphine and carbon dioxide in the fumigant gas in this case can be 1: (1.5-20) vol.h.

 Such a technology can be applied if there are no convective flows in the processed object (Fig. 4 a, b) or if convective air flows are closed in the product mass subjected to fumigation, for example, in the hold of a ship (Fig. 6). In this case, a multi-point injection of a fumigant enriched in carbon dioxide is carried out.

 If a natural convective air flow passes through the fumigation object in the form of a product array, which closes outside the product array, the fumigant gas is supplied from above or below the product array, depending on the direction of the convective flow, for a time sufficient for the formation of a fumigation wave in as a layer saturated with a fumigant gas. Then this layer moves through the fumigation object under the influence of convective flow (Fig. 5 a, b).

 In another embodiment, the fumigation of the object in the form of an array of product through which convective air flow passes, closed outside the array of product, is carried out as follows.

 The fumigant gas is supplied depending on the direction of the convective air flow from above or below the processed product array and is introduced during the time necessary to fill the entire volume of the processed product.

 In the third embodiment, when during the fumigation period the direction of the natural convective air flow in the fumigation object changes, the fumigant gas is introduced above and below the object (Fig. 5c).

 Thus, an advantage of the invention is the following.

 There is no need for laborious control and dosing during the distribution of the reagents that produce the fumigant gas in the fumigation facility.

 Reaction products - waste remains in the confined space of the reactor, which ensures their easy disposal and cleanliness of the fumigation object.

 There is no need to use fumigation means, such as pumps to inject fumigant gas into the treated object.

 Eliminates the need to use means of controlling the supply of reagents and the implementation of reactions in the production of fumigant gas.

 There is no communication system for supplying a diluent gas, since it is formed in the device itself in the required ratio with phosphine.

 The time delay after turning on the device allows all devices to be launched inside the fumigation facility without protective equipment.

 The cost of providing fumigation is reduced, since the reusable device used allows recharging with chemical reagents.

 Convenience in work is also ensured by the fact that the device can be assembled from separate structural elements at the fumigation facility, as well as be transferred around the facility.

 There is no need to pour the grain from the silo into the silo and “stuff” it with chemical reagents, as is done when using preparations in the form of tablets and their analogues.

 The device is capable of generating fumigant gas at low humidity and temperature, including at low temperatures, which is unattainable for existing drugs that produce phosphine gas (tablets, pellets, pouches, ribbons, etc.).

 The ability to remotely start the device into operation allows you to optimize the fumigation process, maintaining the concentration of the fumigant gas at an optimal level, depending on the characteristics of the fumigation object (the degree of leakage, sorption capacity of the surfaces of the fumigation object, etc.). This avoids the dosing of the fumigant gas "with a margin", as is done when using tablet preparations. This reduces the cost of fumigation and improves its environmental friendliness.

 Fumigation of objects in the form of a product array with the formation of a "fumigation wave" allows you to use the same fumigant gas repeatedly, as the "fumigation wave" moves along the height of the object. This significantly reduces the consumption of fumigant gas and reduces environmental costs during the degassing of the facility.

Claims (28)

 1. A method of generating a fumigant gas in the form of a mixture of phosphide and carbon dioxide, which involves the use of metal phosphide and water as the starting reagents, the introduction of metal phosphide in the reaction with water to produce phosphine with compensation for the heat generated, characterized in that the composition of the source the reagents are injected with a binder, acid and a substance that emits carbon dioxide during the endothermic process, while the metal phosphide, binder and carbon dioxide-forming substance are pre-mixed to the resulting mixture a mixture of acid and water to produce phosphine simultaneously with carbon dioxide, wherein the compensation of heat released in the preparation of the phosphine is carried out by chemical endothermic process carbon dioxide formation.  2. A device for generating a fumigant gas in the form of a mixture of phosphine with carbon dioxide, comprising a reactor for placing metal phosphide and other starting reagents, having an outlet for the fumigant gas, characterized in that the reactor is at least one unit of two communicating among themselves chambers, one of which is designed to accommodate a mixture of metal phosphide, a substance that forms carbon dioxide during the chemical endothermic process, and a binder, and the second for a mixture of acid and water, while the output from the hole for the fumigant gas is located on the tank for a mixture of acid and water.  3. The device according to claim 2, characterized in that the cameras are communicated through an overlapping hole in the common partition.  4. The device according to claim 2, characterized in that the cameras are communicated through a blocked channel.  5. The device according to claim 3 or 4, characterized in that for blocking the communication between the cameras, a tube is installed as a shutter element, one end of which is inserted into the channel or hole and the other is connected to the fumigant gas outlet on the acid mixture chamber and water.  6. The device according to one of claims 2 to 5, characterized in that the reactor is configured to be moved from a vertical position to a horizontal one to start the device.  7. The device according to one of paragraphs.2 to 6, characterized in that the cameras are fastened one to another using a detachable connection.  8. The device according to one of claims 2 to 7, characterized in that it is arranged to recharge the reactor with a mixture of metal phosphide, a substance that forms carbon dioxide, and a binder and / or a mixture of acid and water.  9. The device according to one of claims 2 to 8, characterized in that it is provided with control means for temporarily delaying the movement of the mixture of acid and water into the chamber with the mixture of metal phosphide, a substance that forms carbon dioxide, and a binder.  10. The device according to one of claims 2 to 9, characterized in that the reactor is a battery of blocks.  11. The device according to one of paragraphs.2 to 10, characterized in that it is equipped with a line for supplying fumigant gas to the processed object.  12. The device according to one of claims 2 to 11, characterized in that it is equipped with at least one additional main reactor made similarly to the main one, and all reactors are connected through the outlets for the fumigant gas to the main line for supplying it to the object to be processed.  13. The device according to any one of claims 2 to 12, characterized in that it is provided with a source of carrier gas and a line for supplying it to the object to be processed, and each reactor is connected to a line for carrier gas.  14. The device according to any one of paragraphs.2 to 13, characterized in that it is made of separate chambers with the ability to assemble, and / or charge, or recharge in the fumigation zone.  15. The device according to any one of paragraphs.2 to 14, characterized in that it is made portable.  16. A composition for generating a fumigant gas in the form of a mixture of phosphine and carbon dioxide, comprising water and a metal phosphide, characterized in that it further includes acid, a substance that forms carbon dioxide in the chemical endothermic process, and a binder, the metal phosphide and the substance carbon dioxide-forming gas, taken in quantities that provide a ratio of phosphine and carbon dioxide of 1: (1.5 - 20.0) parts by volume, and mixed with a binder, and acid and water are taken in a ratio of 1: (1 - 10) wt. .h.  17. The composition according to clause 16, wherein the substance that forms carbon dioxide is a salt of carbonic and / or carbamic acid.  18. The method of fumigation, involving the inclusion of a device for generating a fumigant gas in the form of a mixture of phosphine and carbon dioxide, obtaining phosphine in the device with compensation for the heat generated in this case, supplying the fumigant gas to the object and creating a fumigant gas concentration field in the latter, characterized in that carbon dioxide is produced in the device’s reactor by a chemical reaction, the heat generated during the production of phosphine is compensated for by the chemical endothermic process for producing carbon dioxide, and the fumigant gas in the processed object is carried out due to the excess pressure created in the device upon receipt of phosphine and carbon dioxide.  19. The method according to p. 18, characterized in that to create a uniform concentration field and / or to create and maintain a concentration field of the fumigant gas of a given level in a large fumigation object, several devices are installed, some of which are turned on as necessary by remote control.  20. The method according to p. 18 or 19, characterized in that for the production of fumigant gas using a portable device or device, the Assembly, and / or charging, or recharging which is carried out in the fumigation zone.  21. The method according to any one of claims 18 to 20, characterized in that after turning on the device, the fumigant gas is supplied to the object with a time delay.  22. A method of fumigating an object in the form of a product array, comprising turning on a device for generating a fumigant gas in the form of a mixture of phosphine and carbon dioxide, obtaining phosphine in the device with compensation for the heat generated in this case, supplying a fumigant gas to the object being processed and creating a concentration field in the latter fumigant gas, characterized in that carbon dioxide is obtained in the reactor device by a chemical reaction, the compensation of heat generated upon receipt of phosphine is carried out due to chemical endothermic about the process of producing carbon dioxide, while the supply of fumigant gas to the object being processed, through which a natural convective air stream closes outside the product array, is carried out due to the excess pressure created in the device when receiving phosphine and carbon dioxide, from above and / or below product array depending on the direction of convective air flow for a period of time sufficient for the formation of a fumigation wave in the form of a layer saturated with a fumigant gas, then moved kvoz object fumigation convective air flow.  23. A method of fumigating an object in the form of a product array, comprising turning on a device for generating a fumigant gas in the form of a mixture of phosphine and carbon dioxide, obtaining phosphine in the device to compensate for the heat generated during this process, supplying a fumigant gas to the treated object and creating a concentration field in it fumigant gas, characterized in that carbon dioxide is obtained in the reactor device by a chemical reaction, the compensation of heat generated upon receipt of phosphine is carried out due to the chemical endothermic percent carbon dioxide production, while the fumigant gas is supplied to the object through which the natural convective air flow is closed outside the product array, is carried out due to the excess pressure created in the device during the production of phosphine and carbon dioxide, from above or below the product array, depending from the direction of convective air flow for a time sufficient to fill the entire product array with a fumigant gas.  24. A method of fumigating an object in the form of a product array, comprising turning on a device for generating a fumigant gas in the form of a mixture of phosphine and carbon dioxide, obtaining phosphine in the device to compensate for the heat generated during this process, supplying a fumigant gas to the object being processed and creating a concentration field in it fumigant gas, characterized in that carbon dioxide is obtained in the reactor device by a chemical reaction, the compensation of heat generated upon receipt of phosphine is carried out due to the chemical endothermic percent carbon dioxide production, while the fumigant gas is supplied to an object through which a natural convective air flow of a variable direction passes outside the product array, is carried out due to the excess pressure created in the device during the production of phosphine and carbon dioxide, from above and below the product array .  25. A method of fumigating an object in the form of a product array, comprising turning on a device for generating a fumigant gas in the form of a mixture of phosphine and carbon dioxide, obtaining phosphine in the device with compensation for the heat generated during this process, supplying a fumigant gas to the object being processed and creating a concentration field in it fumigant gas, characterized in that the gas is obtained in the reactor device by a chemical reaction, the compensation of heat generated upon receipt of phosphine is carried out due to the chemical endothermic process carbon dioxide, while the fumigant gas is supplied to an object in which there are no natural convective air currents or natural air convective flows closed inside the product array are carried out due to the excess pressure created in the device during the production of phosphine and carbon dioxide, while fumigant is served at the top of the facility.  26. The method according A.25, characterized in that the ratio of phosphine and carbon dioxide in the produced fumigant gas is 1: (1.5 to 20) vol.h. , while carbon dioxide performs the function of a carrier gas in the fumigant gas.  27. The method according to claim 25 or 26, characterized in that when the fumigant gas is supplied to the object, it is mixed with a gravitational flow of a carrier gas of higher density formed in the upper part of the object.  28. The method according to item 27, wherein the carrier gas is carbon dioxide.

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