RU95116240A - METHOD FOR FUMIGATION OF BULK MATERIALS IN AN ENCLOSED SPACE AND THE CAMERA USED IN IT - Google Patents

Claims (21)

1. A chamber (10) for fumigating bulk materials containing a closed fumigation space, and a gas duct containing a gas advancing device connected to opposite regions of the fumigation space, the chamber (10) being adapted to introduce fumigant gas generation means into it for releasing fumigant gas, characterized in that it contains an inlet window (12) controlled by an inlet valve (14) connected to one end of the duct of a closed gas flow system coming from the fumigation space, the bottom window (16), controlled by the exhaust valve (18) and connected in the downstream position to the other end of the gas duct of the closed gas flow system that goes into the fumigation space, the purge gas inlet controlled by the purge gas inlet valve (22) to connect to the source inert gas (24) and a ventilation valve (26), moreover, the chamber (10) has access means (44) to its internal cavity from a position outside the fumigation space and forms part of a closed gas flow system when it is connected to the ends of the gas duct, when the inlet (14) and outlet (18) valves are open.  2. The chamber (10) according to claim 1, characterized in that it is included in the circulating closed gas flow system through an inlet window (12) connected to the specified one end of the duct coming from the fumigation space and an outlet window (16) connected to the specified second end of the gas duct going into the fumigation space, and the gas advancement device is located lower relative to the chamber (10) along the flow stream in a closed circular gas flow system.  3. Camera (10) according to claims 1 and 2 or one of them, characterized in that combined with it or in the chamber (10) includes means for closing the inlet (14) and outlet (18) valves and opening the inlet valve (22) of the flushing gas in the event of a power failure or gas circulation moreover, the inlet (14) and outlet (18) valves are biased towards the closed position, and are moved to maintain them in the open position when power is supplied to the valves or to their control means, and the predominantly flush gas inlet valve (22) or him with The controls are connected to the inlet (14) and outlet (18) valves or their controls so that when the inlet (14) and the outlet (18) valves are closed, the inlet flush gas valve (22) opens, allowing inert flush gas to enter the chamber (10).  4. The camera (10) according to one of claims 1 to 3, characterized in that the input window (12) is located in the upper part of the camera (10), and the output window (16) is located in the lower part of the camera (10). 5. Camera (10) in one or more paragraphs. 1-4, characterized in that the flushing gas is an inert gas, mainly CO ₂ stored under pressure in a gas cylinder (24) connected to the flush gas inlet valve (22), and the valve (22) can mainly be closed only under pressure from the cylinder connected to it (24).  6. Camera (10) in one or more paragraphs. 1-5, characterized in that the ventilation valve (26) of the chamber is located in the upper part of the chamber (10), and the discharge from the valve (26) is made into the gas cleaning system (27) or into the atmosphere (25), or below the chamber the flow of the stream (29) into the circulating closed gas flow system, and the valve (26) can be controlled mechanically with an offset to the closing position, and upon reaching a certain pressure limit in the chamber (10), the valve (26) opens.  7. Camera (10) in one or more paragraphs. 1-6, characterized in that the said means of access (44) is the part of the chamber (10) in the form of a roof, which is removable and is attached to the rest of the chamber (10) by means of releasable mounting means (48).  8. Camera (10) in one or more paragraphs. 1-7, characterized in that it contains intra-housing devices, mainly in the form of plates (54), designed to install means for generating fumigant gas on them in such a way as to allow the gas stream (56) through the chamber (10) to uniformly act on the means gas generation.  9. The chamber (10) according to claim 8, characterized in that the plates (54) are mounted coaxially with the camera (10) in the presence of a circumferential gap between the plates and the inner perimeter of the chamber, while the plates have a tubular part (54A) protruding from plates (54) in a direction generally normal to the plane of the plate (54), the tubular part (54A) being located approximately in the middle of the plate and aligned with it, while the plates (54) may advantageously comprise a protrusion or flange located around the perimeter of the plates, moreover, the tubular part (54A) extends beyond the height upa (54D) plates (54), wherein preferably the projection height (54D) plates (54) is from 60 to 90% of the height of the tubular portion (54A) of plates (54).  10. The chamber (10) according to one of p. 8 or 9, characterized in that it contains a plurality of plates (54) stacked on top of each other so that the tubular parts (54A) of the plates (54) are aligned coaxially and limit the passage through which gas (56) can flow from the inlet window (12) of the chamber (10), and the plates (54) contain combination means for mounting the plates (54) above and below each plate (54), while the lowest of those placed in the chamber (10) a stack of plates allows the gas flow to pass around the plate, but not through it, and there are mainly clearances between each of the tubular portions (54A) of the plates (54) when the plates (54) are stacked in a chamber (10) that allow gas to flow out of the passage bounded by the tubular parts (54A) of the aligned plates (54) and flow over each of plates (54), while the predominantly total gap between the tubular parts (54A) of the combined plates (54) is the circumference of the tubular parts (54A) times the distance between the tubular parts (54A) of each plate (54) foot in the chamber (10), and approximately equal to the plane adi cross section normal to the gas flow (56) through a controllable valve inlet flue (13).  11. Camera (10) in one or more paragraphs. 1-10, characterized in that it is loaded with means for generating a hydrolyzable, phosphide-containing metal fumigant gas, in the form of tablets, granules, sachets or protective bags, one or more protective bags can be suspended in a chamber (10), for example, ring shape, the turns of which are spaced apart by struts.  12. The chamber (10) according to claim 8, characterized in that the inner-chamber devices of the chamber have the form of a holder (62) that allows gas flow through it, and the holder (62) has ribs (68) and straps (65) that allow to place plates (64) for generating a fumigant gas.  13. Camera (10) according to one or more paragraphs. 1-12, characterized in that it is provided in combination with adsorption and absorption means of the fumigant gas, which are adapted to be installed inside the chamber (10) and / or the chamber may contain a gas scrubber installed in it or on it.  14. The method of fumigation of bulk material in a confined fumigation space, which forms, together with the gas duct and gas advancing device, a circulating closed gas flow system, characterized in that it includes the operation of generating a fumigant gas mixture with a pesticidal concentration of the fumigant gas in the confined fumigation space circulation of the fumigant gas mixture through bulk material, while the generation of the fumigant gas mixture is carried out in a chamber including: an inlet window (12), controlled by inlet a valve (14) connected to one end of the gas duct of a closed gas flow system coming from the fumigation space, an outlet window (16) controlled by an exhaust valve (18) and connected in the downstream position to the other end of the gas duct of a closed gas flow system, to the fumigation space, a flush gas inlet valve (22) for connecting to an inert flush gas source (24) and a ventilation valve (26), wherein the chamber (10) has access means (44) to its internal cavity from an outside position fumigations, and said chamber (10) is loaded through access means (44) by means of fumigant gas generation, connected to the chamber (10) using the inlet window (12) and the outlet window (16) to form part of the circulating closed gas flow system, opening and holding the inlet (14) and outlet (18) valves in the open position and turning on the gas advancing device to maintain the circulating gas flow through the circulating closed gas flow system while generating a fumigant gas mixture.  15. The method according to p. 14, characterized in that the gas advancing device is located downstream of the flow relative to the chamber (10).  16. The method according to PP. 14, 15 or one of them, characterized in that they are controlled using at least one fumigant gas concentration measuring device and / or a flow measuring device integrated in the circulating closed gas flow system and connected by feedback to the gas advancing device and chamber valves (10).  17. The method according to one or more paragraphs. 14-16, characterized in that the circulation of the fumigant gas mixture is carried out at speeds sufficient to ensure complete circulation of the fumigant gas mixture through the closed fumigation space for at least 1, 5 hours and no more than about 6 days, preferably for 1, 5-20 hours, and more preferably from 2.5 to 10 hours, most preferably within 4 hours 18. The method according to one or more paragraphs. 14-17, characterized in that the flow rate of the fumigant gas mixture is less than 0.005 m ³ / min • m ^{3 of the} total volume of the closed fumigation space, and mainly in the range from 0.0016 m ³ / min • m ³ to 0,0002 m ³ / min • m ³ .  19. The method according to one or more paragraphs. 14-18, characterized in that when loading the chamber (10) open the inlet (14) and outlet (18) valves and hold them in the open position; include gas advancing devices; load the chamber (10) by means of gas generation; close the chamber (10) and begin circulation along the loop of circulation, which includes the chamber (10) and the fumigation space, with the ventilation valve (26) closed.  20. The method according to one or more paragraphs. 14-19, characterized in that they use means of generating a fumigant gas containing hydrolyzable metal phosphide which, when hydrolyzed, emits phosphine gas, the moisture contained in the circulation gas loop being passed through the chamber (10) in contact with the metal phosphide, and that the conditions created in the confined space of fumigation mainly act as a limiting factor on the generation of the fumigant gas in the chamber (10), and the moisture content and temperature of the air passed through the chamber (10) from the confined space fu Igations are in relative equilibrium with the moisture content and temperature in the confined fumigation space, while the confined fumigation space is mainly a container for storing bulk materials, a container for storing or transporting bulk cargo, a silo or bunker, a ship’s hold, a wagon or a truck trailer , and bulk materials, fumigation of which is carried out in accordance with the method described above, mainly may be bulk material in the form of agricultural particles egg or forest origin, which can mainly be selected from the group consisting of grain, beans, peas, lentils, oilseeds, soybeans, nuts, coffee beans, tea, any of the above materials can be crushed or granular, in the form of tablets or cereals, as well as in the form of flour products of agricultural bulk materials, particles or food granules for animals, a tree in the form of a powder, animal or fish meal, bone meal, bark in the form of particles, cotton, cotton fluff, dried bread Ukta, dehydrated plants, spices, sago, flour products and confectionery. 21. The method according to one or more paragraphs. 14-20, characterized in that the fumigant gas is removed from the circulating system of the gas stream after absorption of the fumigant gas; and the inclusion in the work of the circulating system of the gas stream, moreover, phosphine gas, which is liberated from the fumigant gas generation means obtained by hydrolysis of aluminum phosphide or magnesium phosphide, is mainly used as a fumigant gas, and coal is used as adsorption and absorption means of the fumigant gas, impregnated with silver nitrate (AgNO ₃ ), or zeolite.