KR102456664B1 - Fumigation Apparatus - Google Patents

Abstract

The present invention provides a fumigation apparatus which transfers a fumigant in a form of liquid widely utilized for the agricultural industry and quarantine through an air diaphragm pump system operated by using noble gas in a form of high-pressure gas as a power source, thereby being stably controlled to be used in a safer and more efficient method than a conventional device. The fumigation of the present invention comprises: an evaporation unit for evaporating a fumigant to discharge the same as an evaporated material for fumigation; a fumigant supply unit arranged at the outside of the evaporation unit to have a fumigant tank for accommodating the fumigant and a fumigant supply pipe arranged to supply the fumigant accommodated in the fumigant tank to the evaporation unit; a gas supply unit arranged at the outside of the evaporation unit to have a gas tank filled with noble gas and a noble gas supply pipe arranged to supply the noble gas contained in the gas tank to the evaporation unit; and an air diaphragm pump arranged to be connected respectively to one end portion of the noble gas supply pipe in the gas supply unit and one end portion of the fumigant supply pipe in the fumigant supply unit and operated with noble gas as a power source supplied through the noble gas supply pipe to transfer the fumigant supplied through the fumigant supply pipe, thereby supplying the noble gas and the fumigant to the evaporation unit.

Description

Fumigation Apparatus {Fumigation Apparatus}

The present invention relates to a fumigation vaporizer, and more particularly, a part of inert gas in the form of high-pressure gas that vaporizes a fumigant in a liquid form widely used for agriculture or quarantine, etc. because it has insecticidal, sterilizing, and herbicidal effects as a power source It relates to a fumigation vaporizer that can be used in a safer and more efficient way than before by operating the air diaphragm pump so that it can be controlled stably.

Fumigant is a generic term for volatile agents, that is, chemicals used to kill pests or pathogens.

In general, fumigants are widely used in agriculture or quarantine because they have insecticidal, sterilizing, and herbicidal effects.

These fumigants are known to include hydrogen cyanide, calcium cyanide, carbon dioxide, sulfurous acid gas, chloropiclin, carbon tetrachloride, ethylene dichloride, ethylene dibromide, p-dichlorobenzene, γ-BHC, etc., warehouses, ships, fruit trees, It is used for insecticide and sterilization of soil, etc.

Of course, if a large amount of fumigant remains in the soil, the soil is polluted, and if a warehouse, ship, etc. is washed with water after sterilization, it is included in the water and contaminates the water, so the fumigant follows certain regulations for use.

When using a fumigant, it is common to heat a liquid fumigant to make a fumigation material, and then supply the fumigation material to an object to be fumigated, such as warehouses, ships, fruit trees, soil, and the like.

On the other hand, it is known that the current fumigant using technology is extremely common to use methyl bromide.

However, in the case of methyl bromide, which is known as an ozone-depleting substance, most of the fumigation substances are administered through a simple vaporizer to reduce the damage to low-temperature treatment or fumigants, so the remaining There is a problem in that there is a high occurrence of safety accidents for workers due to the residual amount of non-vaporized fumigation material.

On the other hand, in the case of a fumigant (EF + CO ₂ mixed high-pressure gas) developed as an alternative to methyl bromide, a vaporizer is used due to the gas tube freezing phenomenon during use, but the mixed gas is filled with high pressure and sold at a high price. In addition, since the gas cylinder itself is heavy, there is a problem that a safety accident of the fumigator may occur.

In addition, most liquid form fumigants have flammability, so by heating by mixing inert gas such as N ₂ , CO ₂ in the form of high pressure gas, flammability is controlled and the vaporized fumigant is injected into the fumigation space from the outside using the pressure of the gas. method is being used.

According to the prior art, the two fluids (inert gas and fumigant) are mixed in an appropriate ratio in the heating space in such a way that the chemical is controlled through an electric pump and the carrier gas is controlled through the pressure regulator, heated and discharged to the outside. is the form

However, if only one of the two fluids overflows into the heating space due to problems such as an abnormality of the electronic pump or exhaustion of the carrier gas, problems such as overheating of the heater or overfilling of the chemical (fumigant) may occur. There is a need to develop the technology of the vaporizer.

Domestic registered patent No. 10-0075284, pesticide fumigation heater. Domestic Registered Patent No. 10-0523676, liquid insecticide preparation for heat fumigation and insecticidal method by heat fumigation. Domestic Registered Patent No. 10-0382684, Electric Fumigation Disinfection Device and Fumigation Disinfection Method. No. 20-0304896 for domestic registration office, fumigation device for preventing pests and pests in plastic houses.

The present invention has been devised to solve the problems of the prior art, and an object of the present invention is to convert a fumigant in liquid form widely used for agriculture or quarantine, etc. to an air diaphragm using a part of inert gas in the form of high-pressure gas as a power source. It is to provide a fumigation vaporizer that can be used in a safer and more efficient way than before because it can be controlled stably by operating the pump.

The present invention for achieving the above object is a vaporization unit capable of vaporizing a fumigant and discharging it as a fumigation vaporized material; a fumigant supply unit provided outside the vaporization unit and including a fumigant tank in which a fumigant is accommodated and a fumigant supply pipe provided to supply the fumigant accommodated in the fumigant tank to the vaporization unit; a gas supply unit provided outside the vaporization unit and including a gas tank filled with an inert gas and an inert gas supply pipe provided to supply the inert gas filled in the gas tank to the vaporization unit; and a branch pipe branching from the inert gas supply pipe body of the gas supply unit is installed to be connected and operated using the inert gas supplied through the branch pipe as a power source, so that the fumigant supplied through the fumigant supply pipe body can be transferred It is preferable to include an air diaphragm pump capable of supplying a fumigant to the vaporization unit.

The vaporization unit includes: a vaporization tank having a heating space therein; A plurality of heaters provided to form a predetermined interval along the circumferential direction in the heating space portion of the vaporization tank, heating the fumigant to generate a fumigation vaporized material; a plurality of sensors installed to respectively correspond to the plurality of heaters so as to control the heaters, respectively; and a controller capable of individually controlling each of the plurality of heaters according to the detection signal of the sensor.

The vaporization tank includes: a plurality of diaphragms installed in the heating space to divide the heating space into a plurality of spaces to increase the surface area to increase heat transfer efficiency, and to prevent the liquid that is not vaporized from immediately ejecting; and , It is preferable that a communication part is formed in the diaphragm so that each space partitioned into a plurality of spaces by the diaphragm communicates with each other, and the communication part is formed to be positioned on the plurality of diaphragms in mutually opposite directions.

It is preferable that five heaters are installed in the heating space part at regular intervals along the circumferential direction, and ten diaphragms are installed in the diaphragm to divide the heaters into equal parts.

The vaporization tank includes: a first vaporization tank and a second vaporization tank separated from each other, and the fumigant that is not sufficiently vaporized in the first vaporization tank is heated once more in the second vaporization tank to eject the temperature of the fluid. It is desirable to minimize the amount of carrier gas used by increasing the .

The inert gas is any one gas selected from nitrogen (N ₂ ), carbon dioxide (CO ₂ ) or helium (He), and the fumigant is: Methyl bromide, Ethyl formate, methylfoam Mate (Methyl formate), a liquid fumigant that can be mixed with the methyl formate (Ethyl formate + MITC, AITC or Monoterpenes), methyl isothiocyante (MITC, methyl isothiocyante), allyl isothiocyanate (AITC, Allyl isothiocyanate) , Aluminum phosphide, Magnesium phosphide, Phosphine, Sulfuryl floride, Methyl iodide, cyanogen, Metham sodium, Metham potasium, carbonyl sulfide, carbon tetrachloride, dimehtyl disulfide is preferred.

According to the fumigation vaporizer according to the present invention, since it has insecticidal, sterilizing, and herbicidal effects, there is an effect that a liquid fumigant that can be widely used for agriculture or quarantine can be used in a safer and more efficient way than before.

In addition, by applying the air diaphragm pump, the present invention operates the chemical liquid pump by using a part of N ₂ , CO ₂ , etc. in the form of high-pressure gas as a power source, and if there is no gas inflow, the pump operation is stopped, thereby simplifying the control of the carburetor, There is an effect that can fundamentally block the possibility that only one of the two fluids flows.

In addition, the present invention has an effect that the air diaphragm pump does not use electric equipment in delivering a flammable fluid, so it has basic explosion-proof performance, and the possibility of failure is significantly lowered.

In addition, the present invention is provided with a first vaporization tank and a second vaporization tank, heating the fluid that is not sufficiently vaporized in the first vaporization tank once more in the second vaporization tank, raising the temperature of the ejected fluid, It has the effect of minimizing the usage.

In addition, the present invention has a plurality of heaters, and by mounting a sensor on each heater, the target temperature can be stably maintained, and there is an effect of enabling fumigation work even if a failure occurs in one heater.

In addition, the present invention can serve to increase the heat transfer efficiency by installing a diaphragm in the heating space, and to keep the non-vaporized liquid from being ejected immediately.

1 is a block diagram of a fumigation vaporizer of an embodiment according to the present invention,
Figure 2 is a perspective view showing the outside of the fumigation vaporizer of an embodiment according to the present invention,
3 to 4 are views showing the main configuration of the fumigation vaporizer of an embodiment according to the present invention viewed from different directions,
5 to 6 is a view showing the movement path of the drug (fumigant) supplied through the fumigant supply pipe of the fumigant supply unit provided in the fumigation vaporizer of another embodiment according to the present invention,
7 is a view showing the movement path of the gas supplied through the inert gas supply pipe of the gas supply unit provided in the fumigation vaporization apparatus of another embodiment according to the present invention,
8 is a view showing a movement path of a mixed gas in which a fumigant and a gas are mixed inside the vaporization tank;
9 is a control block diagram for the fumigation vaporization apparatus of the embodiment according to the present invention.

Hereinafter, a preferred embodiment according to the present invention will be described in more detail with reference to the accompanying drawings.

Prior to the description of the present invention, the following specific structural or functional descriptions are only exemplified for the purpose of describing embodiments according to the concept of the present invention, and embodiments according to the concept of the present invention may be implemented in various forms and , should not be construed as being limited to the embodiments described herein.

In addition, since the embodiment according to the concept of the present invention may have various changes and may have various forms, specific embodiments will be illustrated in the drawings and described in detail herein. However, this is not intended to limit the embodiments according to the concept of the present invention to a specific disclosed form, and it should be understood to include all modifications, equivalents and substitutes included in the spirit and scope of the present invention.

In addition, the components of the present invention are to be interpreted in the same range not only in direct contact or connection, but also in contact or connection through other components between components and components.

1 is a block diagram of a fumigation vaporizer of an embodiment according to the present invention, FIG. 2 is a perspective view showing the outside of the fumigation vaporizer of an embodiment according to the present invention, and FIGS. 3 to 4 are embodiments according to the present invention It is a view showing the main configuration of the example fumigation vaporizer when viewed from different directions, and FIGS. 5 to 6 are the fumigant supply pipe of the fumigant supply unit provided in the fumigation vaporizer of another embodiment according to the present invention. It is a view showing the movement path of the fumigant), and FIG. 7 is a view showing the movement path of the gas supplied through the inert gas supply pipe of the gas supply unit provided in the fumigation vaporizer of another embodiment according to the present invention, FIG. 8 is It is a view showing the movement path of the mixed gas in which the fumigant and the gas are mixed inside the vaporization tank, and FIG. 9 is a control block diagram of the fumigation vaporizer of the embodiment according to the present invention.

As shown in these figures, since the fumigation vaporizer according to an embodiment of the present invention has insecticidal, sterilizing, and herbicidal effects, a fumigant that can be widely used for agriculture or quarantine is used in a safer and more efficient way than before. In particular, it is preferable to include a vaporization unit 100, a fumigant supply unit 200, a gas supply unit 300, and an air diaphragm pump 400 to enable large-capacity fumigation.

As shown, the vaporization unit 100 is capable of vaporizing a fumigant and discharging it as a fumigation vaporized material, the vaporization unit 100 heating the fumigant to generate a fumigation vaporized material It includes a heater 120 it is preferable

In addition, the vaporization unit 100 is preferably provided with a vaporization tank 110 having a heating space therein, and the heater 120 is provided in the heating space of the vaporization tank 110 at a predetermined interval along the circumferential direction. It is preferable to generate a fumigant vaporized material by heating the fumigant by the heater 120 by installing a plurality of them to form a . Here, in order to prevent heat loss of the heater 120 , a heat insulating member may be provided in the vaporization tank 110 .

In addition, it is preferable that a plurality of diaphragms 150 are installed inside the vaporization tank 110 to partition the heating space. By increasing the surface area of the heating space by the diaphragm 150, heat transfer efficiency can be increased, and the non-vaporized liquid can be prevented from being ejected immediately.

At this time, it is preferable that a communication part 152 is formed in the diaphragm 150 so that each space divided into a plurality of spaces communicates with each other by the communication part 152 , and the communication part 152 has a plurality of spaces. It is preferable that the diaphragms 150 are formed to be positioned in mutually opposite directions.

In the heater 120 installed in this way, it is preferable that five heaters are installed at regular intervals along the circumferential direction in the heating space portion, and the diaphragm 150 is preferably provided with 10 diaphragms to divide the heater into equal parts. do.

In addition, in the embodiment of the present invention, the vaporization tank 110 preferably includes a first vaporization tank 110A and a second vaporization tank 110B separated from each other. Accordingly, by heating the fumigant that is not sufficiently vaporized in the first vaporization tank 110A once more in the second vaporization tank 110B to be ejected, the temperature of the fluid can be increased to minimize the amount of carrier gas used.

In an embodiment of the present invention, it is preferable that a plurality of sensors 130 are installed to respectively correspond to a plurality of heaters so as to control each of the heaters 120 , and a plurality of heaters according to a detection signal of the sensor 130 . It is preferable that the controller 140 be provided to control each 120 individually.

Accordingly, in the embodiment of the present invention, the plurality of heaters 120 may be controlled by the controller 140 . As a result, since the fumigation vaporizer according to this embodiment has an insecticidal, sterilizing, and herbicidal effect, a fumigant that can be widely used for agriculture or quarantine is supplied into the vaporization unit, and then heated to generate a fumigation vaporized material to be safe and can be used effectively as a fumigation phase.

That is, the present invention can not only use a fumigant in a safer and more efficient way than before, but also can reduce all costs associated with the use of a fumigant, and build a simplification of the device.

Also, the controller 140 controls the operation of the heater 120 . The controller 140 performing this role may be configured to include a central processing unit (CPU) 142, a memory (MEMORY) 144, and a support circuit (SUPPORT CIRCUIT) 146 as shown in FIG. 9 . .

The central processing unit 142 may be one of various computer processors that can be industrially applied to control the operation of the heater 120 in this embodiment.

The memory 144 is connected to the central processing unit 142 . The memory 144 may be installed locally or remotely as a computer-readable recording medium, and may be easily available such as, for example, random access memory (RAM), ROM, floppy disk, hard disk, or any digital storage form. At least one memory.

The support circuitry 146 is coupled to the central processing unit 142 to support typical operation of the processor.

Such support circuitry 146 may include cache, power supply, clock circuitry, input/output circuitry, subsystems, and the like.

In this embodiment, the controller 140 controls the operation of the heater 120 . In this case, a series of processes in which the controller 140 controls the operation of the heater 120 may be stored in the memory 144 . Typically, software routines may be stored in memory 144 . Software routines may also be stored or executed by other central processing units (not shown).

Although the process according to the present invention has been described as being executed by a software routine, it is also possible that at least some of the processes of the present invention are performed by hardware. As such, the processes of the present invention may be implemented in software executed on a computer system, implemented in hardware such as an integrated circuit, or implemented by a combination of software and hardware.

As shown, the fumigant supply unit 200 is provided on the outside of the vaporization unit 100, and the fumigant tank 210 containing the fumigant therein and the fumigant contained in the fumigant tank 210 are supplied to the vaporization unit 100 ), it is preferable to include a fumigant supply pipe 220 that is provided to be supplied.

Here, the fumigant may be generated as a fumigant vaporized material by the heater 120 provided in the vaporization unit 100 .

In this embodiment, the fumigant is methyl bromide (Methyl bromide), ethyl formate (Ethyl formate), methyl formate (Methyl formate), a liquid fumigant that can be mixed with the methyl formate (Ethyl formate + MITC, AITC or Monoterpenes), Methyl isothiocyante (MITC, methyl isothiocyante), allyl isothiocyanate (AITC, Allyl isothiocyanate), Aluminum phosphide, Magnesium phosphide, Phosphine, Sulfuryl floride, Methyl iodide, cyanogen, Metham sodium, Metham sulfide, carbonyl sulfide It may be selected from tetrachloride and dimehtyl disulfide. Of course, other than the components thereof may be further used.

At this time, as a liquid fumigant that can be mixed with ethyl formate, methyl isothiocyanate, aIly istothiocyanate, ally anisole, methyl benzoate, camphor, carvone, 1,8-cineole, p-cymene, eugenol, limonene, menthone, alpha pinene, beta pinene Mono and sesqui terperinoids such as

And the natural essential oil material may include a material having a natural insecticidal and sterilizing effect, such as lavender, lemon, lime, peppermint, pine, rosemary, thyme, tea tree oil.

As shown, the gas supply unit 300 is provided on the outside of the vaporization unit 100, the gas tank 310 filled with an inert gas therein and the inert gas filled in the gas tank 310, the It is preferable to include an inert gas supply pipe 320 provided to be supplied to the vaporization unit 100 .

Here, the inert gas supply pipe body 320 is preferably made of a stainless steel material to prevent corrosion.

In this embodiment, the inert gas may be any one selected from nitrogen (N ₂ ), carbon dioxide (CO ₂ ), or helium (He).

As shown, the air diaphragm pump 400 is vaporized by connecting the fumigant supply pipe 220 of the fumigant supply unit 200 to transfer the fumigant supplied through the fumigant supply pipe 220 . It is provided to supply a fumigant to the unit 100 .

At this time, a branch pipe 322 branched from the inert gas supply pipe body 320 of the gas supply unit 300 is connected to the air diaphragm pump 400 , and the inert gas supplied through the branch pipe 322 is It is preferable to use it as a power source for operating the air diaphragm pump 400 in part.

Therefore, if the gas is not supplied through the branch pipe 322 branching from the inert gas supply pipe 320, the air diaphragm pump 400 does not operate, so that only one of the fumigant and the inert gas is in the vaporization tank. This can be prevented from being supplied.

As in this embodiment, when the air diaphragm pump 400 is applied, the chemical liquid pump is operated by using N ₂ , CO ₂ , etc. in the form of high-pressure gas as power. It is possible to fundamentally block the possibility that only one of the two fluids (fumigant and inert gas) will enter. That is, in the embodiment of the present invention, the inert gas supply pipe body 320 is used to operate the air diaphragm pump 400 with a part (about 5%) of the gas moved through the inert gas supply pipe body 320 . It is preferable to branch out so as to be able to supply a fumigant and an inert gas.

Preferably, 95% of the gas is supplied to the vaporization tank 110 through the inert gas supply pipe 320, and 5% of the gas is supplied through the branch pipe 322, so that 5% of the gas is air diamond. It is preferable to operate the fram pump 400 .

Unexplained reference numeral 332 is a gas inlet through which the carrier gas (N ₂ , CO ₂₎ is injected, 334 is a flow valve that can adjust the pressure of the air diaphragm pump 400, and 336 is the gas A check valve to prevent backflow. In addition, an unexplained reference numeral 232 denotes a discharge port through which vaporizing chemicals (fumigants) are discharged, and reference numeral 234 denotes a drain valve for removing and cleaning residual chemicals.

According to the embodiment of the present invention, the air diaphragm pump 400 does not use electric equipment to deliver a flammable fluid, so it has a basic explosion-proof performance and has the advantage of significantly lowering the possibility of failure.

According to the fumigation device of this embodiment having such a structure and action, since it has insecticidal, sterilizing, and herbicidal effects, a fumigant that can be widely used for agriculture or quarantine, etc. can be used in a safer and more efficient way than before.

In addition, according to the fumigation vaporizer of this embodiment, it is possible to reduce the overall cost due to the use of the fumigant, it is possible to build the simplification of the device.

In particular, the fumigation vaporizer of this embodiment can control the liquid (fumigant) and gas (non-sulfur gas) through an air diaphragm pump in an integrated manner, and can be heated twice by two vaporization tanks, and a plurality of diaphragms There is an advantage in that the surface area is increased by partitioning the heating space by installing a heater, and a sensor is installed in each of the plurality of heaters to control the plurality of heaters, respectively, so that fumigation is possible even if a failure occurs in one heater.

The effect of the present invention will be elaborated. In terms of the use of fumigants, the present invention is a technology that can promote the reduced use of methyl bromide, an ozone-depleting substance that is being reduced worldwide, and the economical use of expensive alternative substances.

When the permeability of the gas itself is low during fumigation treatment of imported fruits and vegetables, the control effect may be reduced, but the present invention provides a fumigation effect while reducing the damage to low-temperature treatment and fumigation objects by adding an inert gas mixing treatment function. can be maximized.

The effects of the present invention are summarized again as follows.

First, the function of the conventional simple vaporizer in use in the field, for example, can be used by mixing an inert gas and a fumigant, thereby increasing the efficiency of the fumigation vaporizer and can be safely used.

Second, it is possible to increase the vaporization pressure due to the above, and finally, by increasing the penetration of the gas, it is possible to maximize the intrinsic fumigation effect of the object to be fumigated, for example, banana, orange, pineapple, and the like.

Third, since it is structurally stable and convenient to handle, it is possible to minimize the amount of fumigant inhaled by the operator, thereby promoting safe work.

Moreover, the present invention can supply only the inert gas by supplying oxygen and gas impurities contained in the air in an adsorbed state, and can be safely used by reducing the risk of explosion.

According to the present invention, since it has insecticidal, sterilizing, and herbicidal effects, it can be used in a safer and more efficient way than before by vaporizing and discharging a fumigant that can be widely used for agriculture or quarantine, etc. within a short time. It is possible to reduce the overall cost, and to establish a simplification of the device.

In particular, the present invention has the advantage of being able to fumigate in a large capacity.

The technical problem of the present invention is achieved by the technical configuration as described above, and although described with reference to the limited embodiments and drawings, the present invention is not limited thereto and the present invention is not limited thereto by those of ordinary skill in the art. It goes without saying that various modifications and variations are possible within the scope of equivalents of the technical spirit and the claims to be described below.

100 - vaporization unit
200 - Fumigant supply unit
300 - gas supply unit
400 - air diaphragm pump

Claims (6)

a vaporization unit 100 capable of vaporizing a fumigant and discharging it as a vaporized fumigant;
A fumigant supply pipe 220 provided outside the vaporization unit 100 and provided to supply a fumigant tank 210 containing a fumigant therein and a fumigant accommodated in the fumigant tank 210 to the vaporization unit 100 . ) a fumigant supply unit 200 including;
An inert gas provided outside the vaporization unit 100 and provided to supply a gas tank 310 filled with an inert gas therein and an inert gas filled in the gas tank 310 to the vaporization unit 100 . a gas supply unit 300 including a supply pipe body 320 ; and
The branch pipe 322 branched from the inert gas supply pipe body 320 of the gas supply unit 300 is installed to be connected and operated using the inert gas supplied through the branch pipe 322 as a power source, while supplying the fumigant An air diaphragm pump 400 capable of supplying the fumigant to the vaporization unit 100 by allowing the fumigant supplied through the tube body 220 to be transferred;
The vaporization unit 100,
Vaporization tank 110 having a heating space therein;
A plurality of heaters 120 provided to form a predetermined interval along the circumferential direction in the heating space portion of the vaporization tank 110, heating the fumigant to generate a fumigation vaporized material;
a plurality of sensors 130 installed to respectively correspond to a plurality of heaters so as to control the heaters 120, respectively;
a controller 140 capable of individually controlling a plurality of heaters according to a detection signal of the sensor 130; and
A plurality of diaphragms 150 that are installed in the heating space and divide the heating space into a plurality of spaces to increase the surface area to increase heat transfer efficiency and prevent non-vaporized liquid from being ejected immediately,
A communication part 152 is formed in the diaphragm so that each space partitioned into a plurality of spaces by the diaphragm 150 communicates with each other, and the communication part 152 is located in the plurality of diaphragms in opposite directions. formed,
When the heater 120 is installed at regular intervals along the circumferential direction in the heating space portion, the diaphragm 150 is a fumigation device, characterized in that installed by dividing the heater installed at the predetermined interval.
delete delete delete According to claim 1,
The vaporization tank 110 is:
Including a first vaporization tank (110A) and a second vaporization tank (110B) separated from each other,
Fumigation vaporization, characterized in that the use of carrier gas is minimized by increasing the temperature of the fluid by heating the fumigant not sufficiently vaporized in the first vaporization tank 110A to be ejected by heating it once more in the second vaporization tank 110B. Device.
According to claim 1,
The inert gas is:
It is any one gas selected from nitrogen (N ₂ ), carbon dioxide (CO ₂ ), or helium (He),
The fumigant is:
Methyl bromide, Ethyl formate, Methyl formate, a liquid fumigant that can be mixed with the methyl formate (Ethyl formate + MITC, AITC or Monoterpenes), methyl isothiothiocyanate ( MITC, methyl isothiocyante), Allyl isothiocyanate (AITC, Allyl isothiocyanate), Aluminum phosphide, Magnesium phosphide, Phosphine, Sulfuryl floride, Methyl iodide, cyanogen, Metham sodium, Metham potasium, carbonyl sulfide, carbon tetrachloride Fumigation vaporizer, characterized in that.

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