KR102223009B1 - Chlorine Dioxide Gas Generator, Deodorization System for Barn using It and Control Method Thereof - Google Patents

Abstract

The present invention relates to: a chlorine dioxide gas generator which can suck chlorine dioxide gas without using a separate suction pump, produce chlorine dioxide gas of an appropriate concentration by controlling the amount of chlorine dioxide gas generated, and remove ammonia components inside a barn by supplying the generated chlorine dioxide gas into the barn, thereby capable of improving the environment inside the barn; a deodorization system for a barn using the same; and a control method thereof. The chlorine dioxide gas generator comprises: a blower fan that sucks in outside air and discharges the air through a discharge pipe; an aeration tank in which a certain amount of water is stored, a chemical for generating chlorine dioxide gas is injected, and chlorine dioxide gas is generated through a reaction between the injected chemical and water; an air pump for supplying air to the lower side of the aeration tank to generate bubbles in the water; a plasma generator for increasing the chlorine dioxide concentration in a gas sucked from the aeration tank using ozone; and a control panel for controlling the blower fan, the air pump, and the plasma generator and setting the operating time. The aeration tank and the plasma generator are connected by a suction pipe, the plasma generator and the discharge pipe are connected by a chlorine dioxide supply pipe, and a bypass pipe connects the suction pipe and the discharge pipe so that a part of the gas sucked from the aeration tank is directly supplied to the discharge pipe without going through the plasma generator.

Description

Chlorine Dioxide Gas Generator, Deodorization System for Barn Using It and Control Method Thereof}

The present invention relates to a chlorine dioxide gas generator, a livestock deodorization system using the same, and a control method thereof, and more particularly, it is possible to inhale chlorine dioxide gas without using a separate suction pump, as well as to control the amount of chlorine dioxide gas produced. It is possible to produce chlorine dioxide gas of an appropriate concentration by controlling it, and a chlorine dioxide gas generator that improves the internal environment of the livestock by supplying the generated chlorine dioxide gas into the livestock to remove the ammonia component inside the livestock and deodorizing the livestock using the same. It relates to a system and a control method thereof.

In general, livestock excreta or waste products accumulate in a barn for raising livestock such as cows and pigs, and if this is not disposed of in a timely manner, odors are generated by gases such as ammonia or hydrogen sulfide generated from the excrement.

The odor caused by these gases causes respiratory diseases in livestock, has a detrimental effect on the growth and health of young pigs, and acts as a stress factor for livestock. In particular, when the concentration of ammonia increases, respiratory disease occurs, which incurs additional cost of medicine.

For reference, when the ammonia concentration in the pig farm is 50 ppm, the growth rate of piglets decreases by about 12%, and when the ammonia concentration in the pig farm is 100 to 150 ppm, the growth rate of piglets is known to decrease by about 30%, and when the ammonia concentration exceeds 15 ppm, it is 10 ppm or less. It is known that the mortality rate increases to 70% above the level of.

And, in the case of pig farm workers that generate odor-causing gases, about 2 to 3.7 times more respiratory disease symptoms than general farm workers, and 70 to 90 percent of acute bronchitis symptoms complaining of coughing, phlegm, and chest tightness. It is known to reach %.

Therefore, it is very important to remove odor-causing substances such as ammonia and hydrogen sulfide generated in the shed, and one of them is a method of neutralizing using chlorine dioxide gas. That is, the chlorine dioxide gas generated from the chlorine dioxide gas generator is supplied to the inside of the house, and the chlorine dioxide gas reacts with ammonia or hydrogen sulfide that causes odor to change into an odorless and harmless substance.

As shown in Figs. 5 and 6, the conventional chlorine dioxide gas generator 100 has a blowing fan 110 that sucks outside air and discharges it through the discharge pipe 115, and a certain amount of water is stored therein. A chemical 200 for generating chlorine dioxide gas is injected into the chlorine dioxide gas, and chlorine dioxide gas is generated through the reaction between the injected chemical 200 and water, and the aeration tank 120 provided with a lid 121 at the inlet, and bubbles from the water. An air pump 130 that supplies air to the lower side of the aeration tank 120 so as to occur, a plasma generator 140 that increases the concentration of chlorine dioxide in the gas sucked from the aeration tank 120 using ozone, and the aeration tank ( A suction pump 135 installed in the suction pipe line 123 connecting the plasma generating device 140 to the plasma generating device 140 and supplying the gas generated in the aeration tank 120 to the plasma generating device 140, and a blowing fan 110 ) And an air pump 130, a suction pump 135, and a control panel 150 for controlling the plasma generating device 140 and setting an operation time. At this time, the ventilation chamber 100A in which the blowing fan 110 is installed is divided into a machine room 100B in which the aeration tank 120, the air pump 130, the plasma generating device 140 and the control panel 150 are installed. It is common to be.

The control panel 150 is for setting the operation time of the device, and as shown in FIG. 6, an operation time display unit 151 indicating the operation time of the device, and a stop time display unit 152 indicating the stop time of the device. And a plasma operating time display unit 153 indicating a stop time of the plasma generating device 140, and a setting button 155 for setting the operating time of the device and an adjustment button 156 for increasing or decreasing the set time. And, it is provided with an operation indicator 154 indicating the on-off of the device.

In the above-described conventional chlorine dioxide gas generator 100, when chlorine dioxide gas is generated by a chemical reaction in the aeration tank 120, the suction pump 130 sucks it and supplies it to the plasma generator 140, and plasma The generator 140 uses ozone to increase the concentration of chlorine dioxide gas and then supplies chlorine dioxide to the discharge pipe 115 through the chlorine dioxide supply pipe 125. Accordingly, chlorine dioxide gas is mixed with the air sucked by the blowing fan 110 and discharged through the discharge pipe 115 and discharged to the livestock house, thereby changing the odor-causing substance inside the livestock house into an odorless and harmless substance.

However, the conventional chlorine dioxide gas generator has a problem in that the weight of the product is increased and the price is high as the conventional chlorine dioxide gas generator has a suction pump that sucks air from the aeration tank and supplies it to the plasma generator.

In addition, there is another problem in that the concentration of chlorine dioxide increases excessively as the entire air sucked by the suction pump passes through the plasma generating device.

On the other hand, in Korean Patent Publication No. 10-2011-0068658, it is installed on the outside of a livestock house to remove dust and odors generated therein to discharge clean air to the atmosphere, and the air discharged from the indoor to the outside is made of a filter. Dust and odors are firstly removed by passing through the filter body, and dust and odors contained in the air passing through the filter body are secondarily removed while passing through the water shower booth where water with dissolved chemicals is sprayed, thereby preventing environmental pollution. A device for removing dust and odor for livestock has been proposed and disclosed,

Registered Patent No. 10-1317355 includes a odor treatment housing including a suction duct and a discharge duct, a dust removal cleaning room including a cleaning nozzle for treating air flowing into the suction duct with a sprayed liquid, and a dust removal cleaning room. A first gas-liquid separation chamber including a first filter for removing the liquid contained in the air, a plasma processing chamber for treating the air processed in the first gas-liquid separation chamber with plasma, and treating the air processed in the plasma processing chamber with ultraviolet rays And a wet treatment chamber including a treatment nozzle for treating the air treated in the ultraviolet treatment chamber with a liquid to be sprayed, and a second filter for removing liquid contained in the air treated in the wet treatment chamber, and 2 An atmospheric treatment device for a livestock house including a second gas-liquid separation chamber for discharging the air processed by the filter through an exhaust duct has been proposed and disclosed,

Registration Patent No. 10-0929784 call, the frame forming the skeleton; A cover mounted on the frame and forming a part of an external shape; A storage tank mounted on the frame and in which water and deodorant are mixed and stored; A driving device mounted on the frame and pulling up water from the storage tank; A wave generator mounted on the frame, wherein a plurality of permanent magnets are continuously arranged to make fine molecules of water supplied from a water supply source outside the frame, such as a water supply, by a magnetic field; A flow path pipe connecting the water supply source and the storage tank, a driving device, and a wave generator to form a passage for water or water mixed with a deodorant; A valve provided in a plurality of flow path pipes and opened and closed to determine a flow direction of water or water mixed with a deodorant; A control device provided on the frame and controlling the operation of the driving device and the valve; It is provided at the end of the flow path pipe, and is arranged in a livestock house and comprises a connection member detachably connected to the spray pipe for spraying the supply fluid in the form of mist, and the water supply source is opened and closed according to the opening and closing of the valve. The water supplied through the odor removal device for livestock to be guided to the injection pipe after passing through the wave water machine and then stored in the storage tank, mixed with a deodorant, and then passed through the wave water machine again, and odor removal using the same A method is proposed and disclosed.

Unexamined Patent Publication No. 10-2011-0068658 Registered Patent Publication No. 10-1317355 Registered Patent Publication No. 10-0929784

The present invention has been devised in consideration of and solving the above-described problems. By connecting the suction pipe and the discharge pipe by a bypass pipe, it is possible to inhale the chlorine dioxide gas of the aeration tank without using a separate suction pump. A chlorine dioxide gas generator that controls the amount of chlorine gas produced to produce chlorine dioxide gas of an appropriate concentration, and improves the internal environment of the house by supplying the generated chlorine dioxide gas into the house to remove the ammonia component inside the house. The purpose of this is to provide a livestock deodorization system and a control method using the same.

The chlorine dioxide gas generator of the present invention for achieving the above object comprises: a blowing fan for sucking external air and discharging it through a discharge pipe; An aeration tank in which a certain amount of water is stored, a chemical for generating chlorine dioxide gas is injected therein, and a chlorine dioxide gas is generated through a reaction between the injected chemical and water; An air pump for supplying air to the lower side of the aeration tank to generate bubbles in the water; A plasma generator for increasing the concentration of chlorine dioxide in the gas sucked from the aeration tank using ozone; And a control panel for controlling the blowing fan, the air pump, and the plasma generating device and setting the operating time.

According to the present invention, the high, aeration tank and the plasma generating device are connected by a suction pipe, and the plasma generating device and the discharge pipe are connected to the chlorine dioxide supply pipe, and the bypass pipe connects the suction pipe and the discharge pipe to be sucked from the aeration tank. Part of the gas may be supplied directly to the discharge pipe without passing through the plasma generating device, and a suction pump for sucking air may be incorporated into the plasma generating device.

According to the present invention, a concentration detection tube equipped with a sensor for detecting the concentration of chlorine dioxide in air passing through the chlorine dioxide supply pipe is connected to the chlorine dioxide supply pipe, and the suction pump built in the plasma generator according to the detected concentration of chlorine dioxide is connected to the chlorine dioxide supply pipe. It can be configured to determine whether it works or not.

According to the present invention, a setting unit for setting the operation and stop time of each device and a display unit for respectively displaying the operation time and stop time of each device are installed on the control panel, and a changeover switch for switching the device to be operated manually or automatically. May be provided.

In addition, the livestock deodorization system using the chlorine dioxide gas generator of the present invention, a chlorine dioxide gas generator is installed on one side, the house provided with an internal blowing fan; A chlorine dioxide supply pipe connected to the chlorine dioxide gas generator and installed at the top of the house to inject chlorine dioxide gas into the inside of the house; A sensor box installed on the upper part of the house and comprising a variety of sensors for detecting the gas concentration inside the house; It characterized in that it comprises a; status display unit indicating safety or danger according to the gas concentration in the house.

And, the control method of the livestock deodorization system of the present invention, when power is supplied to the chlorine dioxide gas generator, the operation method selection step of checking whether or not automatic operation; A manual operation step of starting the device to operate the device for a set time after setting an operating time, a stop time, and an operating time of the plasma generating device, respectively, when the manual operation is selected; In the case of automatic operation, an automatic operation step of performing automatic operation according to the concentration of chlorine dioxide detected by the sensor until the automatic operation is terminated by starting the operation of the device after operating the blower fan and various sensors; including, The automatic operation step includes checking the concentration of chlorine dioxide gas in the livestock house; Maintaining the operation of the device when the measured value of the gas concentration in the house is less than the reference value, and stopping the operation of the device when the measured value is greater than or equal to the reference value; including, and performing the above process every predetermined time until the automatic operation is terminated. It can be configured to repeat.

In the chlorine dioxide gas generator according to the present invention, as the discharge pipe connected to the blower fan and the suction pipe connected to the aeration tank are connected to the bypass pipe, negative pressure acts on the suction pipe to suck the air from the aeration tank without installing a separate suction pump. As a result, it is possible to omit the suction pump, thereby reducing the cost of the product, reducing the number of manufacturing processes, and preventing an excessive increase in the concentration of chlorine dioxide gas.

According to the present invention, as the suction pump is built into the plasma generating device, the amount of air flowing into the plasma generating device can be adjusted, as well as chlorine dioxide by controlling the built-in suction pump according to the concentration of chlorine dioxide in the air discharged from the plasma generating device. A useful effect of being able to control the concentration can be achieved.

According to the present invention, it is possible to display the operation and stop time of the device using the control panel, as well as achieve a useful effect of selecting automatic operation or manual operation using a changeover switch.

According to the livestock deodorization system using the chlorine dioxide gas generator according to the present invention, the chlorine dioxide gas generated by the chlorine dioxide gas generator is injected from the upper part of the livestock house and the gas concentration is sensed through a sensor to indicate safety or danger. It is possible to achieve a useful effect that can be safely improved.

According to the control method of the livestock deodorization system according to the present invention, the chlorine dioxide gas generator can be operated manually or automatically, and the chlorine dioxide gas generator is automatically turned on and off according to the gas state in the livestock during automatic operation, so that the convenience of the operator is improved. It is possible to achieve an improved useful effect.

1 is a block diagram schematically showing a chlorine dioxide gas generator according to the present invention.
2 is an enlarged view showing the control panel of the chlorine dioxide gas generator according to the present invention.
3 is a schematic diagram of a livestock deodorization system using a chlorine dioxide gas generator according to the present invention.
4 is a block diagram illustrating a control method of a livestock deodorization system according to the present invention.
5 is a block diagram schematically illustrating a conventional chlorine dioxide gas generator.
6 is an enlarged view showing a control panel of a conventional chlorine dioxide gas generator.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

The terms used in the present invention are terms defined in consideration of functions in the present invention, and since these may vary according to the intention or custom of users or operators, the definitions of these terms correspond to the technical matters of the present invention. And should be interpreted as a concept.

The accompanying drawings, FIGS. 1 and 2 are views for explaining a chlorine dioxide gas generator according to the present invention, and FIG. 3 is a view for explaining a livestock deodorization system using a chlorine dioxide gas generator according to the present invention, and FIG. 4 is It is a view for explaining the control method of the livestock deodorization system according to the present invention.

As shown in Figs. 1 and 2, the chlorine dioxide gas generator 10 according to the present invention includes a blowing fan 11 that sucks outside air and discharges it through the discharge pipe 16, and a certain amount of water is stored. A chemical for generating chlorine dioxide gas is injected inside, and chlorine dioxide gas is generated through the reaction of the injected chemical and water, and an aeration tank 12 equipped with a lid 12' and an aeration tank 12 to generate bubbles in water. An air pump 13 that supplies air to the lower side of the interior, a plasma generating device 14 that increases the concentration of chlorine dioxide in the gas sucked from the aeration tank 12 using ozone, a blower fan 11 and an air pump (13) and a control panel 15 for controlling the plasma generating device 14 and setting the operating time.

Here, the aeration tank 12 and the plasma generator 14 are connected by a suction pipe 17 so that the gas generated in the aeration tank 12 flows into the plasma generator 14, and discharges with the plasma generator 14. The pipe 16 is connected to the chlorine dioxide supply pipe 19 so that the chlorine dioxide gas from the plasma generator is supplied to the discharge pipe 16, and the bypass pipe 18 is connected to the suction pipe 17 and the discharge pipe. By connecting (16), a part of the gas sucked from the aeration tank 12 is configured to be directly supplied to the discharge pipe 16 without passing through the plasma generating device 14. In this case, the bypass pipe 18 is preferably connected to an inlet portion of the discharge pipe 16 connected to the blowing fan 11.

The aeration tank 12 stores a certain amount of water so that a chemical reaction occurs after the injected chemicals are dissolved in water to generate chlorine dioxide. At this time, the chemicals introduced into the aeration tank 12 _{contain a mixture of citric acid (C 6} H ₈ O ₇ ) and sodium chlorite (NaClO ₂ ) so that chlorine dioxide is generated according to the reaction of citric acid dissolved in water and sodium chlorite. do. This is represented by the formula as follows.

In other words, after trisodium citrate (C ₆ H ₅ Na ₃ O ₇ ) and chlorine dioxide are produced by the reaction of sodium chlorite and citric acid, the gaseous chlorine dioxide gas escapes and trisodium citrate and water remain. .

The air pump 13 supplies air into the aeration tank 12 so that air bubbles are formed by bubbling so that the chlorine dioxide gas generated by the chemical reaction can be discharged together with the air. And, as the bypass pipe 18 is connected to the discharge pipe 16 connected to the blowing fan 11, the suction force acts on the suction pipe 17 according to the Bernoulli principle, so that the chlorine dioxide generated in the aeration tank 12 Gas and air are introduced into the intake pipe (17). Therefore, it is possible to omit the suction pump separately installed in the suction pipe 17 connected to the aeration tank 12, thereby reducing the cost of the product and reducing the number of processes during manufacturing, thereby improving productivity.

On the other hand, some of the air introduced into the suction pipe 17 exits the discharge pipe 16 through the bypass pipe 18, but the remaining part flows into the plasma generator 14 connected to the suction pipe 17, In the interior of the plasma generator 14, chlorine dioxide ions in the air _{react with ozone (O 3} ) to generate chlorine dioxide and ionize ozone, which is represented by the formula as follows.

That is, the sodium chlorite is then dissolved in water, sodium ions (Na ⁺⁾ and chlorine dioxide ion (ClO ₂ ^-) contained in the medicine is dissociated, dissociated chlorine dioxide ions are by bubbling it includes air and the plasma generating device After flowing into the interior of (14), chlorine dioxide gas is generated by reacting with ozone in the plasma generating device (14). In this way, since only a part of the air introduced into the suction pipe 17 is supplied to the plasma generating device 14, the amount of chlorine dioxide gas generated by the plasma generating device 14 is greatly reduced.

In addition, it is preferable that the plasma generating device 14 has a built-in suction pump for sucking air. This built-in suction pump is only for controlling the amount of air introduced into the plasma generating device 14, and cannot perform a role of sucking air from the aeration tank 12. In addition, plasma is generated according to the detected concentration of chlorine dioxide by connecting a concentration detection tube 15' equipped with a sensor that detects the concentration of chlorine dioxide in air passing through the chlorine dioxide supply pipe 19 to the chlorine dioxide supply pipe 19. It is more preferable to allow the operation of the suction pump built into the device 14 to be determined. Accordingly, it is possible to adjust the concentration of chlorine dioxide in the air supplied to the discharge pipe 16 through the chlorine dioxide supply pipe 19.

In addition, as shown in FIG. 2, the control panel 15 displays a setting button 15d and an adjustment button 15e, which are setting units for setting the operation and stop time of each device, and the operation time and stop time of each device. An operation time display unit 15a, a stop time display unit 15b, and a plasma operation time display unit 15c, respectively, are installed, and an operation indicator 15f indicating whether or not the device is operating is installed. A changeover switch (15g) for switching to be operated automatically is provided. Therefore, it is possible to select manual operation and automatic operation by using the changeover switch 15g, as well as the operation time and stop time of the device and the plasma generating device by using the setting button 15d and the adjustment button 15e during manual operation. 14) operation time can be set, and the time is displayed on the display. In addition, in the case of automatic operation, by setting the sum of the operation time and the stop time of the device and the operation time of the plasma generating device 14 as one cycle, whether or not the device is operated can be determined every predetermined time.

On the other hand, the livestock deodorization system using the chlorine dioxide gas generator according to the present invention, as shown in Figure 3, a chlorine dioxide gas generator 10 is installed on one side and the house 20 provided with an internal blowing fan 25 and , The chlorine dioxide supply pipe 30 connected to the chlorine dioxide gas generator 10 and installed on the upper part of the barn 20 to inject chlorine dioxide gas into the barn 20, and installed on the upper part of the barn 20 It comprises a sensor box 40 consisting of a variety of sensors for sensing the gas concentration inside the house 20 and a status display unit 50 indicating safety or danger according to the gas concentration in the house 20.

Here, in the sensor box 40, a sensor for detecting the concentration of ammonia in the house, a sensor for detecting the concentration of hydrogen sulfide, and a sensor for detecting the amount of chlorine dioxide are installed, and the status display unit 50 is When the concentration of the chlorine gas is higher than the reference value, a red warning light 50b and a green safety light 50a that are turned on when the concentration of chlorine dioxide gas is less than the reference value may be formed.

Therefore, the chlorine dioxide gas generated in the chlorine dioxide gas generator 10 is injected from the upper part of the house 20 to make ammonia or hydrogen sulfide in the house 20 odorless and detoxified to remove the odor of the house 20 and You will be able to improve the environment. In this way, when the internal environment of the barn 20 is improved, the incidence of diseases and mortality of livestock are reduced, and the livestock can grow stably.

In addition, the control method of the livestock deodorization system of the present invention, as shown in Figure 4, when the power is supplied to the chlorine dioxide gas generator 10, the operation method selection step of checking whether or not automatic operation; A manual operation step of starting the device to operate the device for a set time after setting an operating time, a stop time, and an operating time of the plasma generating device, respectively, when the manual operation is selected; And in the case of automatic operation, an automatic operation step of starting the device after operating the blowing fan 11 and various sensors and performing automatic operation according to the concentration of chlorine dioxide detected by the sensor until the automatic operation is terminated. It is made including.

Here, the automatic operation step is a step of checking the concentration of chlorine dioxide gas in the house 20, and when the measured value of the gas concentration in the house 20 is less than the reference value, the operation of the device is maintained and the measured value is more than the reference value. The step of stopping the operation of the device is included, and the above process is repeated every predetermined time until the automatic operation is terminated.

In this case, it is preferable that the repetition period is a time in which the operation time and the stop time of the apparatus initially set and the operation time of the plasma generating device 14 are summed as one cycle.

The above-described embodiment is merely a description of a preferred embodiment of the present invention, and is not limited to this embodiment, and various modifications and variations are made by those skilled in the art within the spirit and scope of the present invention. It will be said that this can be achieved, and it will be said to fall within the technical scope of the present invention.

10: chlorine dioxide gas generator 11: blowing fan
12: aeration tank 12': lid
13: air pump 14: plasma generating device
15: control panel 15': concentration detector
16: discharge pipe 17: suction pipe
18: bypass pipe 19: chlorine dioxide supply pipe
20: house 25: internal blowing fan
30: chlorine dioxide supply pipe 40: sensor box
50: status display

Claims (6)

A blower fan for inhaling external air and discharging it through a discharge pipe;
An aeration tank in which a certain amount of water is stored, a chemical for generating chlorine dioxide gas is injected therein, and a chlorine dioxide gas is generated through a reaction between the injected chemical and water;
An air pump for supplying air to the lower side of the aeration tank to generate bubbles in the water;
A plasma generator for increasing the concentration of chlorine dioxide in the gas sucked from the aeration tank using ozone;
Including; a control panel for controlling the blowing fan, the air pump, and the plasma generating device and setting the operating time,
The aeration tank and the plasma generating device are connected by a suction pipe,
The plasma generating device and the discharge pipe are connected to the chlorine dioxide supply pipe,
The bypass pipe connects the suction pipe and the discharge pipe so that a part of the gas sucked from the aeration tank is directly supplied to the discharge pipe without going through the plasma generator.
Chlorine dioxide gas generator, characterized in that the built-in suction pump for sucking air in the plasma generating device.
The method according to claim 1,
A concentration detection pipe equipped with a sensor for detecting the concentration of chlorine dioxide in air passing through the chlorine dioxide supply pipe is connected to the chlorine dioxide supply pipe,
Chlorine dioxide gas generator, characterized in that it is determined whether or not to operate the suction pump built in the plasma generating device according to the detected concentration of chlorine dioxide.
The method according to claim 1,
In the control panel, a setting unit for setting the operation and stop time of each device and a display unit for displaying the operation time and stop time of each device are installed.
Chlorine dioxide gas generator, characterized in that it is provided with a switching switch for switching the device to be operated manually or automatically.
The chlorine dioxide gas generator of any one of claims 1 to 3 is installed on one side and the house is provided with an internal blowing fan;
A chlorine dioxide supply pipe connected to the chlorine dioxide gas generator and installed at the top of the house to inject chlorine dioxide gas into the inside of the house;
A sensor box installed on the upper part of the house and comprising a variety of sensors for detecting the gas concentration inside the house;
A livestock deodorization system using a chlorine dioxide gas generator, comprising: a status display unit indicating safety or danger according to the gas concentration in the livestock house.
As a method of controlling the livestock deodorization system of claim 4,
When power is supplied to the chlorine dioxide gas generator, the operation method selection step of checking whether or not the automatic operation is performed;
A manual operation step of starting the chlorine dioxide gas generator to operate the chlorine dioxide gas generator for a set period of time after setting the operating time and the stopping time of the device and the operating time of the plasma generating device respectively when the manual operation is selected;
In the case of automatic operation, the chlorine dioxide gas generator is started after operating the internal ventilation fan of the house and various sensors in the sensor box, and the automatic operation is performed according to the gas concentration detected by the sensor in the sensor box until the automatic operation is terminated. Including; an automatic operation step to perform;
The automatic operation stage is:
Checking the concentration of chlorine dioxide gas in the livestock house;
Maintaining the operation of the device when the measured value of the gas concentration in the house is less than the reference value, and stopping the operation of the device when the measured value is greater than or equal to the reference value; and
Control method of a livestock house deodorization system, characterized in that configured to repeat the process every predetermined time until the automatic operation is terminated. delete

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