KR100344060B1 - Scruber Type Dry Spray Apparatus For Deodorizing With Natural Deodorizing Neutralizer - Google Patents

Abstract

The present invention relates to a scrubber-type dry spray deodorizing apparatus using a natural neutralizing deodorant, in a deodorizing apparatus for deodorizing odor by diluting a natural neutralizing deodorant, wherein one spray nozzle and a reactor equipped with a net are connected to each other so as to be stacked on each other A reaction device having a suction port formed at a lower part thereof, and a hood part having a discharge hole formed at an upper part thereof; A neutralizing agent supplying device for supplying a neutralizing agent for deodorizing odor to the injection nozzles provided inside the reactors; A compressed air supply device for supplying compressed air so that the neutralizing agent is sprayed in the atomized state during the injection of the neutralizing agent from the injection nozzle side; And a control device for automatically controlling the neutralizing agent supplying device and the compressed air supplying device for supplying the neutralizing agent to the reaction device side, and the reactor of the reaction device is configured to increase and decrease the amount of odor gas. Not only can it cope with it, but by spraying the neutralizer used to deodorize the odor gas into the atomized state, there is almost no water generation of the neutralizer, so there is no secondary pollution after the odor deodorization, and the odor gas during the passage of the first and second reactors. Because it can completely deodorize the odor of the effect that can obtain a higher deodorizing effect.

Description

Scrubber Type Dry Spray Apparatus For Deodorizing With Natural Deodorizing Neutralizer}

The present invention relates to a scrubber-type dry spray deodorizer using a natural neutralizing deodorant, and more particularly, to spontaneously deodorize a malodorous gas by spraying the natural neutralizing deodorant with water in an atomized state to increase the reaction effect. At the same time, the present invention relates to a scrubber type dry spray deodorization apparatus using a natural neutralizing deodorant which also prevents secondary contamination by treated water after deodorization.

There are many kinds of odors around our lives, and these odors are often generated from industrial sewage, waste, and sewage produced by large households in general household sewage, trash, toilets, restaurants, and factories. In order to deodorize such odors, the deodorizing method has been largely deodorized using a physical deodorizing method, a combustion deodorizing method, a drug treatment method, a biological deodorizing method, and the like.

In other words, physical deodorization method is generally divided into water washing method and adsorption method, and water washing method is a method of removing and deodorizing water-soluble odor components by washing with water, mainly ammonia, amines, ketones, aldehydes, lower organic acids, phenol, and the like. As a deodorization method to remove the component having a polar group, a large amount of water is required, and the removal efficiency is lowered for the neutral or non-polar components, and the deodorization effect is changed by the change of the water temperature, and the amount of air flow and pressure There is a disadvantage that the loss is large.

In addition, it is pointed out that depending on the treatment target, the odor component in the discharged water adversely affects agriculture or fisheries, or the odor component absorbed or dissolved is released again to cause secondary pollution.

On the other hand, the adsorption deodorization method is a deodorization method by an adsorbent such as charcoal or zeolite, but in terms of economical advantages of equipment cost is relatively low, but there is a problem that the deodorizing effect is lower than the combustion method described later.

Combustion deodorization method includes direct combustion method and catalytic oxidation method. Of these, direct combustion method oxidizes odor gas under 0.3 ~ 0.5 seconds (contact time between odor and heat) under high temperature of 600 ~ 800 ℃ to CO ₂ and H ₂ O. When incomplete combustion occurs by changing the odorless method, there is a problem that oxidative decomposition is not completed and thus another substance can be generated. In the catalytic oxidation method, a catalyst such as platinum, cobalt, or nickel is used to employ 300 to 400. It is oxidatively decomposed at a relatively low temperature of ℃, which also has an excellent deodorizing effect and has a low generation of nitrogen oxides due to a low oxidation temperature compared to the direct combustion method. In addition, fuel consumption is low, so operating costs are much lower. However, the limitation to preserve the performance of the catalyst and the lifetime of the catalyst can be a problem, it is preferable to use a high activity catalyst, but there is a problem of heat resistance and catalyst poison.

The drug treatment method is a method of deodorizing an odor component that does not dissolve in water but reacts with an acid or an alkaline aqueous solution or an odor component that reacts with a specific chemical solution using an acid or alkaline cleaning solution. The solubility and reaction rate of the odor component is high, there is no toxicity, it is preferable to choose a cheap cleaning solution. Although the construction cost is relatively inexpensive, corrosion resistance should be taken into consideration when selecting the material of the device. Also, when the waste liquid is discharged after deodorization, proper post-treatment is necessary and maintenance is difficult.

The treatment efficiency of the odor component can be increased through the selection of a cleaning liquid suitable for the target component, and high treatment efficiency can be expected when the load of the odor is not so high. However, it is difficult to expect a constant treatment efficiency over time, especially when the odor load fluctuations are severe.

In addition, ozone oxidation is a deodorization method that uses oxidative decomposition of odor component mainly by oxidizing with ozone and also uses concealment effect by ozone itself, and has a relatively good effect on sulfide type odor among compound odor components. (2) Lower amines have a low treatment effect, and if it is more than 0.1 ppm, it is harmful to the human body and requires careful care. When the amount of ozone is too small, deodorization is reduced. Not only does it go bad, but there are problems such as the need to decompose and remove ozone in the exhaust gas.

Biological deodorization methods include soil microorganisms, activated sludge, and peat. This deodorization method is a deodorization method in which microorganism groups ingest and decompose odorous components as nutrients, even though most of odorous components are organic substances and have a small amount of inorganic components. The deodorizing method has high efficiency of removing ammonia and hydrogen sulfide and is effective for sulfur compounds. Can be exercised. Operational cost is the lowest compared to the above-mentioned methods, but the power of the blower and the watering device to prevent the soil from drying out are required. Therefore, it requires a large site and is not suitable for the odor generated in the general factory. This is a problem.

The present invention was devised to solve the problems according to the odor deodorizing method described above, by using the natural neutralizing deodorant (ONA-99) as a deodorant to be sprayed in the atomized state with water to react the odor deodorizing effect The purpose of the present invention is to provide a scrubber type dry spray deodorization apparatus using a natural neutralizing deodorant which not only increases the amount of water but also minimizes the treated water to prevent pollution due to secondary pollution.

1 is a view showing a scrubber-type dry spray deodorizer using a natural neutralizing deodorant according to the present invention

Figure 2 is a plan view showing a scrubber type dry spray deodorizer using a natural neutralizing deodorant according to the present invention

Figure 3 is a front view showing a liquid mixing apparatus provided in the present invention

* Description of the symbols for the main parts of the drawings *

100: dry spray deodorizer 105: first reactor

105a: suction port 105b, 110a: confirmation port

110: second reactor 115: injection nozzle

120: reactor 125: neutralizer feeder

130: compressed air supply device 135: control device

140: fan 145: hood

145a: outlet 150: first net

155: second net 160: first distribution connector

165: second distribution connector 170: filter

175: storage tank 180: liquid mixing

185: neutralizer storage tank 190: pressure pump

195: neutralizer induction pipe 200: compressor

205: air filter 210: air regulator

215: compressed air induction pipe 220: storage case

225: solenoid valve 230,235: solenoid valve

In order to achieve the above object, the present invention is composed of a plurality of reactors laminated in multiple stages so as to be adjusted according to the inflow of odor gas in the deodorization by injecting a natural neutralizing deodorant, injection into each reactor The nozzle is installed, but the inlet is formed at the bottom of the reactor so that the odor gas can be introduced into the inside when the fan is driven, and the top of the reactor is connected to the hood portion formed with an outlet for discharging the air deodorized. A reactor; A neutralizing agent supplying device for supplying a neutralizing deodorant and a neutralizing agent diluted with water to the injection nozzle of the reactor; A compressed air supply device for supplying compressed air so that the neutralizing agent is sprayed in an atomized state during the injection of the neutralizing agent from the supply device; And a control device for automatically controlling the neutralizer supply device and the compressed air supply device.

In addition, at the upper end of each reactor of the reactor, a net of stainless steel is installed to re-react the neutralizer and odor gas injected through the injection nozzle, respectively, and the odor gas flowing into the reactor forming the bottom of the reactor is neutralizer and In order to increase the reaction effect of the turbulence such as vortex was formed.

In addition, the neutralizer supply device is a filter for filtering the water flowing from the pipe connected to the faucet, a storage tank for storing the natural neutralizing deodorant, and the clean water flowing out through the filter and at the same time by the water pressure thereof The liquid neutralizer deodorizing agent stored in the storage tank by the action of the piston installed in the inside of the liquid fertilizer mixing unit equipped with a control unit for adjusting the mixing ratio of the clean water and the natural neutralizing deodorant, and mixed through the liquid fertilizer A neutralizing agent storage tank for storing the neutralizing agent, a pressurizing pump for pumping the neutralizing agent from the neutralizing agent storage tank to an injection nozzle installed inside each reactor of the reactor, a neutralizing agent inducing pipe for inducing the neutralizing agent from the pressurizing pump to the injection nozzle; It consists of distribution connectors connected to it.

In addition, the compressed air supply device is a compressor for introducing and compressing the outside air, an air filter for filtering the compressed air from the compressor, a regulator for controlling the amount of clean air flowing out of the air filter, and from the discharge port of the regulator Compressed air induction pipe for guiding the discharged air to the injection nozzles respectively installed inside the reactor of the reactor, and a distribution connector connected thereto, the compressed air induced by the compressor on the compressed air induction pipe on / off On the compressed air induction pipe adjacent to each reactor side, a solenoid valve for controlling the compressed air is provided to completely discharge the neutralizing agent remaining on the injection nozzle side when the pressure pump is stopped.

In addition, the control device automatically controls the solenoid valve and the solenoid valve installed on the compressed air induction pipe, and the pressure pump for pumping the neutralizer by automatic operation, the injection nozzle installed inside the reactor of the reactor is connected through the distribution connector Connected to the neutralizer induction pipe and compressed air induction pipe.

In addition, each reactor of the reactor is formed with a confirmation port so as to check the inside corresponding to the installation position of the injection nozzle, the filter, the liquid mixing device and the motor constituting the neutralizer supply device inflow of impurities therein It is built in the storage case formed with an opening and closing door on one side to prevent.

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

1 is a view showing a scrubber-type dry spray deodorizer using a natural neutralizing deodorant according to the present invention, Figure 2 is a plan view showing a scrubber-type dry spray deodorizer using a natural neutralizing deodorant according to the present invention, 3 is a front view showing a liquid mixing apparatus provided in the present invention.

The present invention is a deodorizing device for deodorizing malodorous gas by injecting a natural neutralizing deodorant, dry spray deodorizer 100 as shown in Figures 1 and 2, the first and second reactors are installed detachably connected in a cylindrical shape It is composed of (105, 110), the inner side of the reaction apparatus 120, the injection nozzle 115 is installed, respectively, and the neutralization to the injection nozzle 115 side installed inside the first and second reactors 105, 110 of the reaction apparatus 120 The neutralizing agent supply device 125 for neutralizing and supplying the deodorizing agent (B), and the neutralizing agent (C) supplied from the neutralizing agent supplying device (125) are injected inside the first and second reactors (105, 110) through the injection nozzle (115). The compressed air supply device 130 for supplying the compressed air so that the neutralizing agent (C) is sprayed in the atomized state, and the control device 135 for automatically or manually controlling the supply of the compressed air and the neutralizing agent (C). It is.

In more detail, first, the reaction apparatus 120 installs an intake port 105a at the lower end side of the first reactor 105 forming the lowermost portion, but odor gas is formed in the outside when the fan 140 is driven. In the upper portion of the second reactor 100, which is stacked on top of the first reactor 105, the odor gas introduced to the first reactor 105 is purged and then discharged to the outside 145a. Hooded portion 145 is formed is connected to, and the inner lower portion of the first reactor 105, the neutralizing agent (C) supplied from the neutralizing agent supply unit 125 and the compressed air supply unit 130 A spray nozzle 115 for injecting compressed air is installed to spray upwards, and the neutralizing agent C injected from the spray nozzle 115 and the odor gas are first reacted with each other on the upper side of the spray nozzle 115. Net 150 is installed, and also the second The upper side of the condenser 110, the neutralizing agent (C) and the compressed air supplied from the neutralizing agent supply device 125 to the upper side to completely purify the undetermined malodorous gas in the first reactor (105) The injection nozzle 115 for injecting compressed air compressed from the apparatus 130 is installed to be injected downward, and the second mesh net 155 is also installed on the upper side of the second reactor 110.

In addition, the identification spheres 105b and 110a are formed at the outer circumferential surfaces of the first and second reactors 105 and 110, that is, at the positions of the injection nozzles 115 respectively installed therein so as to check the interior thereof.

In this case, the reaction apparatus 120 illustrated in FIG. 1 is installed in two stages as the first and second reactors 105 and 110, but is not limited thereto and may be installed in a variable manner according to the inflow amount of odor gas.

In addition, the malodorous gas flowing into the inlet port 105a formed at the lower end of the first reactor 105 is mixed with the neutralizing agent C, which forms a vortex in the first reactor 105 and is injected through the injection nozzle 115. The suction port 105a may be positioned to be inclined to the inner wall surface so as to be made more quickly, or a partition wall (not shown) for vortex formation may be provided on the inner circumferential wall surface of the first reactor 105.

Meanwhile, the first and second distribution connectors 160 and 165 are formed on the outer circumferential surfaces of the first and second reactors 105 and 110, respectively, and the neutralizing agent C and the first and second distribution connectors 160 and 165 are directed to the injection nozzle 115. Each pipe of the neutralizer supply device 125 and the compressed air supply device 130 for providing compressed air is connected.

That is, the neutralizing agent supply device 125 for supplying the neutralizing agent (C) by neutralizing the clean water filtered by filtering the natural neutralizing deodorant (B) and the general tap water toward the injection nozzle 115 is connected to a tap (not shown). A filter 170 for filtering the water flowing from (A) is provided, and a storage tank 175 for storing the natural neutralizing deodorant (B) is provided, and the clean water flowing out through the filter 170 is introduced. At the same time, the liquid fertilizer 180 is provided to suck the natural neutralizing deodorant B stored in the storage tank 175 into the inside by the action of a piston (not shown) installed therein by the hydraulic pressure thereof. The neutralizer storage tank 185 is provided to store the neutralizing agent (C) mixed at an appropriate ratio through the mixer 180, and the first and second reactors 105 and 110 of the reactor 120 are disposed from the neutralizing agent storage tank 185. Neutralizing agent (C) toward the injection nozzle 115 installed inside ) Is provided with a pumping pump 190 for pumping. At this time, the neutralizing agent induction pipe 195 for guiding the neutralizing agent (C) from the outlet side of the pressure pump (190) to the injection nozzle (115) is branched in the middle to the outer peripheral surfaces of the first and second reactors (105, 110), respectively. It is connected to the first and second distribution connector (160,165) installed.

One end of the liquid mixing apparatus 180 is provided with an adjusting unit 180a for controlling the mixing of the natural neutralizing deodorant (B) and the purified water filtered through the filter 170.

On the other hand, the neutralizing agent supply device 125 is installed in the storage case 220, the opening and closing door 220a is formed on the front to prevent the inflow of foreign matter into the inside.

At this time, the neutralizing agent (C) is supplied to the injection nozzle 115 by supplying the compressed air when the neutralizing agent (C) is pumped to the injection nozzle 115 by the pressure pump (190) by the neutralizing agent supply device (125) Compressed air supply device 130 is provided to be sprayed in the atomized state is provided with a compressor 200 for introducing and compressing the outside air, the air filter 205 for filtering the compressed air from the compressor 200 is provided with a connection device And an air regulator 210 for adjusting the amount of clean air flowing out of the air filter 205, and the air discharged from the discharge port of the air regulator 210 is first and second of the reaction apparatus 120. The compressed air induction pipe 215 leading to the injection nozzles 115 installed inside the reactors 105 and 110, respectively, is branched and connected to the first and second distribution connectors 160 and 165, respectively.

In addition, a solenoid valve 225 for turning on / off the compressed air compressed by the compressor 200 is installed at a portion proximate to the air regulator 210 on the compressed air induction pipe 215. Near the first and second distribution connectors 160 and 165 of the reactors 105 and 110, the neutralizing agent C remaining inside the injection nozzle 115 is completely removed when the pressure pump 190 of the neutralizing agent C is stopped. Solenoid valves 230 and 235 which control the compressed air to be injected into the first and second reactors 105 and 110 are respectively installed.

The injection nozzle 115 installed inside the first and second reactors 105 and 110 of the reactor 120 is connected to the compressed air induction pipe 215 through the first and second distribution connectors 160 and 165 as shown in FIG. 1. And fixed to each end of the neutralizing agent induction pipe (195).

The device made in this way is controlled automatically or manually and is controlled by the control device 135.

That is, the control device 135 is provided with a plurality of operation buttons (135a), by the operation of the pressure pump 190 and the compressed air induction pipe of the compressed air supply device 130 for pumping the neutralizing agent (C) The solenoid valve 235 and the solenoid valve 225 installed on the 215 are controlled.

On the other hand, the temporal control sequence of the control device 135 controls the pressure pump 190 for feeding the neutralizing agent (C) to the injection nozzle 115 side, and after a certain time, the solenoid valve 235 is controlled. This makes it possible to completely inject the neutralizing agent (C) remaining in the injection nozzle 115 as described above.

The operation sequence of the scrubber-type dry spray deodorizer using the natural neutralizing deodorant made in this way is to turn on the power lever among the operation levers 135a installed in the control unit 135, and at the same time, the reaction apparatus 120 The fan 140 is driven toward the first reactor 105 side of the tank, and the odor gas is sucked into the first reactor 105 while forming a vortex by hitting the wall surface of the inlet port 105a of the first reactor 105, and The solenoid valve 225 installed on the compressed air induction pipe 215 of the compressed air supply device 130 is driven by the pressure pump 190 of the finalizing agent pressure feeding device 125 for pumping the neutralizing agent C, and Solenoid valves 230 and 235 are opened. Of course, at this time, when the tap water passes through the filter 170 through the pipe A connected to the faucet by the driving of the pressure pump 190, the purified water is purified to become clean water, and the purified water flows into the liquid mixing device 180. The liquid mixing unit 180 inhales the natural neutralizing deodorant (B) stored in the storage tank 175 according to the action of a piston (not shown) provided therein due to the inflow of water having a certain amount of water pressure and mixed with water. To neutralize. In this case, the neutralization ratio of the neutralizing agent (C) may be adjusted through the controller 180a of the liquid fertilizer mixing unit 180, and the neutralizing agent (C) thus neutralized is stored in the neutralizing agent storage tank 185. The neutralizing agent (C) stored in the neutralizing agent storage tank (185) is made of the reactor 120 through the neutralizing agent induction pipe (195) connected to the first and second distribution connectors (160,165) by the driving of the pressure pump (190). It is pumped to the injection nozzle 115 provided inside the 1, 2 reactors 105 and 110. The solenoid valve 225 and the solenoid valves 230 and 235 installed on the compressed air induction pipe 215 of the compressed air supply device 130 are opened due to the control device 135 being turned on, thereby compressing the compressor 135 from the compressor 200. The air passes through the air filter 205 and is converted into clean air, which is again adjusted to an appropriate amount by the controller 210, whereby the compressed air controlled by the appropriate amount of compressed air is first and second distribution connectors 160 and 165. Inlet pressure is supplied to the injection nozzle 115 through the compressed air induction pipe 215 connected to the.

As such, the neutralizing agent (C) is injected into the atomization state in the first reactor (105) through each injection nozzle (115) to neutralize the odor gas while reacting with the odor gas through the injection of compressed air. The neutralization reaction is also continued by the first mesh net 150 made of stainless steel provided between the first and second reaction ports 105 and 110.

In this process, the odor gas which is not neutralized is neutralized again by the neutralizing agent (C) being injected through the injection nozzle 115 installed in the second reactor 110 to be purified cleanly through the outlet 145a of the hood part 145. Air is discharged to the outside.

At this time, the neutralizing agent (C) injected through the injection nozzle 115 is not only sprayed with the water in the atomized state, but also the moisture by the first and second mesh nets (150,155) installed in the first and second reactors (105,110). As it is collected, secondary pollution caused by the treated water is prevented.

As a result of the performance test by the sample gas using the scrubber type dry spray deodorizing device according to the present invention, the deodorizing effect was as follows.

Experiment 1 Experiment on Deodorization Performance of Ammonia

The analysis of the ammonia gas was carried out using a detector tube method.

As shown in the table below, the neutralization ratio of the natural neutralizing deodorant was changed to 0.1%, 0.3%, 0.6%, 1.0%, 2.0%, 3.0%, and 4.0%, respectively. As a result, good deodorization efficiency of 79.5% to 97.0% was obtained according to the neutralization ratio of the neutralizing deodorant. At this time, the injected air amount was fixed at 60 L / min, the neutralizer inflow flow rate 60 cc / min, the initial concentration of ammonia 300 ppm, and the rotation speed of the fan at 60 Hz.

As a result of examining the deodorization efficiency of the ammonia according to the initial concentration of the ammonia, when the initial concentration was changed to 80ppm, 270ppm, 1100ppm, 2300ppm, respectively, the deodorization efficiency was obtained at 95.8% and 97.5%. At this time, the values of the other operating factors were fixed at 4.0% of neutralizer, injected air volume of 60ℓ / min, neutralizer inflow flow rate of 60cc / min, and fan rotation speed of 60Hz.

Dilution Ratio (%) 0.1 0.3 0.6 1.0 2.0 3.0 4.0 Deodorization efficiency (%) 79.5 85.0 91.5 92.5 94.2 94.5 97.0

Initial concentration of ammonia (ppm) 80 270 1100 2300 Deodorization efficiency (%) 97.5 97.0 96.4 95.8

Experiment 2 Experiment of Deodorization Performance of Hydrogen Sulfide

Along with the ammonia described above, a deodorization efficiency test of hydrogen sulfide, which is a representative odor causing material, was performed. The experimental method used the same method and conditions as the deodorization experiment of ammonia described above, and the detection tube method was used to analyze the odor concentration of hydrogen sulfide.

The deodorization efficiency of the present invention according to the initial concentration of hydrogen sulfide was changed to 1.0ppm, 5.0ppm, 20.0ppm and 50.0ppm as shown in the table below, and the deodorization efficiency at this time was investigated. Very good deodorization efficiency of over% was shown.

The deodorizing efficiency of changing the neutralizer to 0.1%, 0.6%, 1.0%, and 4.0% by selecting the ratio of natural neutralizing deodorant as the operating variable, respectively, is 1.0% and 4.0% of the natural deodorizing agent ratio of less than 1.0%. The neutralizing ratio of the neutralizing deodorant shows high deodorizing effect.

Dilution ratio)%) 0.1 0.6 1.0 4.0 Deodorization efficiency (%) 80.0 88.1 95.2 97.5 Initial hydrogen sulfide concentration (ppm) One 5 20 50 Deodorization efficiency (%) 97.5 97.1 97.6 97.5

Experiment 3 Experiment of Deodorization Performance of Phenol

Deodorization performance of phenol was prepared using the aqueous phenol solution to the desired initial concentration, and the detection tube method was used for the analysis of the odor concentration. Phenol deodorization performance experiments were performed for the initial concentration and neutralization ratio of natural neutralizing deodorant. As shown in the table below, the initial concentration of phenol was changed to 5.0ppm, 10.0ppm, 20.0ppm and 50.0ppm in order to examine the deodorization pattern according to the initial concentration of phenol. Regardless of the concentration, it shows similar deodorizing effect of 91.5 ~ 93.0%.

As a result of investigating and analyzing the deodorization efficiency by changing the neutralization ratio of natural neutralizing deodorant to 0.1%, 0.6%, 1.0%, and 4.0%, the deodorization efficiency was less than 84% at the neutralization ratio of less than 1.0%. As the neutralization ratio is more than 1.0%, the value is high, such as 90.2%.

Dilution Ratio (%) 0.1 0.6 1.0 4.0 Deodorization efficiency (%) 73.2 84.3 90.2 97.5 Initial Phenol Concentration (ppm) 5 10 20 50 Deodorization efficiency (%) 91.5 92.5 92.5 93.0

As described above, by neutralizing the natural neutralizing deodorant, the deodorizing effect of the malodorous gas can be enhanced by using the spray deodorizing device, and the moisture of the neutralizing agent is hardly generated, thereby preventing secondary pollution. Depending on the amount can be installed to be added to the reaction device correspondingly, and the amount of neutralizing agent can be easily controlled by the controller of the liquid mixing apparatus to control the deodorizing amount of odor gas.

As described above, the reaction apparatus of the dry spray deodorizing apparatus of the present invention is configured to be variably installed in response to the amount of malodorous gas, and correspondingly, the neutralizing agent can be easily adjusted by adjusting the air regulator of the liquid agitator. Since the mixing amount can be adjusted, it can not only cope with the amount of malodorous gas generated, but also by spraying the neutralizing agent used to deodorize the malodorous gas with a minimum amount of water in a state of atomization. Not only that, there is an effect that can effectively deodorize the neutralizing agent and odor gas through a multi-step reaction.

Claims (4)

In the scrubber type spray deodorizer which deodorizes odor by diluting a natural neutralizing deodorant, Injecting nozzles and a net are respectively installed in a plurality of reactors stacked in multiple stages to correspond to the inflow of odor gas, and a lower inlet reactor is formed with an inlet for introducing odor gas. A reaction apparatus formed by forming a hood portion in which an air outlet port is formed; A neutralizing agent supplying device for supplying a neutralizing agent diluted with water to a spray nozzle installed inside the reactors of the reactor; A compressed air supply device for supplying compressed air such that the neutralizing agent is dispensed in an atomized state during the injection of the neutralizing agent from the neutralizing agent supply device; And a control device for automatically controlling the neutralizer supply device and the compressed air supply device. The method of claim 1, The suction port formed in the reactor forming the lowermost part of the reactor is positioned to be inclined with the inner wall surface of the reactor so that the odor gas flows to form a vortex, or to install a vortex forming partition wall on the inner circumferential wall Scrubber type dry spray deodorizer. The method of claim 1, The neutralizer supply device is a filter for filtering the water flowing from the pipe connected to the faucet, a storage tank for storing the natural neutralizing deodorant, and the clean water flowing out through the filter and at the same time installed therein by the water pressure thereof The action of the piston sucks the natural neutralizing deodorant stored in the storage tank to the inside thereof, and at one end thereof, a liquid mixing mixer equipped with a control unit for adjusting the mixing ratio of the cleansing agent and the natural neutralizing deodorizing agent, and the neutralizing agent mixed through the liquid mixing mixer. A neutralizing agent storage tank for storing, a pumping pump for pumping the neutralizing agent from the neutralizing agent storage tank to an injection nozzle installed inside each reactor of the reactor, a neutralizing agent inducing pipe for inducing a neutralizing agent from the pumping pump to the injection nozzle, and connected thereto Natural weight, characterized in that it comprises a distribution connector Scrubber dry spraying deodorizing device using the deodorant. The method of claim 1, The compressed air supply device includes a compressor for introducing and compressing outside air, an air filter for filtering the compressed air from the compressor, a regulator for controlling the amount of clean air flowing out of the air filter, and a discharge from the discharge port of the regulator. A compressed air induction pipe and a distribution connector connected thereto are installed to guide the air to the injection nozzles respectively installed inside the reactor of the reactor. On the compressed air induction pipe, an solenoid valve for turning on / off the compressed air compressed by the compressor is installed. And a solenoid valve for controlling the compressed air so as to completely inject the neutralizing agent remaining on the injection nozzle side when the pump is stopped on the compressed air induction pipe adjacent to each reactor side. Scrubber type dry spray deodorizer using natural neutralizing deodorant.