KR200449319Y1 - device for deodorizing a liquid manure storage tank - Google Patents

Abstract

The present invention relates to a new type liquid fermentation tank deodorizing device to facilitate the treatment of odorous substances generated in the liquid fertilizer reservoir, to reduce the pressure loss and to improve the treatment efficiency of the odor.

To this end, the present invention guides the flow of the harmful gas introduced from the liquid storage tank, the gas inlet end of the harmful gas is introduced into the both ends and the gas discharged gas discharged in the state where the harmful components are removed from the harmful gas Gas flow ducts each provided with a stage; A blowing fan installed at a gas inlet end or a gas outlet end of the gas flow duct and forcibly blowing the noxious gas through the gas flow duct; An ion exchange filter unit installed on an inner space of the gas flow duct and removing odor components in the harmful gas passing through the gas flow duct; A chemical storage tank formed by expanding a portion in which the ion exchange filter unit is installed in the gas flow duct, and storing a regeneration solution for regeneration of the ion exchange filter unit; And, the pumping unit for pumping the regeneration solution stored in the chemical storage tank and sprayed to the ion exchange filter unit: a liquid rain storage tank deodorizing device is provided, characterized in that it comprises a.

Gas flow duct, ion exchange fiber, demister, eliminator, regeneration solution

Description

Device for deodorizing a liquid manure storage tank

The present invention relates to a deodorizing device for liquid fertilizer treatment, more specifically, to facilitate the treatment of odorous substances generated in the liquid fertilizer reservoir, to reduce the pressure loss and to improve the treatment efficiency of the odor. It relates to a new type liquid storage tank deodorizer.

In general, the liquid fertilizer storage tank deodorizer means a device for treating various malodorous substances generated from the liquid fertilizer storage in which livestock manure is stored to be discharged to the atmosphere after the deodorizing treatment and removal of contaminants.

Deodorization method using the deodorizing device as described above can be largely divided into chemical cleaning and biological deodorization method.

At this time, the chemical cleaning method is a method of deodorizing using a chemical agent, biological deodorization method is a method of deodorizing using a microorganism.

However, the chemical liquid cleaning method has a disadvantage in that the pressure loss is large because the deodorizing material to be treated is a mixed gas and two packings are installed in the tower and the packing is installed inside the tower to deodorize by the gas-liquid separation method. The power of the blower is bound to be large, and the processing efficiency is low, but the amount of chemicals has a disadvantage.

In addition, the biological deodorization method has a disadvantage that the power of the blower is inevitably increased due to the large resistance of the filler, the disadvantage of using a large area of the site, and the ability to respond to seasonal changes because the microorganisms are sensitive to temperature changes. .

The present invention is devised to solve the various problems according to the prior art described above, the object of the present invention is to facilitate the treatment of odorous substances generated in the liquid fertilizer reservoir, and to reduce the pressure loss and In addition, to provide a new type liquid storage tank deodorizing device to improve the treatment efficiency of odor.

According to the liquid fermentation tank deodorizing device of the present invention for achieving the above object is formed in the form of a closed tube and the outer space to guide the flow for harmful gas introduced from the liquid fertilization tank, the gas into which the harmful gas flows into both ends A gas flow duct having an inlet end and a gas discharge end through which gas in a state in which harmful components are removed from the harmful gas are discharged; A blowing fan installed at a gas inlet end or a gas outlet end of the gas flow duct and forcibly blowing the noxious gas through the gas flow duct; An ion exchange filter unit installed on an inner space of the gas flow duct and removing odor components in the harmful gas passing through the gas flow duct; A chemical storage tank formed by expanding a portion in which the ion exchange filter unit is installed in the gas flow duct, and storing a regeneration solution for regeneration of the ion exchange filter unit; And, the pumping unit for pumping the regeneration solution stored in the chemical storage tank to the ion exchange filter unit: characterized in that it comprises a.

Here, the ion exchange filter unit is installed in a state standing up in the same direction as the gas flow direction of the gas flow duct, a plurality of vertical plates spaced apart from each other so that harmful gases pass through the space between each other, and each number It is characterized by consisting of ion exchange fibers surrounding the outer surface of the direct plate.

In addition, various foam components, water vapor components, dust, and the like in the harmful gas passing through the gas flow duct while being installed to intersect the portion while being located at the gas inlet side portion of the ion exchange filter unit in the inner space of the gas flow duct. It is characterized by being configured to further include a demister to filter foreign matter.

In addition, a water injection nozzle for injecting water toward the demister is further provided on the gas inflow side space of the demister in the inner space of the gas flow duct, and the demister is installed in each part of the gas flow duct. The bottom surface of the portion is characterized in that it is further provided with a foreign material discharge pipe for discharging the water flowing through the water injection nozzle.

In addition, it is installed so as to intersect the site in a state located between the demister and the ion exchange filter in the inner space of the gas flow duct to filter out residual moisture in the harmful gas passing through the gas flow duct The emitter is further characterized by being configured to include.

As described above, the deodorizing device for the liquid fertilizer storage tank of the present invention can simplify the overall configuration has an effect that can be installed in a narrow place.

In particular, the deodorizing device for liquid fertilizer storage tank of the present invention is configured to remove particulate matter such as dust contained in the harmful gas before supplying the harmful gas to the ion exchange filter unit to extend the regeneration cycle of the ion exchange fiber. In addition to this, it is possible to extend the life of the ion exchange fibers, and also to significantly reduce the amount of caustic soda or sulfuric acid, which is a regeneration solution, thereby increasing processing efficiency and reducing operating costs. Has an effect.

Hereinafter, with reference to Figures 1 to 4 attached to the preferred embodiment of the liquid-liquid storage tank deodorizing device of the present invention.

1 is a liquid storage tank deodorizing apparatus according to a preferred embodiment of the present invention as shown in Figure 1 largely the gas flow duct 100, the blowing fan 200, the ion exchange filter unit 300, the chemical liquid storage tank 400 And pumping unit 500.

This will be described in more detail for each component as follows.

First, the gas flow duct 100 is a series of configurations for guiding the flow of the harmful gas introduced from the liquid rain storage tank 10, and is formed in a closed tube shape with the external space.

At this time, the gas inlet 110 and the gas discharge end 120 through which the harmful gas is introduced to both ends of the gas flow duct 100 is provided, respectively.

Next, the blowing fan 200 is a series of configurations for forcibly blowing the harmful gas in the liquid storage tank 10 to pass through the gas flow duct 100, the gas discharge end of the gas flow duct (100) 120).

Of course, the blowing fan 200 may be installed in the gas inlet 110 of the gas flow duct 100, in this case by the various harmful components of the harmful gas to pass through the blowing fan 200 Problems such as a failure of the fan motor of the blower fan 200 and the accumulation of various foreign matters may occur, so it is most preferable to install the gas outlet 120 as shown in the embodiment.

Next, the ion exchange filter unit 300 is a series of components for removing odor components in the noxious gas passing through the gas flow duct 100, and is installed on the inner space of the gas flow duct 100. .

The ion exchange filter unit 300 is composed of a plurality of vertical plates 310 and ion exchange fibers 320 surrounding the outer surface of each vertical plate 310 as shown in FIG.

At this time, the vertical plates 310 are arranged to be spaced apart from each other in a direction perpendicular to the gas flow direction of the gas flow duct 100 is configured to pass the odor gas through the space between each other.

In addition, the ion exchange fiber 320 refers to a fiber processed by polymerizing an ion exchange group on a nonwoven fabric to enable chemical bonding as well as a physical component consisting of acidic or alkaline components and ion exchange, and cationic according to the type of odor gas It is formed of exchange fiber or anion exchange fiber. That is, cation exchange fiber is used to remove alkaline gas such as ammonia, and anion exchange fiber is used to remove acidic gas such as hydrogen sulfide or methyl mercaptan.

Next, the chemical storage tank 400 is a space in which a regeneration solution for regeneration of the ion exchange fibers 320 constituting the ion exchange filter unit 300 is stored, and the ion exchange of the gas flow duct 100 is performed. The filter unit 300 is formed by expanding the upper and lower ends of the site.

At this time, the regeneration solution stored in the chemical storage tank 400, for example, when the ion exchange fiber 320 of the ion exchange filter unit 300 is a cation exchange fiber is preferably composed of 3 to 4% sulfuric acid, When the ion exchange fiber 320 of the ion exchange filter unit 300 is an anion exchange fiber, NaOH or Na ₂ CO ₃ is preferably used.

Next, the pumping unit 500 is a series of components for pumping the regeneration solution stored in the chemical storage tank 400 to the ion exchange filter unit 300.

In the embodiment of the present invention, the pumping unit 500 is a pump 510 for forcibly pumping the regeneration solution stored in the chemical storage tank 300, and the regeneration solution pumped by the pump 510 is an ion exchange filter It is shown that the configuration includes a spray nozzle 520 for spraying to the portion (300).

At this time, the pump 510 is configured to pump the regeneration solution from the space in a state connected to the lower space of the respective portions of the chemical storage tank 300, the injection nozzle 520 is the ion exchange filter unit ( Installed along the upper portion of the 300 is configured to spray the pumped regeneration solution to the top of the ion exchange filter unit 300.

On the other hand, the liquid fertilizer storage tank deodorizer according to the embodiment of the present invention described above may be deteriorated performance of the ion exchange filter unit 300 for a long time due to foreign matter, such as dust flowing from the liquid fertilizer storage tank 10, or water. I have a problem.

That is, by long time use, the particulate matter such as fine dust or the like adheres to the ion exchange fibers 320 of the ion exchange filter unit 300 and adheres to each other, thereby significantly reducing the regeneration ability of the ion exchange fibers 320. have.

Accordingly, an embodiment of the present invention suggests that a demister filter 600 is additionally provided at the gas inlet side of the ion exchange filter unit 300 in the inner space of the gas flow duct 100. .

At this time, the demister 600 is installed to block the gas flow space for the gas flow duct 100 of the corresponding portion, particulate matter such as dust in the harmful gas passing through the gas flow duct 100 and foam and water-soluble It will filter out malodorous substances (eg ammonia).

That is, various foreign substances and bubbles and water-soluble odor-causing substances flowing through the gas flow duct 100 can be first filtered by the demister 600 before being provided to the ion exchange filter unit 300. The life of the filter unit 300 is to be extended.

In particular, the embodiment of the present invention suggests that the demister 600 is composed of a mesh formed of polyethylene (Poly Ethylene) material as shown in FIG. Of course, the demister 600 may be formed of a net of a conventional stainless steel material.

In addition, a water injection nozzle 610 for injecting water toward the demister 600 is further provided on the gas inflow side space of the demister 600 in the inner space of the gas flow duct 100. The lower surface of each portion of the gas flow duct 100, the portion of the demister 600 is installed is further provided with a foreign material discharge pipe 130 for discharging the water and foreign matter sprayed through the water injection nozzle 610 do.

That is, the cleaning of the demister 600 is continuously carried out by spraying water to the demister 600 using the water injection nozzle 610, and in particular, water-soluble odor-causing substances such as ammonia It is easy to remove.

In addition, in the embodiment of the present invention, the elih is installed so as to intercept the portion in the state of being located in the portion between the demister 600 and the ion exchange filter unit 300 of the inner space of the gas flow duct (100) It further suggests that the eliminator 700 is further included and configured.

In this case, the eliminator 700 serves to filter out residual moisture in the noxious gas passing through the demister 600 and passing through the gas flow duct 100 to the ion exchange filter unit 300. It is a series of configurations to prevent moisture inflow as much as possible.

That is, when water is introduced into the ion exchange filter unit 300, the water inflow into the ion exchange filter unit 300 is considered when additional regeneration solution needs to be supplemented as the concentration of the regeneration solution is lowered by the above water. By minimizing the amount of the regeneration solution is to be reduced as much as possible.

At this time, the eliminator 700 is installed to cross the edge 710 and the edge 710 forming a circumferential portion as shown in Figure 4 attached to the inclined downward (or, upward) toward the gas outlet side It is configured to include a plurality of inclined ribs 720 formed. In particular, the surface of the inclined rib 720 is formed to be uneven, so that it is more preferable to smoothly remove moisture from the harmful gas passing between each inclined rib 720.

In addition, a water discharge pipe 140 for discharging the water filtered by the eliminator 700 is further formed on the bottom of the portion of the gas flow duct 100 where the eliminator 700 is installed. It is provided.

In the following, it will be described in detail the odor gas deodorization process of the liquid fertilizer storage deodorizer according to the preferred embodiment of the present invention described above.

First, when driving of the blowing fan 200 for the deodorizing operation in the liquid storage tank 10, the harmful gas in the liquid rain storage tank 10 is the gas flow through the gas inlet end 110 forming a gas flow duct 100 Flows into the duct 100.

Here, the harmful gas introduced into the gas flow duct 100 through the gas inlet 110 includes bubbles generated in the liquid fermentation tank 10 and particulate matter such as steam and dust generated during the fermentation process.

Accordingly, the harmful gas introduced into the gas flow duct 100 passes through the demister 600 disposed on the gas inlet side of the gas flow duct 100. Particulate matter and foams and water-soluble malodorous substances (eg, ammonia) are primarily filtered out.

In this case, water is injected into the surface of the demister 600 through the water injection nozzle 610, and thus is present on the surface of the demister 600 in a filtered state by the demister 600. Foreign matters such as dust and water-soluble odor-causing substances are washed out in the sprayed water and discharged to the outside through the foreign matter discharge pipe 130 formed at the site where the corresponding demister 600 is installed.

In addition, the harmful gas in which particulate matter such as dust and the like and the water-soluble odor-causing substance are first filtered through the above-described process is provided on the air outlet side of the demister 600 in the gas flow duct 100. Pass).

At this time, the harmful gas is removed from the residual water in the process of passing through the eliminator 700.

That is, the residual moisture contained in the noxious gas collides with the surface of the inclined rib 720 in an inclined state while passing between the inclined ribs 720 constituting the eliminator 700. Due to such a collision, the residual moisture contained in the noxious gas flows down the surface of the inclined rib 720 and is separated from the noxious gas. At this time, the residual moisture separated from the harmful gas is discharged to the outside through the water discharge pipe 140 formed in the site where the eliminator 700 is installed.

As described above, the noxious gas from which residual moisture is removed while passing through the eliminator 700 passes through the ion exchange filter unit 300, and various harmful components in the noxious gas are removed in the process.

That is, the harmful gas is removed while harmful components are adsorbed to each of the ion exchange fibers 320 in the process of passing through the space between the ion exchange fibers 320 constituting the ion exchange filter unit 300.

At this time, each ion exchange fiber 320 constituting the ion exchange filter unit 300 is saturated because its adsorption capacity is limited. Accordingly, the ion exchange filter unit 300 needs to regenerate the ion exchange fiber 320 through a periodic supply of regeneration solution, and this regeneration operation is driven by the pump 510 constituting the pumping unit 500. The pumping of the regeneration solution and the pumped regeneration solution is carried out by spraying the ion exchange filter unit 300 through each injection nozzle (520).

As a result, the harmful gas that has passed through the ion exchange filter unit 300 described above is in a pure gas state because various harmful components such as odors have been removed, and is subsequently blown by the blower fan 200. It is discharged to the atmosphere through the gas discharge end 120 of the gas flow duct (100).

1 is a schematic configuration diagram showing the structure of the deodorizing device for liquid fertilizer storage tank according to an embodiment of the present invention

Figure 2 is a schematic perspective view showing the structure of the ion exchange filter portion of the deodorizing device for liquid fertilization tank according to a preferred embodiment of the present invention

Figure 3 is a cross-sectional view for explaining the structure of the demister of the deodorizing device for liquid fertilizer storage tank according to an embodiment of the present invention

Figure 4 is a cross-sectional view for explaining the structure of the eliminator of the deodorizing device for the liquid fertilizer storage tank according to an embodiment of the present invention

Explanation of symbols for main parts of the drawings

100. Gas flow duct 110. Gas inlet

120. Gas discharge stage 130. Foreign substance discharge pipe

140. Water discharge pipe 200. Blower fan

300. Ion exchange filter unit 310. Vertical plate

320. Ion-Exchange Fibers 400. Chemical Storage Tanks

500. Pumping part 510. Pump

520. Spray nozzle 600. Demister

610. Water Jet Nozzle 700. Eliminator

710. Rim edge 720. Slanted rib

Claims (5)

It is formed in the form of a closed tube and the outer space to guide the flow of harmful gas introduced from the liquid storage tank, the gas inlet and the gas in a state in which harmful components are removed from the harmful gas flows into both ends A gas flow duct each having a gas discharge stage discharged therefrom; A blowing fan installed at a gas inlet end or a gas outlet end of the gas flow duct and forcibly blowing the noxious gas through the gas flow duct; An ion exchange filter unit installed on an inner space of the gas flow duct and removing odor components in the harmful gas passing through the gas flow duct; A chemical storage tank formed by expanding a portion in which the ion exchange filter unit is installed in the gas flow duct, and storing a regeneration solution for regeneration of the ion exchange filter unit; A pumping unit pumping the regeneration solution stored in the chemical storage tank and spraying the ion exchange filter unit; Foreign matters such as various foam components, water vapor components and dust in the harmful gas passing through the gas flow duct while being installed to intersect the corresponding portion while being located at the gas inlet side of the ion exchange filter unit in the inner space of the gas flow duct. Demister for filtering; And, Eliminator for filtering the residual moisture in the harmful gas passing through the gas flow duct while being installed to block the portion in a state between the demister and the ion exchange filter unit in the inner space of the gas flow duct Liquid storage tank deodorizing device, characterized in that configured to include. The method of claim 1, The ion exchange filter unit A plurality of vertical plates spaced apart from each other such that harmful gases pass through the spaces therebetween while being installed in a state standing up in the same direction as the gas flow direction of the gas flow duct; Liquid fermentation tank deodorizing device, characterized in that composed of ion exchange fibers surrounding the outer surface of each vertical plate. delete The method according to claim 1 or 2, A water injection nozzle for spraying water toward the demister is further provided on the gas inflow side space of the demister in the inner space of the gas flow duct. Liquid debris storage tank deodorizing apparatus further comprises a foreign material discharge pipe for discharging the water flowing through the water injection nozzle in the bottom surface of the portion of the gas flow duct is installed the demister. delete

Images