KR101557111B1 - Multiple odor removal system through a bioreactor - Google Patents

Abstract

The present invention relates to a complex malodor removal system using a bioreactor for removing malodor generated during a treatment process in a waste water processing facility or various kinds of sludge processing facilities. More particularly, the present invention relates to a complex malodor removal system using a bioreactor, which can increase contact chance of malodor by efficiently linking and combining technologies of wet-type cleaning, microorganism contact, and plasma, can solve a secondary contamination problem by minimizing the use of chemical agents during the treatment process, can reduce maintenance costs, and has high efficiency of removing malodor. According to the present invention, the contact chance and staying time can be increased by efficiently linking and combining technologies of wet-type cleaning, microorganism contact, and plasma; the secondary contamination problem can be solved by minimizing the use of chemical agents during the treatment process; the maintenance costs can be reduced by improving a structure of a spraying nozzle; and the efficiency of removing malodor is high.

Description

(Multiple odor removal system through a bioreactor)

The present invention relates to a complex odor elimination system using a biological reactor to remove odors generated in a treatment process at a bottom / wastewater treatment plant or various sludge treatment facilities, and more particularly, to a system for efficiently removing wet odor from a wet clean, , It is possible to solve the secondary pollution problem by minimizing the use of chemicals in the treatment process as well as to increase the chance of contact with the odor, and it is possible to solve the complex odor removal system using the bioreactor .

In general, various technologies are used to treat odors emitted from livestock complexes, food processing plants, sewage / wastewater treatment plants, industrial complexes, and the like.

The most widely used malodor removal techniques currently include physical and chemical treatment methods, biological treatment methods, and water washing methods. Particularly, physical treatment methods include activated carbon adsorption methods, chemical treatment methods include chemical solution cleaning methods, biological treatment methods The soil deodorization method is used. Among these methods, the chemical liquid cleaning method and the activated carbon adsorption method are applied most frequently, but recently, attention is focused on a biological treatment method which is low in operation cost and easy to maintain.

On the other hand, Korean Patent Registration No. 10-1330321 proposes a three-stage horizontal odor and harmful gas removing device. With reference to this publication, the conventional vertical treatment apparatus is improved in the lateral direction to increase the contact area between the gas and the chemical solution, thereby improving the treatment efficiency. Even so, the residence time is so short that the treatment efficiency is not greatly improved, and even if the odor is transported horizontally, the contact area with the chemical solution is not greatly improved due to the short residence time.

In addition, Korean Patent Registration No. 10-1005636 proposes a complex odor removal system using plasma technology. With reference to this publication, an attempt is made to efficiently treat odors by removing odors by using plasma in water and injecting treated water at the same time. However, this also has a disadvantage that the contact area with the chemical solution is not improved due to the short residence time of the odor, and the maintenance cost is increased when the nozzle is clogged in the process water injection process.

SUMMARY OF THE INVENTION The present invention has been conceived in order to solve the above-mentioned problems, and it is an object of the present invention to provide a method and apparatus for efficiently cleaning and cleaning microorganisms by efficiently wetting and combining microbial contact and plasma technology, And it is intended to provide a complex odor removal system using a bioreactor having a high efficiency of removing odor while reducing the maintenance cost.

In order to achieve the above-mentioned object, the present invention provides a water jetting nozzle for discharging odorous gas in contact with water and discharging the water, wherein the water jetting nozzle is provided at an upper side thereof, Water) cleaning treatment tank; The malodor gas is supplied from the malodorous gas through the biological reaction, and the malodorous gas discharged from the malodorous gas is elevated while being bent without being raised vertically. A plurality of blocking plates for increasing the chance of contact with the microorganisms, and a microbial spraying nozzle for spraying the microbes on the blocking plate to improve the contact possibility of the microbes; A chemical liquid cleaning tank for receiving malodorous gas that has been biologically treated in the bioreactor and brought into contact with the malodor removing chemical, and a chemical spray nozzle for spraying the chemical on the upper side to spray the chemicals onto the rising odor; And a plasma reaction tank for receiving the malodorous gas treated in the chemical liquid cleaning treatment tank and generating a highly oxidative reaction through the plasma generator to remove the residue and discharge it to the outside.

Preferably, a packing layer for increasing the chance of contact between the malodorous gas and the water or the chemical liquid and increasing the reaction time is provided below each injection nozzle provided in the water washing tank and the chemical liquid washing tank.

Preferably, the water injection nozzle includes: a spray tube having an inlet and an outlet; And a diffusion tube connected to an outlet of the injection tube and having an outer diameter gradually increasing toward the lower side in order to diffuse and discharge the water discharged therefrom.

Preferably, a coupling portion is provided in the injection tube, and a coupling body is formed on the diffusion tube so as to be screwed to the coupling portion. The injection amount can be adjusted by adjusting the degree of opening of the discharge port by rotating operation. do.

According to the present invention, it is possible to solve the secondary contamination problem by minimizing the use of chemicals in the treatment process, in addition to increasing the chance of contact with the odor and residence time, by effectively linking and combining wet cleaning, microbial contact and plasma technology, The maintenance improvement cost is reduced through structural improvement of the injection nozzle, and the odor removal efficiency is high.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic cross-sectional view of a complex odor removal system using a bioreactor according to a preferred embodiment of the present invention; FIG.
2 is an enlarged perspective view showing a water injection nozzle according to a preferred embodiment of the present invention, wherein "B" is a sectional view and "D" is a plan view.
FIG. 3 is a schematic cross-sectional view showing an operation relationship of a complex odor removal system using a biological reactor according to a preferred embodiment of the present invention. FIG.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a complex odor removing system using a biological reactor according to the present invention will be described in detail with reference to the accompanying drawings.

Prior to this, terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary terms, and the inventor should appropriately interpret the concepts of terms in order to describe their invention in the best way. It should be interpreted in accordance with the meaning and concept consistent with the technical idea of the present invention based on the principle that it can be defined.

Therefore, the embodiments described in this specification and the configurations shown in the drawings are only the most preferred embodiments of the present invention, and not all of the technical ideas of the present invention are described. Therefore, It should be understood that various equivalents and modifications may be present.

FIG. 1 is a schematic cross-sectional view showing a complex odor removing system using a bioreactor according to a preferred embodiment of the present invention. FIG. 2 is an enlarged perspective view showing a water spray nozzle according to a preferred embodiment of the present invention , "I" is a cross-sectional view, and "C" is a plan view.

As shown in FIG. 1, the complex odor elimination system 10 using the biological reaction tank of the present invention mainly includes a water washing treatment tank 100, a biological reaction tank 200, a chemical liquid washing treatment tank 300, (400).

First, as shown in FIG. 1, the water washing tank 100 is provided with an inlet pipe 110 through which odor gas flows into one side thereof, a discharge pipe 120 provided above the water inlet pipe 110, And stored at the water level. The water spray nozzle 130 is connected to a circulation pump 140 for circulating the water stored in the water washing tank 100 and a transfer pipe 142 for circulating water, And the water is supplied by the pumping operation of the circulation pump 140 so that the water is sprayed downward. This is because, by spraying the water directly with the discharged odor, it provides more contact with the water to increase the cleaning rate It is prepared.

A packing layer 150 is provided below the water injection nozzle 130. The packing layer 150 is a region for increasing a contact area and a cleaning time of the harmful gas and the mixed odor gas and water. The packing layer 150 has a slightly different name but is referred to in the related art, and a separate description will be omitted.

Meanwhile, when the water jetting nozzle 130 is sprayed with water, clogging may occur due to debris or the like. In this case, the entire operation of the treatment system is stopped and maintenance is performed, It is desirable to have a new configuration in which clogging is hardly generated in the dimension. 2, the water injection nozzle 130 includes an injection pipe 132 formed with an inlet 133 and an outlet 134, and a water supply pipe 132 formed at a lower side of the injection pipe 132 And a diffusion tube 135 having an outer diameter gradually wider than an outer diameter of the injection tube 132 toward the lower side so that water discharged through the discharge port 134 can be diffused and discharged. And the water discharged through the diffusion tube 135 is diffused and discharged along the inclined surface.

At this time, the diffusion pipe 135 may be fixedly installed in the discharge port 134 through a support lever (not shown) so that a predetermined amount of water can be diffused and discharged. However, in order to easily control the discharge amount A coupling part 136 is formed in the injection tube 132 and a coupling body 137 screwed to the coupling part 136 is formed on the diffusion tube 135 so that the diffusion tube 135 It is preferable that the opening degree of the discharge port 134 can be easily adjusted according to the position. That is, as the diffusion tube 135 is rotated to be closer to the lower side of the injection tube 132, the discharge port 134 becomes narrower. When the diffusion tube 135 is rotated, the discharge port 134 is widened. As a matter of course, it is a matter of course that the discharge port 134 is installed within a range that does not hermetically seal the coupling portion 136 when the coupling portion 136 is fixed inside the injection pipe 132.

In this way, water is injected through the water injection nozzle 130 because the liquid has a property of collecting liquids, and the gas has a characteristic of collecting gas and is used because the processing efficiency becomes higher due to higher contact efficiency as the liquid is injected finely. It should be noted that a conventional injection nozzle has a problem in that a large number of micropores are formed but a problem of clogging may occur. Therefore, it is to be appreciated that the present invention proposes a new configuration capable of minimizing clogging and enabling injection.

1, the bioreactor 200 is connected to a discharge pipe 120 of the water washing tank 100 to receive odor gas, which is primarily treated in the water washing tank 100, And a supply line 210 connected to the supply line 210 through an unillustrated pipeline, and a discharge pipe 220 for discharging odorous gas is provided on the upper side. In addition, the activated microorganism culture solution is stored at a certain level in the inner lower side, and the odorous gas, which is raised after the biological reaction with the microorganisms, is prevented from being vertically raised and discharged, (230). In addition, the blocking plate 230 is provided with a microbial spray nozzle 240 to increase the chance of contact between microbes and the odor gas rising by spreading the microbes stored therein. It is a matter of course that the microorganism injection nozzle 240 is connected to the circulation pump 250 for pumping microorganisms stored in the bioreactor 200 through the transfer pipe 252.

At this time, although the microorganism injection nozzle 240 is shown schematically, the microorganism injection nozzle 240 has the same structure as the water injection nozzle 130 described above, and diffusing injection is possible, but clogging is not caused due to debris or the like.

In addition, it is preferable to further include a culture chamber 260 for supplying microorganisms to the bioreactor 200. The microorganism cultured in the culture chamber may be preferably a Bacillus microorganism widely used for absorbing and removing odor , Different kinds of microorganisms or various kinds of microorganisms may be used.

1, the chemical liquid cleansing tank 300 is connected to the discharge pipe 220 of the bioreactor 200 to receive odor gas, which is secondarily treated in the biological reaction tank 200, A discharge hole 320 through which a treated odor gas is discharged is formed on an upper side of the inflow pipe 310 connected to an unillustrated pipeline, (A kind of deodorant) is stored at a certain level, and on the upper side, the chemical liquid injection nozzle 330 is installed in multiple stages to increase the chance of contact between the chemicals and the odor gas discharged by spraying the stored chemical liquid. Of course, the chemical liquid injection nozzle 330 is connected to the circulation pump 340, which pumps the chemical liquid stored in the chemical liquid cleaning tank 300, through the transfer pipe 342 to spray the chemical liquid.

In addition, a packing layer 350 is provided under the chemical liquid injection nozzle 330, which is provided to achieve the same effect as the packing layer 150 of the water cleaning tank 100 described above. In addition, the chemical liquid injection nozzle 330 may have the same structure as the water injection nozzle 130 described above so as to prevent clogging during spreading chemical liquid.

Here, it is a matter of course that the supply pump is provided on the piping for supplying the unexplained or unstable gas or the malodorous gas and transferred to the next treatment tank.

1, the plasma reaction tank 400 is supplied with the malodor gas treated in the chemical liquid cleaning tank 300 from the discharge hole 320 and performs a plasma reaction, that is, a high oxidation reaction The plasma generating device 410 is installed in the inside of the plasma generating device 410. The plasma generating device 410 has been described in the prior art as described above, The description of the above will be omitted.

Hereinafter, a malodor removing process of the complex odor removal system using the bioreactor of the present invention constructed as above will be described.

3 is a schematic cross-sectional view illustrating the operation of a complex odor removal system using a biological reactor according to a preferred embodiment of the present invention.

Referring to the drawings, when malodorous gas generated in a sewage / wastewater treatment plant or various sludge treatment facilities is supplied to the inside through the inflow pipe 110 of the water cleaning tank 100, the water stored therein is primarily washed And the odor gas supplied as shown by the arrow moves to the discharge pipe 120 in order to proceed to the next process. The water is sprayed from the water spray nozzle 130 installed at the upper end in a multi-stage manner to increase the contact opportunity The packing body 150 provided below the water spray nozzle 130 further increases the chance of contact, thereby maximizing the efficiency of water washing.

Then, the malodorous gas is supplied to the inside through the supply line 210 of the bioreactor 200, and the malodorous gas is removed through the biological reaction with the microorganisms stored in the bioreactor 200, The odor gas is removed as the arrow goes up to the next process. At this time, the rising odor gas is elevated while being bent in the transverse direction along the passage formed by the blocking plate 230 provided inside without rising vertically, thereby increasing the internal residence time. In addition, odor is reduced by greatly increasing the chance of contact between the microbes sprayed through the microbial spray nozzles 240 provided in the blocking plate 230 and the microbes.

The gas whose odor has been reduced through the biological reaction is supplied to the chemical liquid treatment tank 300 through the upper discharge pipe 220. The odor is removed by the deodorant agent which is a stored chemical liquid, The deodorant gauze is diffused and sprayed from the chemical liquid injection nozzle 330 to increase the chance of contact with the chemical, thereby improving the efficiency. Further, since the packing body 350 is provided under the chemical liquid injection nozzle 330, the chance of contact with the chemical liquid and the residence time are increased, and the treatment efficiency is greatly increased.

Here, in the present invention, it is necessary to recognize that the use of the chemical solution is minimized because most of the odor is already removed through the water washing and biological reaction. This leads to the advantage of significantly reducing the secondary contamination by the drug.

Finally, the malodorous gas passing through the chemical liquid cleaning treatment tank 300 flows into the plasma reaction tank 400 provided at the upper side, and the cleaned air is discharged to the outside by eliminating the residue through the oxidation reaction.

In this way, it is possible to sequentially perform the water washing, the biological reaction, the chemical solution cleaning and the plasma treatment so as to improve the complex odor treatment efficiency with various components, and the spray nozzles 130, 240, The biological reaction tank 200 is provided with a blocking plate 230 to increase the residence time, thereby further improving the odor removal efficiency. Further, the injection nozzles 130, 240, and 330 are not easily clogged due to debris such as foreign matter, thereby reducing the maintenance cost.

The foregoing has outlined rather broadly the features and technical advantages of the present invention in order that the claims of the invention to be described below may be better understood. Additional features and advantages that constitute the claims of the present invention will be described in detail below. It should be appreciated by those skilled in the art that the disclosed concepts and specific embodiments of the invention can be used immediately as a basis for designing or modifying other structures to accomplish the invention and similar purposes.

It is also to be understood that such modified or altered equivalent structures by those skilled in the art as a basis for modifying or designing the invention to the other structures for carrying out the same purpose of the invention disclosed in the present invention, It will be understood by those skilled in the art that various changes, substitutions and alterations can be made herein without departing from the spirit or scope of the invention as defined by the appended claims.

10: Complex odor removal system 100 of the present invention:
110: inlet pipe 120: outlet pipe
130: water spray nozzle 132: spray pipe
133: inlet 134: outlet
135: diffusion tube 136:
137: Combined unit 140: Circulation pump
142 transport pipe 150 packing body
200: Bioreactor 210: Supply line
220: discharge pipe 230:
240: biological spray nozzle 250: circulation pump
252: Transport pipe 260: Culture room
300: Chemical liquid cleaning treatment tank 310: Inflow pipe
320: Exhaust hole 330: Chemical liquid injection nozzle
340: circulation pump 342: transfer pipe
350: Packing body 400: Plasma reaction tank
410: Plasma generator

Claims (4)

A water washing treatment tank which is provided with a water spraying nozzle for spraying the water and discharges the odorous gas in contact with water and discharges the water in contact with water,
The malodor gas is supplied from the malodorous gas through the biological reaction, and the malodorous gas discharged from the malodorous gas is elevated while being bent without being raised vertically. A plurality of blocking plates for increasing the chance of contact with the microorganisms, and a microbial spraying nozzle for spraying the microbes on the blocking plate to improve the contact possibility of the microbes;
A chemical liquid cleaning tank for receiving malodorous gas that has been biologically treated in the bioreactor and brought into contact with the malodor removing chemical, and a chemical spray nozzle for spraying the chemical on the upper side to spray the chemicals onto the rising odor; And
A plasma reaction tank for receiving the malodorous gas treated in the chemical liquid cleaning treatment tank and removing the residue by causing a highly oxidative reaction through the plasma generator;
Wherein the odor eliminating system comprises: The method according to claim 1,
Characterized in that a packing layer for increasing the chance of contact between the malodorous gas and the water or the chemical liquid and for increasing the reaction time is provided on the lower side of each injection nozzle provided in the water washing treatment tank and the chemical liquid washing treatment tank, Odor removal system. The method according to claim 1,
The water jetting nozzle includes:
A spray tube having an inlet and an outlet; And
A diffusion tube connected to an outlet of the injection tube and having an outer diameter gradually increasing toward the lower side in order to diffuse and discharge the discharged water;
Wherein the odor eliminating system comprises: The method of claim 3,
Wherein a coupling part is provided inside the spray tube and a coupling body is screwed on the coupling part on the upper side of the diffusion tube so that the injection amount can be adjusted by controlling the opening degree of the discharge port by the rotation operation. Complex odor removal system using reactor.

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