KR101023736B1 - Hibrid biotrickling filter device combined with micro air bubble absorber and method thereof - Google Patents

Abstract

PURPOSE: A minute air bubble absorber mounted hybrid bio trickling filter device, and a filtering method using thereof are provided to property correspond to the load variation of bad smell by applying a minute air bubble absorber. CONSTITUTION: A minute air bubble absorber mounted hybrid bio trickling filter device includes a bad smell air transferring device(101), a bio-trickling filter(102), a spray nozzle(104), a water spray pump(106), and a minute air bubble absorber(107). The bad smell air transferring device transfers bad smell air. The bio-trickling filter passes the bad smell air through a porous ceramic microorganism charged carrier layer(103), for removing bad smell with microorganisms. The spray nozzle sprays water to the microorganism charged carrier layer.

Description

Hybrid Biotrickling Filter Device Combined with Micro Air Bubble Absorber and Method Thereof}

The present invention is a site where high concentrations of odors occur, such as sewage treatment plant, manure treatment plant, livestock wastewater treatment plant, various composting facilities, wastewater treatment plants for each business site, and loads of odors generated from odor generating sources of odor generating plants according to season, weather, and operating time. The present invention relates to a micro air bubble absorber-mounted hybrid biotrickling filter device and method for efficiently dealing with odors at a rapidly changing workplace.

As the frequency of complaints about odors has risen rapidly as the standard of living improves, Korea has enacted and enforced the odor prevention laws.In the workplaces where odors occur, an appropriate odor treatment device is installed to prevent complaints from occurring. The odor is collected. In addition, in the case where the odor treatment device is installed, the dilution drainage measured by the air dilution sensor method, which is the olfactory measurement method, is discharged at the outlet of the odor treatment device to satisfy the appropriate standard value.

Therefore, physicochemical methods, biological methods, incineration methods, masking methods, etc., have been developed in Korea as a technology for treating odors. However, in recent years, among the odor treatment methods, biofilters, which are biological treatment methods, are most applied in sewage treatment plants and manure treatment plants. However, if the odor generated from the odor source occurs at high concentration and high load, the biofilter alone cannot completely deal with the odor, and occurs in the odor source according to daily operation time such as food composting facility and manure and livestock wastewater treatment plant. In the case of a large deviation of the odor generation concentration, the odor inflow load flowing into the biofilter device may change rapidly, so that the biofilter device may not respond to the odor and may be discharged without being completely processed.

Subdividing the technology to deal with odor by biological method, the microorganism charge carrier makes it possible to attach odor removing microorganisms to compost and bark, and then, the odor air transfer device blows odor air into the microorganism charge carrier layer to treat odor. There is a biofilter technology.

In addition, as a technology applying a packed tower scrubber, it is a technology that removes odors by blowing malodorous microorganisms dispersed in a fluid phase into water and blowing malodorous air into the filling filled in the packed tower scrubber. Bio-Scrubber).

After filling the housing with porous ceramics and polyurethane foam as a microbial filling carrier, the microorganism filling carrier is fixed to the microorganism filling carrier and then the malodorous air is blown into the microbial filling carrier layer to remove the malodor. There is a Biotrickling Filter method that provides moisture to microorganisms by intermittent watering and cleans decomposition products.

In addition, as a technique of absorbing odor by absorption method, which is one of physical and chemical treatment methods, packed tower scrubber is the most common, which uses a gas-liquid interface absorption principle as shown in FIG. When water is absorbed into the absorber, an absorbent liquid layer is formed on the surface of the filler, and malodorous air passes through the absorbent liquid layer, and a gas-liquid interface is formed on the surface of the absorbent liquid layer. This is the method used. However, in order to dissolve a large amount of odor, the total area of the gas-liquid interfacial layer must be large, so that the filling amount of the filler must be increased.

Currently, in Korea, various odor treatment devices have been developed and applied to treat and release odors generated from odor generating facilities, but odors generated from sewage treatment plants, manure treatment plants, livestock wastewater treatment plants, food composting facilities, and wastewater treatment plants by each business site Inorganic odors are mainly generated, and the relative humidity is high and the characteristics occur at high concentrations. Thus, the biofilter device, which is a biological treatment method, is most applied.

However, the biofilter device, which is a biological treatment method, has a problem that the device becomes huge because the odor concentration of the inflow is high or the inflow of the odor removal load is high, so that the retention time of the odor staying in the microbial carrier packed bed must be sufficiently secured. Therefore, in order to overcome these problems, the microbial filling carrier is developed to improve the processing efficiency by modifying the form and shape of the biofilter device or to allow a larger amount of microorganisms to adhere to the microbial filling carrier filled in the biofilter device. This was active.

However, the biofilter apparatus, which is a biological treatment apparatus, may be applied to a workplace that changes the form and shape of the biofilter apparatus and develops a highly efficient microbial filling carrier and applies it to a workplace where odor is generated at high concentration and high load. Due to the limitation of the odor removal load, there are many cases where the outlet does not meet the outlet regulation standard regulated by the odor prevention law.

In addition, the biofilter device, which is a biological deodorizer, is a method of processing odor using microorganisms, and thus, when the concentration of odor introduced into the biofilter device changes rapidly depending on the situation of the odor source and the weather, temperature, and operating time, the biofilter device Since the load of the odor flowing into the abrupt change with time, the microbial filling layer filled in the biofilter device does not correspond to this and may be discharged without completely removing the odor introduced. Particularly, in the domestic manure treatment plant and livestock wastewater treatment plant, manure and livestock wastewater is collected from each home and farm and transferred to the storage tank of the treatment plant. In this period, the amount of odor generated rapidly increases and the odor load flowing into the biofilter apparatus exceeds the removal load, so that the odor is often not completely removed.

In addition, the domestic odor regulation standard is regulated by the dilution fold of air dilution sensory method at the outlet, which is a method of measuring the dilution fold by using human's sense of smell. It implies In particular, the microorganisms filled in the microorganism-filled carrier of the biofilter device is planted with a complex strain to remove not only sulfur-based and nitrogen-based odors but also trace organic odors. However, the microorganism-filled carrier filled with the complex strain also contains microorganism-specific odors, which may affect the dilution factor when odor is measured by air dilution function at the outlet.

Therefore, in Japan, activated carbon adsorption tower is installed as a post-treatment facility at the rear of the biofilter, which is a biological deodorizer, but the odor of the biodeodorizer after the air has a low concentration and high relative humidity, so the adsorption efficiency of activated carbon is drastically lowered. There is a problem that must be replaced frequently. In other words, it is a case where the combination of the wet filter system of the previous wet treatment system and the activated carbon adsorption device of the dry process system of the latter stage does not match. Therefore, in Korea, a combination of a wet column packed scrubber is installed at the front or the rear of the biofilter unit, but the packed column scrubber has a low odor absorption efficiency and a certain residence time to stay in the filler. This raises the required problem.

The present invention has been made to solve the above-mentioned conventional problems, the present invention is the most advanced method of the existing odor treatment method and the finest air bubble in the biotrickling filter (Biotrickling Filter) system which is the highest processing efficiency method It is intended to treat the odor completely and stably by installing an absorber and applying it to the odor generating source.

In order to achieve the above object, the present invention provides a hybrid type biotrickle filter device and method for developing a micro air bubble absorber having high odor absorption efficiency in a biotrickle filter system filled with a porous ceramic microbial filler. .

In the present invention, the bio-trickle filter device supplies microorganisms in an appropriate moisture environment by supplying moisture to the malodorous air transporter and the microorganism filling carrier which transfers the malodorous air from the malodor generating source so as to contact the malodorous air with the microorganism filling carrier. It includes a moisture supply that supplies moisture to grow.

In addition, in the present invention, the fine air bubble absorber is an odor absorber of liquid-gas contact type, and the absorbent flows through the upper part of the air impingement plate disposed in two stages, and the odor air passes through the absorbent liquid layer through the pinhole formed in the two-stage air impingement plate. In the meantime, a fine air bubble is formed so that the odor contained in the odor air is absorbed by the absorbent liquid and removed.

In the present invention, the absorbing liquid flows independently to the fine air bubble absorber so that the acidic solution, the neutral solution, the alkaline solution, the wood vinegar solution, the catalyst solution and the like can be selectively used according to the characteristics of the odor.

The present invention provides a micro-air bubble absorber-mounted hybrid biotrickle filter device and method for completely and stably removing odors at odor generating workplaces with high concentration and high load and odor generating workplaces with varying odor generating loads. By applying the present invention to the sewage treatment plant, manure treatment plant, livestock wastewater treatment plant, food composting facility, wastewater treatment plant of each business site with limited biological deodorization system, the odor generated from the odor source can be completely removed and discharged. There is an effect that can be appropriately coped with the load fluctuation of odor.

In addition, by removing the odor peculiar to the microorganisms stocked in the microbial filling carrier there is an effect that the microbial peculiar odor does not affect the dilution times of the air dilution sensory method measured by the smell.

1 is an overall configuration diagram of a hybrid air bubbler filter device equipped with a fine air bubble absorber according to the present invention.
2 is a schematic diagram of a fine air bubble absorber according to the present invention;
Figure 3 is a cross-sectional view of the two-stage air impingement plate of the fine air bubble absorber according to the present invention, showing the principle that the fine air bubble is formed.
4 is a view showing the principle that odor is absorbed at the liquid-gas interface.
5 is a view showing the principle of absorbing odor at the gas-liquid interface.

Hereinafter, with reference to the accompanying drawings, preferred embodiments that do not limit the present invention will be described in detail.

Figure 1 shows the overall configuration of the hybrid micro-bubble filter device equipped with a fine air bubble absorber according to a preferred embodiment of the present invention, Figure 2 shows a schematic configuration of a fine air bubble absorber according to the present invention, Figure 3 shows an enlarged two-stage air impingement plate of the fine air bubble absorber according to the present invention.

The present invention, as shown in Figure 1, the malodor air transporter 101 for transporting malodorous air generated from various malodorous sources and the malodorous air transported by the malodorous air transporter 101 is a porous ceramic microorganism carrier The biotrickle filter 102 removes the odor in the air by removing the odor in the air by the layer 103 and the spray nozzle for spraying water onto the porous ceramic microbial carrier layer 103. 104 and the water spray pump 106, and a fine air bubble absorber 107 for removing odor air that has not been completely removed from the bio-trickle filter (102).

Reference numeral 105 in the figure is a water tank for supplying water to the porous ceramic microbial carrier layer 103.

The bio trickling filter 102 fills the housing with porous ceramics, polyurethane foam, and the like as a microbial filling carrier, and then fixes the malodor removing microorganisms on the microbial filling carrier and then transfers the malodorous air to the malodorous air transporter 101. By blowing into the microbial filling carrier layer using to remove the odor while providing moisture to the microorganism filling carrier to remove the odor by intermittent spraying and cleaning the decomposition products, the principle of the Biotrickling Filter (Biotrickling Filter) And structures are well known in the art to which the present invention pertains, and thus a detailed description thereof will be omitted.

In the present invention, the fine air bubble absorber 107 is a place where the low concentration of bad odor air from which odor is first removed while passing through the bio trickling filter 102 is removed, which is illustrated in FIGS. 2 and 3. Similarly, a storage tank D is formed in the absorber housing C so that the absorbent liquid can be stored, and the air collision plate 108 is mounted to the bottom of the storage tank D in two upper and lower stages, and the air collision plate 108 is provided. The low concentration odor passes through the holes h1 and h2 perforated in the air impingement plate 108 while the absorbent liquid flows to the upper part of the upper part. It is configured to be discharged only to the top.

The storage tank (D) is a odor of the odor by allowing the absorbent liquid introduced from the inlet (I) is discharged through the outlet (O) while maintaining the proper level of water by the partition wall (W) of a predetermined height. Absorption is possible.

That is, the remaining malodorous air introduced into the fine air bubble absorber 107 passes through the two-stage air impingement plate 108 as shown in FIG. 3, and the malodorous air is fined by the two-stage air collision plate 108. As shown in FIG. 4, the absorbed area of the liquid-gas interface is maximized in the absorbent liquid flowing in the upper part of the two-stage air impingement plate 108, and only the air which is clean to the upper part after the bad odor air is absorbed. It is intended to be discharged.

In the figure, reference numeral 109 denotes an absorbent liquid tank for storing the absorbent liquid supplied to the storage tank D, and reference numeral 110 denotes a continuous absorption supply of the absorbent liquid to the storage tank D by an absorbent liquid pump installed inside the absorbent liquid tank 109. It works.

In the present invention, the absorbent liquid flows in the upper part of the two-stage air collision plate 108 in the fine air bubble absorber 107 and the odor air is introduced into the absorbent liquid layer through the pinholes h1 and h2 of the two-stage air collision plate 108. At the same time, since a fine air bubble is formed and the odor is removed and then discharged, the absorbent liquid does not flow to the lower part of the two-stage air collision plate 108 so that the air bubble absorber may be operated independently of the biotrickle filter 102. Thereby, the absorbing liquid can be selectively used as an alkaline solution, an acidic solution, water or wood vinegar or a catalyst liquid depending on the odor characteristics.

In the present invention, the two-stage air collision plate 108 is formed as air bubbles in the upper absorbent liquid layer while passing through the pinhole h1 of the lower air collision plate 108a, as shown in FIG. Is again entered through the pinhole h2 of the upper air impingement plate 108b into the absorbent liquid layer above the two-stage air impingement plate 108. At this time, the pinhole h1 and the upper part of the lower air impingement plate 108a. The pinholes h2 of the air impingement plate 108b are alternately arranged so that a relatively large air bubble formed in the lower air impingement plate 108a collides with the upper air impingement plate 108b again and breaks into fine air bubbles. The fine air bubbles are absorbed horizontally on the upper and lower air impingement plates 108a and 108b and a liquid-gas interface having a large area is formed to remove odors. At this time, the passage speed of the air passing through the pinholes (h1, h2) is designed in such a condition that the absorbent liquid does not flow to the lower portion of the two-stage air impingement plate 108, so that the passage speed is very fast, thereby increasing the size of the fine air bubble absorber 107. There is an advantage that can be made small.

In the figure, reference numeral 111 denotes a demister installed on the absorber housing C.

According to the present invention configured as described above, odor air generated from a high concentration of odor generating sources and odor generating loads in which odor generating loads are suddenly changed is transported by the odor air conveying machine 101 as shown in FIG. Then, the odor air injected is passed through the porous ceramic microbial charge carrier layer 103, at which time, the odor introduced by the odor removal microorganism is fixed to the microbial filling carrier is removed.

The present invention was fixed to the microorganisms to remove the odor on the porous ceramic carrier, and the water stored in the water tank 105 to the water spray pump 106 by spraying evenly to the microbial carrier layer through the spray nozzle 104 to separate To supply microorganisms without adjusting nutrients and pH, water is supplied and the odor removal by-products are removed by the microorganisms.

On the other hand, the odorous air that has not been completely removed from the bio trickling filter 102 due to the high concentration, high load odor and abrupt load fluctuations is completely removed through the fine air bubble absorber 107 as described above, and then only clean air is discharged. Will be.

On the other hand, as the method of applying the present invention to the odor generating site according to the odor generating site, various odors are generated depending on the source of the odor. It is effective to remove residual odor at the back of the bio trickling filter by using alkaline solution as absorbent of fine air bubble absorber.In the case of high concentration of ammonia odor such as manure treatment plant, it is effective to use odor if absorbed as acid solution. Can be removed

In addition, in the case of workplaces in which inorganic odors and trace organic odors are discharged at the same time, such as food composting facilities, inorganic odors can be removed by using a bio trickling filter, and trace organic odors can be removed by using water or wood vinegar or catalyst solution as an absorbent liquid. effective.

On the other hand, if the load of odor fluctuates according to time and operating conditions, it is possible to effectively remove the odor by allowing the chemical concentration of the absorbent liquid to be adjusted in accordance with the concentration of the odor remaining in the rear of the biotrickle filter.

101: odor air feeder 102: bio trickling filter
103 porous microorganism carrier 104 spray nozzle
105: water tank 106: watering pump
107: fine air bubble absorber 108: two-stage air collision plate
108a: lower air impingement plate 108b: upper air impingement plate
109: absorbent liquid tank 110: absorbent liquid pump
111: Demister C: housing
D: Storage tank H1, H2: Pinhole
W: bulkhead

Claims (5)

delete Odor air transporter 101 for transporting odor air generated from the odor generating source, and odor air transported by the odor air transporter 101 is passed through the porous ceramic microbial charge carrier layer 103 to remove odors in the air. Biotrickling filter 102 to remove the odor removal microorganisms fixed to the microbial filling carrier, and a spray nozzle 104 and a spraying pump 106 for injecting water into the porous ceramic microbial filling carrier layer 103 A bio trickling filter device comprising:
Further comprising a fine air bubble absorber 107 for removing odor air not completely removed from the bio-trickle filter 102, wherein the fine air bubble absorber 107 is stored in the absorber housing (C) A storage tank D is formed to be formed, and the air impingement plate 108 is mounted to the bottom of the storage tank D in two stages up and down, and the absorbent liquid flows to the upper part of the air impingement plate 108 while causing a low concentration of odor. Is passed through the holes (h1, h2) perforated in the air impingement plate 108 and contact with the absorbent liquid while passing through the absorbent liquid is characterized in that only the clean air can be discharged to the upper part after absorbed and removed by the absorbent liquid Hybrid air trickling filter device equipped with a fine air bubble absorber. The method according to claim 2,
The two-stage air impingement plate 108 has upper and lower air impingement plates 108a and 108b through which the pinholes h1 and h2 are drilled up and down alternately with each other so that the odor air bubbles formed in the lower air impingement plate 108a are upper air. The hybrid air trickling filter device with a fine air bubble absorber, characterized in that the impact plate (108b) to be broken by the collision. delete delete

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