KR101682065B1 - Prefabricated wastewater treatment equipment using bio-filters - Google Patents

Abstract

The present invention relates to a prefabricated wastewater treatment apparatus using bio-filters. The prefabricated wastewater treatment apparatus using bio-filters comprises: a back washing tank in which filtering adapted to remove sludge from initially introduced raw water and primary microorganism decomposition adapted to use SM chips filling an interior thereof are performed; first, second and third SM tanks in which the water treated in the back washing tank is purified by using microorganisms attached onto SM chips adapted to fill interiors thereof and to be activated via redox reaction; and an anoxic tank which is located between the second SM tank and the third SM tank, which is filled with SM chips, in which an anoxic state is formed therein, and which treats nitrogen. According to the present invention, purification efficiency can be increased by filling the individual tanks with the SM chips including aerobic and anaerobic bacteria and then purifying sewage and wastewater, and an additional facility for treating sludge is not required by minimizing generation of sludge. Furthermore, installation and disassembly are facilitated and also an overall configuration is simplified by adopting a prefabricated structure, and thus the treatment apparatus can be installed in a narrow area and also maintenance and repair costs can be reduced. Activation of purifying microorganisms can be promoted and also purification efficiency can be improved by manufacturing the treatment apparatus by using a PE material mixed with a shell powder.

Description

Technical Field [0001] The present invention relates to a prefabricated wastewater treatment equipment using bio-filters,

The present invention relates to a prefabricated sewage / wastewater treatment device using a biofilter, and more particularly, to a filter device for removing sludge in raw water initially introduced and a reverse osmosis treatment device for performing primary microbial decomposition by an SM chip packed therein, SM 1, SM 2, and SM 3, which purify the treated water with microorganisms attached to the SM chip activated by the redox reaction filled in the inside of the reverse osmosis, and SM 2 and SM 3, And an anoxic tank for treating nitrogen by forming an oxygen-free state in the interior thereof.

The countries with less than 1,000 tons of annual water use per capita are classified as water-famine countries, those with 1,000 to 1700 tons with water-scarce countries and those with more than 1,700 tons with water-rich countries. As of 2000, , And it is expected to drop to 1300 tons in 2025. As of 2014, the amount of water available per capita in Korea is 129th, which is the lowest among the OECD countries. Therefore, interest in the reuse of sewage water is increasing.

The reuse rate of sewage treatment water in Korea has increased by 0.9% to 13.5% (as of 2015) and the annual reuse amount has increased by 35.443 million tonnes to 904.88 million tonnes, but 52.9% 498,876,700 tons are used as intestinal water of public sewage treatment plant including cleaning water, and it is necessary to expand the quality of reused water.

The A ₂ / O process, the UCT process, and the VIP process, which are applied in foreign countries, can not be applied due to the low concentration of organic substances due to the combined sewage exclusion system in Korea. Is estimated to be less than the actual amount of sewage treated by the sewage treatment facility due to insufficient sewerage maintenance and insufficient capacity of the sewage treatment facility. It is estimated that the amount of sewage treated by the actual sewage treatment facility is less than that of the sewage treatment facility, The wastewater from the wastewater, small-scale industrial complex or factory of the building is discharged directly to the water system due to the lack of facilities or lack of treatment facilities.

In general, the conventional method of treating domestic wastewater is a method of separating solids in wastewater and wastewater from liquid by gravity or other physical methods, and there is a limitation in the treatment, and chemical treatment has a limitation in chemical treatment The treatment cost is high due to the increase of the chemical cost and the sludge generation amount by the treatment method such as neutralization or pH adjustment, oxidation reduction, coagulation sedimentation, adsorption, etc. in addition to the wastewater, and the sewage treatment using electrolysis also has a high treatment cost I have a problem. Accordingly, there is a problem that the activated sludge method using microorganisms is developed, but the reliability of the nutrient removal rate by the active microorganisms is low, and a large-scale facility is required to perform the conventional water treatment methods.

Prior arts using the above-mentioned microorganisms and having a small water treatment facility include Korea Patent No. 10-1080993 (November 11, 2011), a prefabricated wastewater treatment unit, a laminated wastewater treatment device, and a prefabricated wastewater treatment unit The present invention relates to a prefabricated wastewater treatment unit which is provided to a consumer in a set and assembled and stacked by a set number corresponding to a standard of a consumer purification facility, comprising six rectangular annular frames corresponding to six surfaces of a rectangular parallelepiped; A mesh network attached to each of the rectangular annular frames to prevent departure of contents in the assembled wastewater treatment unit; At least one surface tubular carrier provided inside the prefabricated wastewater treatment unit and serving as a space for microorganisms; A carrier support frame provided on each of the at least two rectangular annular frames to enable fixing the carrier of the tubular shape; And a stationary frame for covering and fixing the corners from the outside by the two rectangular ring-shaped frames so that the rectangular annular frames are connected to each other to form a rectangular parallelepiped structure. .20.) The wastewater purification system using microorganisms improves the purification efficiency of the wastewater without generating sludge in the wastewater treatment through the far-infrared-treated wood chips to increase the number of porous waters. A second reaction tank including a first water collecting tank, an anaerobic tank, an aeration tank, a first flow rate adjusting tank, a first reaction tank, a second water collecting tank, and a third water collecting tank; And a reservoir tank.

In the prior art, the prior art has the problem that the reliability of the removal of nutrients from the conventional technologies is low, although the sewage treatment using microorganisms is performed and the apparatus is constructed as a prefabricated device. The second prior art has a complicated facility The water treatment is inconvenient, and the maintenance cost is increased.

Korean Registered Patent No. 10-1080993 (2011.11.09.) Korean Patent No. 10-1042543 (June 20, 2011)

SUMMARY OF THE INVENTION The present invention has been made in view of the above problems, and it is an object of the present invention to provide a sewage treatment method and a sewage treatment method using the microorganisms as described above, which improve the purification efficiency with low reliability and have a prefabricated structure and are convenient to install and operate, It has its purpose.

In order to solve the above-mentioned problems and to achieve the object, the prefabricated sewage / wastewater treatment apparatus according to an embodiment of the present invention includes a filter ring for removing sludge in raw water to be initially introduced and a primary microorganism A reverse osmosis (10) for performing decomposition; SM 1 (20), 2 (30), and 3 (50) for purifying the treated water treated by the reverse osmosis with microorganisms attached to the SM chip activated by the oxidation-reduction reaction packed therein. And an anoxic tank (40) located between the SM 2 tank (30) and the SM 3 tank (50) and filled with SM chip therein and having an oxygen-free state therein to treat nitrogen, The lid 62, the inflow pipe 64, and the nozzle 66 are installed in the tank 10, the SM 1 set 20, the SM 2 set 30, the anoxic tank 40, and the SM 3 set 50, A lid portion 60 for introducing the pretreated treated water and dropping it downward; An intermediate processing stage 72 for purifying the process water introduced from the lid unit 60 by filling the SM chip therein and an air inflow path 74 for supplying oxygen into the intermediate process stage 72, An intermediate treatment section 70 formed with a plurality of hollows for sending the treated water and comprising a perforated plate 76 and an assembling means 78 forming a lower surface; A lower processing stage 82 for purifying the process water processed by the intermediate process unit 70 by filling the SM chip therein, a collection tank 84 for storing purified water, And a lower processing unit 80 including a porous metal plate 86 made of a porous metal through which the treatment water is passed through the collection tube 84.

The SM chip is composed of wood having a pore surface area of 10 m 2 / gr or more, the aerobic microorganisms are activated by the oxidation-reduction reaction, the anaerobic microorganisms are activated inside and the aerobic and anaerobic microorganisms are propagated Thereby treating the sludge.

The SM chip can be combined with a synthetic catalyst of wood having a surface area of at least 10 m 2 / gr of pores, the wood being made of porous wood, the synthetic catalyst comprising alumina, zirconia and silicon carbide in a ratio of 2: 1: 1 By weight and then heat-treated.

The nozzle uses a helical coil nozzle (spiral nozzle) 66 to spray raw water and treated water downward.

The air inflow path 74 is located above the intermediate processing unit 70 and the lower processing unit 80. The air inflow path 74 starting from the outside is formed higher than the internal inflow path to prevent the treated water from being discharged to the outside .

The edges of the intermediate processing stage 72 and the lower processing stage 82 on which the assembling means 78 is not provided are fixed to the respective intermediate processing stages And a discharge pipe 90 for transferring the treated water stored in the collecting column 84 to the upper side through the inside of the lower treatment stage 82 is connected.

The corrugation 84 is provided with a partition made of porous material on the inner side thereof to discharge the treated water to the discharge pipe 90 located in the discharge part 88 with the discharge part 88 disposed thereon.

The porous metal plate 86 is made of Inconel metal mixed with nickel, chromium, iron, carbon, and manganese as a porous metal.

The material of the frame constituting the reverse oven 10, the SM 1 20, the second 30, the third set 50 and the anoxic tank 40 is made of a synthetic resin produced by mixing shell powder and polyethylene or polypropylene.

As described above, the prefabricated sewage / wastewater treatment apparatus according to the present invention has the following effects.

(1) According to the present invention, an SM chip containing aerobic and anaerobic bacteria is filled in each tank to purify the waste water and wastewater, thereby improving the purification efficiency and minimizing the occurrence of sludge, thereby providing an additional facility for sludge treatment It is not necessary.

(2) The present invention has a prefabricated structure, which is simple to install and dismantle, and has a simple overall structure, and thus can be installed in a narrow space, and the maintenance cost can be reduced.

(3) According to the present invention, the material of the device is made of PE material and the shell powder is blended to increase the efficiency of purification and purification of the microorganism.

1 is a perspective view of a prefabricated wastewater treatment apparatus according to a preferred embodiment of the present invention.
2 is a reference view of a lid according to a preferred embodiment of the present invention.
3 is a reference diagram of an intermediate processing unit according to a preferred embodiment of the present invention.
4 is a reference view of a lower processing unit according to a preferred embodiment of the present invention.

The present invention will be described in detail with reference to the accompanying drawings, wherein like reference numerals denote like elements, and in which: Fig. In addition, terms defined in the present specification and claims are not to be interpreted as limiting, and may be changed according to the intention or custom of the operator, and should be construed in a meaning and a concept consistent with the technical idea of the present invention.

In one aspect of the present invention,

FIG. 1 is a perspective view of a prefabricated sewage / wastewater treatment apparatus according to a preferred embodiment of the present invention, which will be described in more detail below with reference to FIG.

The prefabricated sewage / wastewater treatment apparatus of the present invention includes a filter ring for removing sludge from raw water to be initially introduced, and a reverse osmosis treatment tank 10 for performing primary microbial decomposition by an SM chip packed therein; SM 1 (20), SM 2 (30), SM 3 (50) for purifying the treated water with microorganisms attached to the SM chip activated by the redox reaction filled in the inside of the reverse osmosis treatment tank 10, ; And an anoxic tank (40) located between the SM tank (30) and the SM tank (50) and filled with SM chips therein, and an oxygen-free state is formed therein to treat nitrogen.

The present invention comprises the reverse oven 10, the SM 1 set 20, the SM 2 set 30, the anoxic tank 40 and the SM 3 set 50, SM chips are filled in the inner tank 20, the SM tank 30, the anoxic tank 40, and the SM tank 50, and a sedimentation tank, not shown, It is possible to remove the bulky sludge before the water treatment by the SM chip.

3 is a reference view of the intermediate processing unit 70 according to a preferred embodiment of the present invention, and FIG. 4 is a schematic view of the intermediate processing unit 70 according to an embodiment of the present invention. Reference will be made to the lower portion of the lower processing unit 80 according to a preferred embodiment in more detail with reference to Figures 2 to 4 below.

The back washing tank 10, the SM 1 set 20, the SM 2 set 30, the anoxic tank 40 and the SM 3 set 50 are provided with a cover 62, an inflow pipe 64, A lid portion 60 for introducing the pretreated treated water and dropping it downward; An intermediate processing stage 72 for purifying the process water introduced from the lid unit 60 by filling the SM chip therein and an air inflow path 74 for supplying oxygen into the intermediate process stage 72, An intermediate treatment section 70 formed with a plurality of hollows for sending the treated water and comprising a perforated plate 76 and an assembling means 78 forming a lower surface; And a lower processing stage 82 for purifying the process water processed by the intermediate processing unit 70 by filling the SM chip therein, a collection tank 84 for storing the purified water, And a lower processing unit 80 including a porous metal plate 86 made of a porous metal through which the treatment water is passed through the collection tube 84.

In addition, the number of the intermediate processing units 70 is two, and a plurality of the intermediate processing units 70 can be installed and used.

The SM chip is composed of wood having a pore surface area of 10 m 2 / gr or more, the aerobic microorganisms are activated by the oxidation-reduction reaction, the anaerobic microorganisms are activated inside and the aerobic and anaerobic microorganisms are propagated Thereby treating the sludge.

Further, the SM chip can be combined with a synthetic catalyst having a surface area of 10 m 2 / gr or more of a porous structure, and the wood is made of a general wood having an oak or porosity, and the synthetic catalyst includes alumina, zirconia and silicon carbide In a weight ratio of 2: 1: 1 and then heat-treated.

In the SM chip to which the synthesis catalyst is attached, the aerobic microorganisms are activated by the oxidation-reduction reaction, the anaerobic microorganisms are activated, and aerobic and anaerobic microorganisms are propagated at the outlet, thereby treating the sludge.

The adhesion bond (not shown) between the wood chip and the synthetic catalyst may be prepared by forming a synthetic catalyst in a lattice-shaped frame and attaching to a portion through which the wood chip penetrates, or the synthetic catalyst may be simply attached to the back surface of the wood chip have.

The nozzle uses a helical coil nozzle (spiral nozzle) 66 to spray raw water and treated water downward.

The air inflow path 74 is located above the intermediate processing unit 70 and the lower processing unit 80. The air inflow path 74 starting from the outside is formed higher than the internal inflow path to prevent the treated water from being discharged to the outside .

Further, it is preferable that the air inflow path 74 is not formed in an anoxic tank.

The edges of the intermediate processing stage 72 and the lower processing stage 82 on which the assembling means 78 is not provided are fixed to the respective intermediate processing stages And a discharge pipe 90 for passing the treated water stored in the collection tank through the inside of the lower treatment stage 82 to the upper side.

The corrugation 84 is provided with a partition made of porous material on the inner side thereof to discharge the treated water to the discharge pipe 90 located in the discharge part 88 with the discharge part 88 disposed thereon.

The discharge part 88 is located at a lower position than the collecting column 84 and the partition is a hydrophilic polymer membrane selected from a regenerated cellulosic, a cellulose acetate (CA), and a polyvinyl alcohol (PVA) Lt; / RTI >

The porous metal plate 86 may be made of Inconel metal mixed with nickel, chromium, iron, carbon, and manganese as a porous metal, or a general metal film may be used.

The material of the frame constituting the reverse oven 10, the SM 1 20, the second 30, the third set 50 and the anoxic tank 40 is made of a synthetic resin produced by mixing shell powder and polyethylene or polypropylene.

The synthetic resin, which is a material of the above-mentioned groups, is washed with distilled water three times or more, dried and powdered, heated at 60 to 70 ° C, and then surface-treated with a surfactant to lower the surface polarity, and polyethylene or polypropylene And 1: 1 ratio. Further, it can be produced by further adding dolomite and activated silica.

As described above, the prefabricated sewage / wastewater treatment apparatus according to the present invention improves the purification efficiency by purifying the sewage and wastewater by filling SM chips containing aerobic and anaerobic bacteria in each tank, thereby minimizing the occurrence of sludge It is possible to simplify the installation and disassembly of the sludge treatment facility by using a prefabricated structure and to simplify the whole construction, thereby making it possible to install the sludge treatment facility in a narrow space and to reduce the maintenance cost, Is made of PE material and mixed with shell powder to increase the efficiency of purification and purification of the purifying microorganism.

While the present invention has been described in connection with certain exemplary embodiments and drawings, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, Various modifications and variations are possible.

10: reverse bleaching 72: intermediate treatment stage
20: SM 1 group 74: Air inflow path
30: SM 2 Article 76: Perforated plate
40: anoxic tank 78: assembly means
50: SM 3 Article 80:
60: lid part 82: lower treatment stage
62: cover 84: house fix
64: inlet pipe 86: perforated metal plate
66: helical coil nozzle 88: discharge part
70: intermediate processing unit 90: discharge pipe

Claims (10)

In the prefabricated wastewater treatment apparatus,
The processing device
A filter ring for removing the sludge in the raw water which is initially introduced, and a reverse tank for performing a primary microbial decomposition by an SM chip packed inside;
SM 1, 2, and 3 which purify the treated water with the microorganisms attached to the SM chip activated by the redox reaction filled in the inside of the treated water treated in the reverse osmosis; And
And an anoxic tank disposed between the SM 2 and SM 3 tanks and filled with SM chips therein, wherein an oxygen-free state is formed therein to treat nitrogen,
The reverse osmosis, SM 1 set, SM 2 set, anoxic set and SM 3 set are composed of a lid unit installed with an inlet pipe and a nozzle to flow raw water and treated water after the pre-treatment process and drop downward;
A plurality of hollows are formed to pass the process water introduced from the lid portion to an intermediate process stage for purifying the process water by filling the SM chip therein and an air inflow path for supplying oxygen into the intermediate process stage, An intermediate processing unit comprising a perforated plate and an assembling means; And
A lower process step for purifying the process water processed in the intermediate process unit by filling the SM chip therein, a water collection process for storing the purified water, and a porous process And a lower processing unit including a metal plate,
The SM chip is made of wood having a surface area of at least 10 m 2 / gr of pores, and the aerobic microorganisms are activated by the oxidation-reduction reaction, the anaerobic microorganisms are activated inside, and the aerobic bacteria and anaerobic bacteria are propagated And the wood is made of porous wood, and the synthetic catalyst is a mixture of alumina, zirconia and silicon carbide in a molar ratio of 2: 1: 1, and the mixture is heat-treated,
The collector is provided with a partition made of porous material on one side thereof and has a discharge part, discharges treated water to a discharge pipe located in the discharge part,
Wherein the discharge part is located at a position lower than the collection well and the partition is made of a hydrophilic polymer membrane selected from a regenerated cellulose, a cellulose acetate (CA) and a polyvinyl alcohol (PVA) which is a porous partition or hydrophilic,
The porous metal plate is made of Inconel metal mixed with nickel, chromium, iron, carbon, and manganese as a porous metal,
Wherein the material of the reverse osmosis, SM 1, 2, 3 and the anoxic tank is made of a synthetic resin produced by mixing shell powder and polyethylene or polypropylene. delete delete delete The method according to claim 1,
Wherein the nozzle is sprayed with raw water and treated water to a lower portion using a helical coil nozzle (spiral nozzle). The method according to claim 1,
Wherein the air inflow path is located above the intermediate processing unit and the lower processing unit, and the air inflow path starting from the outside is formed higher than the internal inflow path to prevent the treated water from being discharged to the outside. The method according to claim 1,
The edges of the intermediate treatment stage and the lower treatment stage on which the assembling means is not provided are disposed in the intermediate treatment stage and the lower treatment stage, And a drain pipe connected to the upper portion of the drain pipe is connected to the drain pipe. delete delete delete

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