KR200185060Y1 - Solid-liquid separator for biological treatment of wastewater using microsieve - Google Patents

Abstract

The present invention relates to a solid-liquid separator for biological treatment of contaminated sewage or wastewater, and particularly, a solid-liquid separator consisting of a solid-liquid separator in which a plurality of microsieves are integrally installed in a biological treatment reactor is mixed with a solid state and a liquid state. It relates to a solid-liquid separation device for biological treatment of wastewater using a microsieve, characterized in that the solids in a solid state can be effectively separated into a solid microorganism (sludge) and a liquid supernatant.

Conventional solid-liquid separators use membranes to separate the sludge and the supernatant, and as the number of days of operation elapses, extreme closure occurs due to contamination of the membrane, and the flux decreases. Or, if severe, the membrane should be replaced.

The present invention is not a gravity sedimentation basin that separates solids through natural sedimentation when treating sewage, livestock waste and leachate using aerobic, anaerobic or random microorganisms. By using sieves and adopting continuous air cleaning and intermittent backwashing instead of conventional air cleaning and chemical cleaning methods, sludges (microorganisms) and supernatants can be efficiently separated without clogging and chemicals are not used. Therefore, it saves drug consumption and prevents concentrated waste from chemical cleaning.

Description

Solid-liquid separator for biological treatment of wastewater using microsieve {.}

The present invention relates to a solid-liquid separator for biological treatment of contaminated sewage or wastewater, and in particular, by installing a solid-liquid separator consisting of a solid-liquid separator in which a plurality of microsieves are integrally formed in a biological reactor, The present invention relates to a solid-liquid separation device for biological treatment of wastewater using microsieve, characterized in that the supernatant in a liquid state can be effectively separated.

Conventional wastewater, livestock wastewater and leachate treatment systems are sedimentation rate is very slow because the sedimentation of the microorganisms (sludge) and supernatant by sedimentation of the wastewater and the area of the sedimentation basin large enough to treat a certain amount of wastewater Due to the separation of solids using sedimentation basin, the required land area is large and the solids separation efficiency is unstable according to the operating conditions, and there is a disadvantage in that the reactor microorganism (sludge) cannot be maintained at a high concentration.

In addition, the conventional solid-liquid separation device for biological treatment using a membrane (membrane) rather than the general gravity sedimentation basin, there are immersion type and external tooth type, there is also a precision filter and an ultrafilter in the immersion type, there is a precision filter and an ultrafilter in the external type. In case of immersion type, filter is installed in aeration tank to separate permeate by forming permeated water quantity (Flux) by using vacuum pump.In case of external type, it installs filter outside aeration tank to force circulation of mixed liquid in aeration tank at high speed and vacuum. The liquid is separated by forming a flux using a pump. In the case of the external type of the conventional method, by forcibly circulating the mixed liquid in the aeration tank at high speed, not only energy consumption is excessive, but also the sludge floc is destroyed and refined, so that the efficiency of removing contaminants in the aeration tank is reduced and dehydration when dewatering the sludge is performed. There was a weakness.

In general, the solid-liquid separator is a solid microorganism (sludge) and a liquid supernatant constituting the waste water is called the solid-liquid, the conventional solid-liquid separator is used to separate the sludge and the supernatant by using a membrane, Increasing fouling of the membrane resulted in severe closure, reducing the flux, requiring frequent cleaning with chemicals or, if severe, membrane replacement. These phenomena include soluble minerals such as Ca ⁺² , Mg ⁺² , CO ₂ ^-2 , SO ₄ ^-2 , Silica, Fe ⁺² , and humic acids, fulvic acids, polysaccharides, proteins, DNA, antibiotics, steroids, It is further accelerated by biological metabolism such as enzymes.

In addition, when the membrane is applied to the biological treatment system, the membrane blocks the biometabolism, so that the biometabolism does not move out of the reactor and accumulates in the bioreactor, and metabolism that is not finally biodegradable through metabolism. It exists as a substance.

The purpose of the present invention is to use microsieve instead of the conventional membrane in the treatment of sewage, livestock waste and leachate using aerobic, anaerobic or random microorganisms, and continuous washing by air instead of conventional air cleaning and chemical cleaning methods. By adopting the intermittent backwash method, it effectively separates microorganisms (sludge) and supernatant liquid without clogging phenomenon and saves consumption of chemicals and does not generate concentrated waste liquid due to chemical cleaning because no chemicals are used.

In addition, the device of the present invention reduces the land area by replacing the conventional gravity sedimentation settling tank by natural sedimentation, and by retaining a large amount of microorganisms in the biological reactor, the volume of the required reaction tank is reduced and the operation of the reactor is easy, In addition to maintaining a low concentration of suspended solids, it is to provide an immersion type microsieve solid-liquid separation device that can save energy and prevent microbial flocculation.

In addition, by using the device of the present invention to provide a biological system for efficiently removing organic matter and nutrients (nitrogen and phosphorus), such as sewage, livestock wastewater and leachate.

1 is a block diagram of a solid-liquid separation device for biological treatment of wastewater using the microsieve of the present invention

Figure 2 is a perspective view of the solid-liquid separator of the present invention

Figure 3 is a detailed coupling of the solid-liquid separator of the present invention

4 is an explanatory view showing a state in which the internal / external diffuser is installed on the solid-liquid separator of the present invention

Figure 5 is an embodiment installed the microsieve solid-liquid separation device of the present invention in the aerobic tank

Figure 6 is an embodiment of installing the microsieve solid-liquid separator of the present invention in the degassing tank

*** Explanation of main parts of drawing ***

100; Biological treatment reactor

200; Solid-liquid separator

210; Solid-liquid separator

211; Icroxive

212; Treatment water withdrawal pipe

222; Connector

260; Foreign Industry

270; Internal Acid Engine

Referring to the configuration and operation of the present invention in more detail by the accompanying drawings as follows. 1 relates to a schematic diagram of a solid-liquid separator for biological treatment of wastewater using the microsieve of the present invention, and when the solid-liquid separator 200 is installed in the biological treatment reactor 100, the wastewater flows in the A direction. When wastewater flows in, a blower 101 is operated to inject external air through the supply pipe 104. The external air supplied through the blower 101 is supplied with an electric valve 102 for supplying air to the external diffuser 260, and an external air through an electric valve 103 for supplying air to the internal diffuser 270. It supplies and supplies external air to the external acid pipe 260 and the internal acid pipe 270 of the solid-liquid separator 200 via the supply pipes 105 and 106. The controller 107 connects the electric valves 102 and 103, the pressure gauge 109, the vacuum pump 108 and the flow rate sensor 110 along the control lines 111, 112, 113, 114 and 115. It detects and controls flow rate, water level and pressure. The supernatant separated from the microorganism (sludge) in the solid-liquid separator 200 is discharged through the discharge pipe 116.

Figure 2 shows a perspective view of a solid-liquid separator of the present invention, Figure 3 shows a state diagram of the solid-liquid separator of the present invention, Figure 4 shows a state in which the internal / external diffuser is coupled to the solid-liquid separator of the present invention 2 and 3 and 4 to explain the configuration and operation of the present invention in detail, the solid-liquid separator 200 is composed of a plurality of solid-liquid separator 210, solid-liquid separator ( 210 is made of a front plate 216 and a back plate 217 integrally formed with a mesh-like micro sieve 211 is coupled to the coupling protrusion 214 and the coupling groove 215. The solid-liquid separator 210 is formed to protrude to the outside while the treatment water extraction pipe 212 is formed long inward. In the upper center of the solid-liquid separator 210, a treated water discharge pipe 220 having a treated water outlet 221 is provided. The treated water outlet pipe 212 and the treated water outlet 221 are connected to the connecting pipe 222. The front frame 280 is formed with a support 204 on the lower side, the upper side is formed with a traction clasp 201 for use when moving. In addition, the upper and lower left and right to form a coupling piece 251 is coupled to the coupling piece 213 formed integrally with the solid-liquid separator 21 by using the coupling rod 250, the solid-liquid separator plate 210 front and rear frame ( 280) and 290 to complete the solid-liquid separation device.

On the lower surface of the solid-liquid separator 200, a washing air supply pipe 230 is installed to supply air to the external acid pipe 260, and a back washing air supply pipe 240 is installed at the side to the internal acid pipe 270. Supply the air to be supplied. The internal acid pipe 270 is searched on the inner lower portion of the solid-liquid separator plate 10210, and the external acid pipe 260 is installed outside the solid-liquid separator plate 210 to be installed between each solid-liquid separator plate 210. .

The action of the solid-liquid separator 200 of the present invention having such a configuration is that when the wastewater flows in, the microsieve 211 of the solid-liquid separator tube 210 in which the microsieve 211 is integrally formed is a microorganism in the solid state in the wastewater (sludge). ) Does not pass through the microsieve 211 and passes only the supernatant that is filtered and liquid. Since the microsieve 211 is used here, since the biological metabolic component generated when the membrane is used is not adsorbed, the blockage phenomenon caused by the conventional biological metabolic component can be minimized. The supernatant that has passed through the microsieve 211 is introduced into the treatment water outlet 22l through the connection pipe 222 through the treatment water outlet pipe 212 by operating the vacuum pump 108. Is discharged to the outside of the reactor.

In order to prevent the cake phenomenon of the microorganisms (sludge) generated by the waste water is adsorbed on the surface of the micro sieve 211 of the solid-liquid separation tube 210, the waste water is installed between each solid-liquid separator 210 High pressure external air is supplied to the internal acid pipe 270 installed inside the Busan engine 260 and the solid-liquid separator 210 so that the vertical air is vertically fed through the external acid pipe 260 and the internal acid pipe 270. By changing the flow of waste water flowing in only one direction by spouting, cross flow occurs and the waste water rotates to become turbulent and effectively removes the causative substances such as sludge adsorbed to the micro sieve 211, and the micro sieve ( The cause of the closure attached to 211) is backwashed and cleaned more effectively. Therefore, the wastewater passes through a plurality of solid-liquid separators 210 in which the microsieve 211 is integrally formed, and microorganisms (sludge), which is a solid component of the wastewater, are removed and the supernatant liquid, which is a liquid, is effectively separated and discharged. The material of the micro sieve 211 is made of stainless steel, polyvinyl chloride, polypropylethylene, polyethylene, and the like, and is used according to the properties of the supernatant to be separated from the solid solution.

5 is an embodiment in which the microsieve solid-liquid separator of the present invention is installed in an aerobic tank, and the microsieve solid-liquid separator 200 is installed in the aerobic tank 300, and an anaerobic tank 302 is installed in front of the anaerobic tank 301 for the sludge mixture. It was shown by exemplifying that a system for removing organic matter, nitrogen and phosphorus by returning from the aerobic tank 300 to the anoxic tank 301 and the anaerobic tank 302 can be configured. Sewage or wastewater introduced in the A direction is acid-fermented in the anaerobic tank 302 to generate an organic acid to release the phosphorus (P) accumulated in the microorganism, and in the case of the subsequent anoxic tank 3010 returned from the aerobic tank 300 It reduces the oxidative nitrogen contained in nitric oxide to nitrogen gas and releases it into the atmosphere. In addition, the subsequent aerobic tank 300 oxidizes organic matter oxidation and ammonia nitrogen to oxidative nitrogen, and a large amount of phosphorus is ingested by the microorganism. The treated water of the aerobic tank 300 is returned to the anaerobic tank 3010 and the anaerobic tank 302, withdraw the microorganisms in the aerobic tank 300 by a predetermined amount in the C direction and installed in the aerobic tank 300 as a part of the treated water, that is, the amount of the inflow The solid state and the liquid state are separated through the microsieve solid-liquid separator 200, and the treated water, which is liquid, flows out in the B direction.

Figure 6 is a microsheave solid-liquid separator of the present invention is installed in a degassing tank microsieve solid-liquid separator 200 is installed in the degassing tank 305 is installed for the purpose of degassing and anoxic tank for total denitrification (303) And after anoxic tank 304 for denitrification were installed before and after the aerobic tank 300, respectively.

Therefore, the sludge mixed liquid is recycled from the aeration tank 300 to the anoxic tank 303 for denitrification, and the sludge mixed liquid of the degassing tank 305 provided with the microsieve solid-liquid separator 200 is returned to the anoxic tank 304 for denitrification. It is composed of a system, and when removing high concentration nitrogen, it is possible to maintain high microbial concentration in the system to remove oxidative nitrogen remaining in the anoxic tank 303 for denitrification without being removed in the anoxic tank 303 for denitrification. As a result, the area required for constructing the device is small, and the processing is stable. Sewage and wastewater introduced in the A direction flows to the total denitrification tank 303, the aeration tank 300, the rear denitrification tank 304, and the degassing tank 305, and the microsieve solid-liquid separator installed in the degassing tank 305. The solid-liquid separated liquid through the 200 is discharged in the B direction, and the microorganisms in the degassing tank 305 are withdrawn by the predetermined amount in the C direction.

The solid-liquid separation device for biological treatment of wastewater using the microsieve of the present invention can reduce the installation area and the installation cost than when using a sedimentation tank, and solid-liquid separation by combining a plurality of solid-liquid separators integrating the microsieve instead of the membrane. By constituting the device, it is possible to separate the microorganisms (sludge) and the supernatant of the waste water without clogging, and the system is integrated, which is very convenient for the operation and stable treatment of the high liquid basin.

Claims (1)

In the solid-liquid separation device of the biological treatment system that separates the solid microorganism (sludge) in the contaminated wastewater and the supernatant liquid in the liquid state, the internal acid engine is installed inside the plurality of solid-liquid separator plate integrally formed with microsieve An external acid pipe is installed between each solid-liquid separator to discharge high-pressure micro air through the acid pipe, so that the wastewater cross flows, so that it is possible to effectively remove deposits such as sludge attached to the microsieve. Solid-liquid separation device for biological treatment of wastewater using a microsieve.