KR100381059B1 - A sewage disposal plant - Google Patents

Abstract

The present invention relates to a sewage treatment apparatus for the purification of these sewage and wastewater to prevent wastewater pollution by the discharge of wastewater or harmful substances such as industrial wastewater, animal husbandry wastewater, domestic wastewater, and conserve water resources. A sewage treatment apparatus that removes organic matter by filling microorganisms native to the influent sewage without contacting the seed media or nutrients at random by filling jangjang-type contact media in the aeration tank, and then actively purging the feeding activity. will be.

As described above, according to the present invention, a biofilm of anaerobic and aerobic microorganisms is formed in a plurality of long-contact contact media irregularly filled in an aeration tank, and various materials contained in the wastewater by treating the oh and wastewater by coexisting anaerobic and aerobic microorganisms. Since the BOD of the treated water is stabilized to 10 ppm or less, it does not accelerate pollution even when discharged into the stream. In addition, the exfoliation cleaning of the microbial membrane attached to the surface of the long-contact contact medium and the return of the produced sludge can be effectively performed by the air blowing force, so that it can be used without degrading the purification efficiency for a long time without removing the sludge regularly. It has an effect.

Description

Sewage disposal plant

The present invention relates to a sewage treatment apparatus for the purification of these sewage and wastewater to prevent wastewater pollution by the discharge of wastewater or harmful substances such as industrial wastewater, animal husbandry wastewater, domestic wastewater, and conserve water resources. The present invention relates to a sewage treatment apparatus that removes organic matter by filling microorganisms in the influent sewage without feeding any spawning agent or nutrients at random by filling jangjang-type contact media into the aeration tank and then feeding them by growing them.

As a conventional merged treatment manure purification tank (Patent Publication Nos. 93-539 and 93.1.25), it had the structure as shown in FIG. The preliminary filtration chamber 22 in which the first separation chamber 11, the second separation chamber 14, the third separation chamber 15, and the filter are filled in the direction from the inlet 12 of the water to be treated to the outlet 38 thereof. , The first aeration chamber 26, the second aeration chamber 27, the settling chamber 35, and the stabilization tank 36 filled with the filter medium, and the first aeration chamber 26 and the second aeration chamber. Inside the aeration chamber (27), the aeration cylinder (28) located upright in the center of the aeration chamber, a plurality of communication bodies (29) to be filled between the aeration chamber inner wall and the aeration cylinder, and the surface of the communication body (29) Air supply pipe (33) for injecting air for exfoliating excess microbial membrane attached to the back side, and air toward the bottom of the aeration chamber, and sludge of the excess microbial membrane settled in the bottom of the aeration chamber from the air supply pipe The sludge conveyance piping 34 for conveying into the 1st separation chamber by the air lift pump action | operated by the air used is provided. However, there is a problem in that the air circulation is not smooth because the entire aeration method is performed by the aeration cylinder 28 located in the aeration chamber center.

In addition, a medium (3cm in diameter and 5cm in length) is used to make microorganisms in the aeration chamber with holes in the bottom of the Yakult container. There was a problem that it is difficult to achieve effective purification because the treatment efficiency by the microorganism is not easy to attach the microorganism inside the communication.

The present invention has been devised based on the above facts, and an object of the present invention is to aeration through the lower end of the mesh aeration tank (73) penetrating up and down the fixing table (stainless net) 77 installed above and below the aeration chamber As shown in the drawing, the line 78 has a long, contact-type contact material made of polyethylene material having a length of 9 cm, an outer diameter of 4 cm, and a central diameter of 2.5 cm in order to increase the air circulation effect and increase the treatment effect by microorganisms in the aeration chamber. It is to provide a sewage treatment apparatus to maximize the treatment efficiency by propagation of anaerobic microorganisms and aerobic microorganisms by filling (74) irregularly on the aeration chamber (stainless net) (77).

Figure 1 shows the long-term contact medium (Hanseong MEDIA 900) that is a feature of the present invention.

Figure 2 is a top plan view of the sewage treatment apparatus according to an embodiment of the present invention.

3 is a bottom plan view of a sewage treatment apparatus according to an embodiment of the present invention.

4 is a state diagram showing an aeration tank state of the sewage treatment apparatus according to an embodiment of the present invention.

Figure 5 shows the sewage treatment system using the present invention.

6 shows a sewage treatment material resin map according to the present invention.

7 is a cross-sectional explanatory view showing a conventional manure septic tank.

<Description of the symbols for the main parts of the drawings>

50: flow rate adjustment tank or sedimentation separation tank 51: first aeration tank

52: second aeration tank 53: sedimentation tank

54: defoaming tank 55: discharge tank

56: sludge concentration tank 57: air supply or oxygen generator

58: screen tank 59: flow control pump

60: air line 61: parcel line

62: defoaming pump 63: discharge pump

64: flow adjustment tank diffuser facility 65: water flow pipe

66: porous tube 67: rectifying tube

68: rectifier 69: overflowware

70: reverse chain line 71: conveying line

72: flow preventing plate 73: aeration container

74: contact medium (Hansung MEDIA 900) 75: sludge tank

76: inclined plate 77: holder

78: aeration line

In order to achieve the above object, the present invention provides a screen tank 58 for filtering the introduced sewage once, a flow rate adjusting tank for constantly adjusting and sedimenting the flow rate of the primary filtered sewage from the screen bath 58 or Sedimentation separation tank (50), flow adjustment tank diffuser facility (64), water flow pipe (65) for introducing the sewage flowing into the aeration tank from the flow adjustment tank or sedimentation separation tank (50), the flow adjustment tank or sedimentation separation tank 50, followed by a first aeration tank 51, a second aeration tank 52 provided subsequent to the first aeration tank 51, a plurality of irregularly filled on the fixed stage (stainless net) 77 provided above and below the aeration tank The contact filter 74 of polyethylene, the contact filter 74 is a long-hitting shape in the form of a hole in the left and right form a permanent housing facility of microorganisms, it is filled irregularly to have a large surface area, The microorganisms produced are multiplied in the aeration tank depending on the amount of air and the degree of decay.

The net aeration tank 73 which penetrates up and down the fixing bar (stainless steel net) 77 installed above and below the aeration tank and supplies dissolved oxygen while dropping onto the water flow surface of the aeration tank, and at the lower end of the net aeration tank 73. Is installed is connected to the aeration line 78, the conveying line 71 to blow the air from the bottom to circulate the air to generate an upward flow toward the upper portion of the aeration vessel 73 and to deliver air for sludge conveyance An air supply or oxygen generator 57 for supplying air or oxygen to the air line 60, the aeration line 78 and the air line 60, using the air injected from the air line 60 and air lift A conveying line 71 for returning the sludge of the microbial membrane deposited in the inner bottom sludge tank 75 of the aeration tank to the sludge concentration storage tank 56 and the flow rate adjustment tank or the sedimentation separation tank 50 using the principle of the pump, the first Aeration tank 51 and the second Sludge concentration storage tank 56 for collecting and collecting the sludge conveyed from the aeration tank 52, a porous pipe 66 installed in the lower part of the aeration tank to provide air for washing in the aeration tank, and the aeration tank Air for washing the transport is installed on the back chain line 70, which is connected to the porous tube 66, the upper of the mesh aeration tank 73 to control the flow of rising water in the aeration tank and fall back to the aeration tank Water flow prevention plate 72, the sludge tank 75 to collect the sludge, the inclined plate 76 installed to be inclined to collect the sludge easily, the sedimentation tank 53 to remove the SS (floating material) by gravity sediment, the sedimentation tank A rectification pipe (67) installed in the tank (53) and introducing sewage from the aeration tank to the rectification tank (68), a rectification tank (68) for leaving the sewage introduced from the aeration tank, and the water purified by the settling tank (53). With parcel tank (54) Wakeware 69 to be moved, defoaming tank 54 installed next to the settling tank 53, defoaming line 61 for allowing the water purified in the defoaming tank 54 to move to the aeration tank, and as necessary for the spraying of the aeration tank A defoaming pump 62 for sending purified water to the aeration tank and allowing the rest to flow into the discharge tank 55, a discharge tank 55 for discharging the completely purified water to the stream, and a discharge pump for discharging the purified water ( 63).

Hereinafter, a sewage treatment apparatus according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

Figure 1 illustrates a long contact contact material which is a feature of the present invention. Figure 2 is a top plan view of the sewage treatment apparatus according to an embodiment of the present invention. 3 is a bottom plan view of a sewage treatment apparatus according to an embodiment of the present invention. 4 is a state diagram showing an aeration tank state of the sewage treatment apparatus according to an embodiment of the present invention. Figure 5 shows the sewage treatment system using the present invention. 6 shows a sewage treatment material resin map according to the present invention. 7 is a cross-sectional explanatory view showing a conventional manure septic tank.

As shown in Figs. 1 to 2 to 4, the introduced sewage first passes through the screen tank 58, which is primarily filtered once upon passing, and then the primary filtration in the flow adjusting tank or the sedimentation separation tank 50. Adjusting and sedimenting the flow rate of the sewage, the water flow pipe 65 is introduced into the aeration tank sewage to the lower portion of the tank, the fixed stage (stainless net installed in the upper and lower in the first aeration tank 51 and the second aeration tank 52) The microbial membrane attached to the long-contact contact medium 74 that is irregularly filled in) 77 periodically stops aeration and sprays air from the backbone line 70 from the bottom of the long-term contact medium 74 packing layer. As a result, the excess microbial membrane adhered to the surface of the long-term contact medium 74 is peeled off and collected in the sludge tank 75, and the sludge of the microbial membrane collected in the sludge tank 75 is air by the conveying line 71 and the air blowing force. Lift pump It is conveyed to the sludge concentration storage tank 56 by the effect of. The treated water by the first aeration tank 51 and the second aeration tank 52 is moved to a settling tank 53 which gravityly precipitates the slurry to remove SS (floating matter), and in the defoaming tank 54, the settling tank 53. Purified water which has been moved from is used for the spraying of the aeration tank by the defoaming line 61, the rest is introduced into the discharge tank 55, and the purified water is discharged by the discharge pump 63.

The influent sewage contains about 200 mg / l of BOD and about 200 mg / l of SS (floating material), which is first filtered through the screen bath, and the amount of BOD and SS (floating material) is 180 mg / l. L, reduced to 180 mg / L. The sewage that passed through the screen tank was removed about 40% of the amount of BOD and SS (floating material) in the flow adjusting tank and sedimentation separation tank, so that the amount of BOD and SS (floating material) was 120mg / l and 120mg / l, respectively. Is reduced to the first aeration tank. BOD and SS (floating materials) of sewage introduced into the first aeration tank are reduced by about 70% by passing through contact media (Hansung MEDIA 900), so the amounts of BOD and SS (floating materials) are 36 mg / l and 36 mg / ℓ becomes. In the first aeration tank, the tank is further subdivided according to the flow rate of the sewage to be continuously treated. In the next step, the influent sewage treated in the first aeration tank is introduced into the second aeration tank, and the amount of BOD and SS (floating material) of the sewage introduced from the first aeration tank is removed by about 70% and the amount of BOD and SS is 10.8 mg, respectively. / l, 10.8 mg / l is introduced into the settling tank. In the sedimentation tank, sludge was gravity-sedimented to remove SS (floating matter), resulting in BOD 6.4mg / l and SS (floating matter) 4.6mg / l, and the sewage passed through the sedimentation tank was transferred to the defoaming tank and BOD 6.0mg / l, SS (Floating matter) It becomes 2.7 mg / L. The purified water in the defoaming tanks is used for the aeration of the aeration tanks and the remainder flows into the discharge tanks. In the discharge tank, BOD is 5.92mg / l and SS (floating material) is 2.00mg / l. Through this process, fully purified water is discharged to the stream to preserve the aquatic environment.

The present invention achieves such a good result by using an elongated contact medium to increase the microbial adhesion area of the contact medium, increase the water turning efficiency, and increase the optimum of the pores of the contact filter medium. In addition, it is because the aeration line 78 is provided in the lower portion of the mesh aeration tank 73 to facilitate the smooth circulation of the sewage in the aeration tank and the air circulation. Therefore, the sewage treatment apparatus which produces | generates a floating material with little generation | occurrence | production, and aerobic decomposition is efficient efficiently can be provided.

As described above, the present invention is the screen tank 58, the flow adjustment tank and the sedimentation separation tank 50, the first aeration tank 51, the second aeration tank 52, the defoaming tank in the direction of the discharge portion from the inflow portion of the water to be treated. (54), sedimentation tank (53), sludge concentration storage tank (56), discharge tank (55), and in the first aeration tank (51) and the second aeration tank (52), a fixed stand installed in the upper and lower parts of the aeration tank; (Stainless net) 77 is filled irregularly, and the filthy water characterized by having a plurality of contact media 74 made of a high density polyethylene material having a long diameter of a central portion smaller than the entrance to the filthy water It is a processing device.

The long-term contact medium filled in the sewage treatment apparatus of the present invention is filled irregularly (about 5,000-6,000 pieces in a volume of 1㎥) so that the flow of water flowing therebetween has various directions and speeds and the oxygen inside the aeration tank. The concentration distribution is also rich in change and easy to attach microorganisms. In addition, the sludge in the sludge tank can be conveyed to the flow rate adjustment tank through the conveying line on a regular basis, so that little sludge is generated, so maintenance is easy. The present invention is very simple to maintain the sedimentation of sludge, the treated water can be reused for washing, garden sprinkling, flush toilet, multi-purpose cleaning, fountain.

As described above, according to the present invention, a biofilm of anaerobic and aerobic microorganisms is formed in a plurality of long-contact contact media irregularly filled in an aeration tank, and various materials contained in the wastewater by treating the oh and wastewater by coexisting anaerobic and aerobic microorganisms. Since the BOD of the treated water is stabilized to 10 ppm or less, it does not accelerate pollution even when discharged into the stream. In addition, there is no clogging due to dispersing air from the lower part to the upper direction, and there is no need to add sludge, and it is also possible to effectively and regularly remove and convey the microbial film attached to the surface of the contact medium by air blowing force. Therefore, there is an effect that can be used without lowering the purification efficiency over a long period of time.

While the invention has been shown and described with reference to certain preferred embodiments, the invention is not limited to the embodiments described above, and various modifications may be made by those skilled in the art to which the invention pertains. Could be.

Claims (3)

Screen tank 58 for firstly filtering the introduced sewage, flow rate adjustment tank or sedimentation separation tank 50 for uniformly adjusting and sedimenting the flow rate of the primary filtered sewage from the screen tank 58, flow rate adjustment tank diffuser facility (64), the first aeration tank (51) installed after the water flow pipe (65) for introducing the sewage flowing into the aeration tank from the flow rate adjustment tank or the sedimentation separation tank (50), and the flow rate adjustment tank or the precipitation separation tank (50). ), The second aeration tank 52 provided after the first aeration tank 51, and a total length made of a plurality of high density polyethylene resins irregularly filled in the fixed stand (stainless steel net) 77 installed above and below the aeration tank is 8-10 Cm, outer diameter of 3.5-4.5cm, center diameter of 2.0-3.0cm, long and long contact media (74), and aeration tanks (stainless steel nets) 77 installed above and below the aeration tank up and down, the flow of aeration tank Dragon while freezing on the surface Reticulated aeration tank (73) for supplying the oxygen, which is installed at the lower end of the aeration tank (73) is blown air from the bottom to circulate the air to generate an upward flow toward the top of the aeration tank (73) Air line 60 is connected to the aeration line 78, the conveying line 71 to transfer the air for sludge conveyance, the aeration line 78 and the air line 60, the backing line 70 Alternatively, the microbial membrane precipitated in the inner bottom sludge tank 75 of the aeration tank using an air supply or oxygen generator 57 for supplying oxygen or air injected from the air line 60 and using the principle of an air lift pump. The sludge conveyed from the sludge concentration storage tank 56 and the flow rate adjusting tank or the sedimentation separation tank 50, the first aeration tank 51 and the second aeration tank 52 is concentrated and collected. Sludge concentration storage tank 56, installed in the lower part of the aeration tank The perforated pipe 66 having a plurality of holes to provide air for cleaning in the aeration tank, the backlash line 70 carrying air for cleaning the aeration tank and connected to the porous pipe 66, It is installed on the upper part of the reticulated aeration tank (73) to control the flow of the upstream flow in the aeration tank, and the flow prevention plate 72 to drop back to the aeration tank, the sludge tank 75 to collect the sludge, installed slanted so that the sludge is easily collected Inclined plate 76, sedimentation tank 53 for gravity sedimentation of sludge to remove SS (floating matter), rectification pipe 67 is installed in the sedimentation tank 53 and introduces sewage from the aeration tank into the rectification tank 68, A defoaming tank 68 installed to rectify the sewage flowed from the aeration tank, a overflowware 69 for moving the purified water from the sedimentation tank 53 to the defoaming tank 54, and a defoaming tank installed after the sedimentation tank 53 ( 54) purged from the defoaming tank 54 A defoaming line 61 to allow the water to move to the aeration tank, a defoaming pump 62 to send the purified water as necessary for the aeration of the aeration tank to the aeration tank, and the rest to be introduced into the discharge tank 55, and a stream of completely purified water. Discharge tank 55 for discharging to the water, sewage treatment apparatus by the microorganism, characterized in that consisting of a discharge pump (63) for discharging the purified water. delete delete