KR19990033050U - The Submerged Membrane Separation System equipped with the Clarifier to prevent the Float of Suspended Solids - Google Patents

Abstract

Disclosed is to prevent the solid-liquid separation effect of the membrane unit and to reduce the life of the membrane unit, to shorten the purification time, and to maximize the degree of purification.

In order to realize this, in the present invention, a membrane filtration tank 22 in which raw water in an anaerobic process is introduced and filled under a state in which an air supply action is performed by an aeration means is provided, and elements 14 of each shape are collected. The membrane unit 12 connected to the water pipe 16 and the main water collection pipe 18 is provided in the membrane filtration tank 22 so as to be immersed, and the suction filtration pump 20 is controlled to the main water collection pipe 18. In the membrane separation device is installed so that the incoming raw water can be obtained as the treated water purified according to the solid-liquid separation action, the anti-floating plate forming a pair of inclined pair facing the lower position of the membrane unit 30, 32 (34) and (36) are provided in the bottom of the membrane filtration tank 22 in a plurality of pairs in a state of being spaced apart from the lower intersection portion, and the membrane filtration tank (34) and (36) in the lower position of the lowermost layer 22) At the bottom, a precipitate 38 of sludge is formed, Group needle part (38) and side walls immersion type membrane separation apparatus characterized in that the formed which communicates drain 40, the membrane filtration tank (22).

Description

Submerged Membrane Separation System equipped with the Clarifier to prevent the Float of Suspended Solids}

The present invention relates to an immersion type membrane separation device, and more particularly, an immersion type membrane installed with a suspension plate for preventing suspension of suspension material so that the suspension material generated by solid-liquid separation is not injured in a purification device in which filtration of wastewater is performed by an immersion type filtration unit. It relates to a separation device.

Methods for purifying various wastewater and wastewater include physical treatment methods using screening, sedimentation and sedimentation, flotation, filtration, etc., chemical treatment methods using neutralization, redox, flocculation, adsorption and absorption, and microorganisms. There is a biological treatment method such that the purification treatment is performed according to the culture of.

In particular, in the biological treatment method, as shown in FIG. 1, raw water flowing into the predetermined chamber 2 is filtered by the screen tank 4 and aerated by the diffuser of the aeration means. The raw water filled with) is pumped into the anaerobic tank 6 to release phosphorus from the microorganisms contained in the sewage in the anaerobic tank 6.

In addition, raw water is introduced from the anaerobic tank 6 into the membrane separation device 8 under oil-water separation, and the air supply action by the aeration means in the membrane separation device 8 and the solid-liquid separation action by the membrane unit 12 are contained. The explosive action of the explosive phosphorus by the microorganisms is carried out, and the treated water discharged by the solid-liquid separation by the membrane separation device (8) is sucked by the suction filtration pump (10) to obtain purified water. have.

On the other hand, in the membrane separation device 8, the membrane unit 12 is immersed, as shown in Figure 2, the membrane unit 12 is a flat membrane type as in Figure 3, or as shown in Figure 4 The hollow fiber membrane type thing is employ | adopted.

That is, the membrane unit 12 of the flat membrane type and the hollow fiber membrane type, respectively, the elements 14 of each type are connected to the sub collection pipe 16, the sub collection pipe 16 is connected to the main collection pipe 18. In addition, the suction filtration pump 20 is connected to the main water collecting pipe 18 in a state in which the driving can be controlled and driven so that the treated water obtained through the solid-liquid separation can be sucked out.

On the other hand, the suspension material is attached to the membrane unit 12 of the membrane separation device 8 as a gel cake through the solid-liquid separation process as described above, and in the membrane unit 12 through a separate air or back washing operation The separated suspension is floated in the sludge membrane separator 8.

In addition, sludge and suspended substances are easily floated in the membrane separation device 8 by air washing and backwashing, thereby reducing the solid-liquid separation effect by the membrane unit 12, the operating efficiency of the device, and the recovery rate of the treated water. It is necessary to prevent such sludge injuries.

However, the conventional membrane separation apparatus as described above is not provided with a means for preventing sludge injuries, so that the sludge reduces the solid-liquid separation effect, the operation efficiency of the apparatus, and the recovery rate of the treated water. It also shortens the lifespan, has a disadvantage in that the time required for the purification process is lengthened and the degree of purification is reduced.

The present invention is devised to solve the above-mentioned disadvantages, the object of the present invention is to prevent the effect of the solid-liquid separation effect of the membrane unit and to shorten the life of the membrane unit, short purification The present invention aims to provide an immersion type membrane separation device equipped with a blocking plate for preventing suspended solids in order to take time to process and maximize the degree of purification.

1 is a block diagram showing the configuration of a general wastewater purification apparatus by membrane separation filtration,

Figure 2 is a partial cross-sectional view for showing the configuration of a conventional immersion type membrane separation apparatus,

Figure 3 is a perspective view of a typical flat membrane filter unit,

4 is a perspective view showing a general hollow fiber membrane filtration unit,

Figure 5 is a partial cross-sectional view for showing the configuration of the immersion type membrane separation apparatus according to the present invention.

Explanation of symbols on the main parts of the drawings

10 suction suction pump 12 membrane unit

14 element 16: sub collection pipe

18: main collection pipe 22: membrane filtration tank

26: diffuser 30, 32, 34, 36: floating plate

38: sedimentation part 40: drain

The present invention for realizing this is provided with a membrane filtration tank filled with the raw water in the anaerobic treatment under a state in which the air supply action by the aeration means is made, each element is connected to the secondary collection pipe and the main collection pipe Membrane unit is provided in the membrane filtration tank is immersed in the state, and the suction filtration pump is installed in the main collecting pipe in a controllable state to obtain an inlet raw water as a treated water purified by the solid-liquid separation action in the membrane separation device A plurality of pairs of floating barrier plates in an inclined shape opposed to the lower position of the membrane unit are installed at the bottom of the membrane filtration tank in a state of being spaced apart from the lower crossing portion thereof, A sedimentation part of sludge is formed at the bottom of the membrane filtration tank, and a drain hole communicating with the sedimentation part is formed on the side wall of the membrane filtration tank. Provides an immersion type membrane separation apparatus characterized by a formed.

According to this configuration, in the immersion type membrane separation apparatus according to the present invention, the sludge that has been solid-liquid separated and once settled into the settling portion may be discharged to the outside when the drainage opening is opened, or may be solidified in the form of a cake in the settling portion, once settling The sludge that is negatively deposited is prevented from being floated by the fluid flow action by the flotation block.

Hereinafter, a preferred embodiment of the present invention according to the accompanying drawings will be described in more detail.

One embodiment of the present invention, as shown in Figure 1 under the condition that the raw water flowing into the predetermined chamber (2) is filtered by the screen tank 4 and aerated by the diffuser 26 of the aeration means The present invention relates to a membrane separation device in which a biological method for flowing into an anaerobic tank 6 and thus subjected to anaerobic treatment in the anaerobic tank 6 and then flowing out of the anaerobic tank 6 to perform solid-liquid separation is performed.

That is, the membrane separation apparatus 8 to which the biological method as described above is applied is capable of flowing raw water supplied from the anaerobic tank 6 into the membrane filtration tank 22 of the membrane separation apparatus 8 under an oil-water separation state. In the membrane filtration tank 22 of the membrane separation device 8, the air supply action by the aeration means, the solid-liquid separation action by the membrane unit 12, and the explosive action of the explosive phosphorus component by the contained microorganisms are carried out. This is to be done.

Meanwhile, the treated water discharged by the solid-liquid separation action in the membrane separation device 8 is sucked by the suction filtration pump 10 to obtain purified water, and the membrane filtration tank 22 of the membrane separation device 8 is obtained. The membrane unit 12 provided in an immersion state may be formed as a flat membrane type as shown in FIG. 3, or a hollow fiber membrane type as shown in FIG. 4.

The membrane unit 12 of the flat membrane type and the hollow fiber membrane type is, as in the prior art, each element 14 of each type is connected to the sub collection pipe 16, the sub collection pipe 16 is the main collection pipe 18 The main suction pipe 18 is connected in such a state that the suction suction pump 20 can be controlled and driven to allow suction withdrawal of the treated water obtained through solid-liquid separation.

In addition, as shown in Figure 5, the diffuser 26 of the aeration means is immersed in the membrane filtration tank 22, floating plate 30 in a plurality of layers to the lower position of the membrane unit 12 ( 32, 34, 36 are provided, and the plural layers of anti-flood plates 30, 32, 34, 36 are provided so as to form each pair of forms arranged to be inclined to face each other. It is provided with a plurality of pairs spaced apart from each intersection of the lower side.

In addition, the sedimentation part 38 of the sludge is formed in the lower part of the membrane filtration tank 22 at the lower portion of the floating barrier plate 34, 36, and the drain hole 40 communicating with the sedimentation part 38. Is formed on the side wall of the membrane filtration tank 22.

According to such a structure, in the present invention, sludge once solidified by sedimentation part 38 can be discharged to the outside when the drain opening 40 is opened, and sludge once settled to the sedimentation part 38 is injured. Injury due to fluid flow is prevented by the baffle plates 30, 32, 34, 36.

The membrane separation device according to the present invention, it is possible to prevent the solid-liquid separation effect of the membrane unit is reduced and the life of the membrane unit is shortened, to shorten the purification process time, to maximize the degree of purification There is an advantage.

Claims (1)

The membrane unit is immersed in the membrane filtration tank in which the raw water in the anaerobic state is introduced and filled under the state of supplying air by the aeration means, and the suction filtration pump is installed in the main water collection pipe under control operation. In the membrane separation device to obtain the influent raw water as the purified water according to the solid-liquid separation action, A plurality of pairs of floating barrier plates in an inclined shape opposed to the lower position of the membrane unit are installed at the bottom of the membrane filtration tank in a state of being spaced apart from the lower intersection thereof, The sedimentation part of the sludge is formed at the bottom of the membrane filtration tank to the lower position of the floating plate of the lowermost layer. Immersion type membrane separation device, characterized in that the drain hole communicated with the settling portion is formed on the side wall of the membrane filtration tank.