KR20140093444A - Apparatus for Equally Distributing and Supplying Floc Sludge - Google Patents

Abstract

An apparatus (200) for equally distributing and supplying coagulated sludge according to the present invention comprises: a flow pipe (210) including a flow path having one side and the other side intercommunicating with a coagulating mixture tank (300), and a plurality of intercommunicating holes which intercommunicate with a plurality of dehydrators (400), respectively, along the flow path; and a coagulated sludge flowing device (220) installed along the flow pipe to equally distribute and supply the coagulated sludge, which has been coagulated in the coagulating mixture tank, to the dehydrators via the intercommunicating holes while flowing the coagulated sludge along the flow pipe. The present invention improves work efficiency and performance efficiency by equally distributing the coagulated sludge, which has been coagulated in one coagulating mixture tank, into the dehydrators and conducting a following process.

Description

[0001] Apparatus for Equal Distribution and Supplying Floc Sludge [

The present invention relates to an apparatus for uniformly distributing flocculating sludge, and more particularly, to an apparatus and method for uniformly distributing flocculating sludge, which is capable of uniformly distributing flocculating sludge coagulated in one coagulating bath to a plurality of dehydrators, To a dispensing feeder.

As the amount of wastewater increases year by year, pollution problems of the surrounding environment are seriously arising, and various efforts are being made to effectively treat industrial wastewater.

In general, the physico-chemical wastewater treatment technology is used for the treatment of heavy industrial wastewater containing heavy metals, where the contaminants are deposited in the form of sludge and transferred to the sludge tank, and the purified water is discharged. On the other hand, the generated sludge is separated from water by various chemicals or polymer flocculants, and the heavy metal-containing sludge generated at this time is dewatered by various dewatering devices, and then the cake is dried to be buried or incinerated, and the desorbing liquid is subjected to biological treatment and physical / .

On the other hand, in the case of a sewage treatment plant, which is a representative facility of biological treatment methods, the BOD concentration of sewage introduced into the sewage treatment plant is increased due to the improvement of the living standard, so that the concentration of the microorganisms in the sludge becomes higher and the sedimentability of the sludge deteriorates. In addition, since sewage pipes are replaced with sewage pipes through which sewage and sewage are separated from the pipes in which the existing stormwater and sewage are simultaneously introduced, the concentration of the inorganic solid in the sludge is reduced and the sedimentation property is lowered have. As a result, the deterioration of the performance of the dehydrator and the deterioration of the performance of the digester (sludge reducing device) are caused by the concentration of the sludge in the existing sewage treatment plant in operation.

1 is a block diagram of a general sludge treatment system. 1, in a general sludge treatment system, a supernatant liquid separated by a specific gravity difference between solid and liquid in a sedimentation tank 110 is flowed over and discharged, and the precipitated solids are pumped by the first pump 111 1 transfer pipe 112 to the sludge storage tank 120. At this time, the precipitate solid transferred to the sludge storage tank 120 is severely changed depending on the temperature, concentration, season, number of times of extraction, and the like.

On the other hand, the sludge stored in the sludge storage tank 120 is transferred to the coagulation / mixing tank 130 through the second transfer pipe 122 by the pumping action of the second pump 121. Separately, a flocculant to be dispensed to separate water from the sludge is dissolved by the agitator 141 in the coagulant dissolution tank 140, and then pumped through the third conveyance pipe 143 by the pumping action of the third pump 142 And is conveyed to the coagulating and mixing tank 130. The sludge and the coagulant solution which have been transferred to the coagulation admixture tank 130 are introduced into the sludge concentration apparatus 131. The sludge and the flocculant are stirred and mixed according to the operation of the sludge concentration apparatus 131, . The thus formed flocs are transferred to and discharged from the dehydrator 150 through the fourth conveyance pipe 132 and the desorbed liquid separated from the sludge concentration apparatus 131 is discharged through the flow rate adjusting tank transfer piping 133. At this time, in order to stably operate and automate the dehydrator 150, it is preferable that the coagulated sludge flowing into the dehydrator 150 is as uniform as possible in the coagulating bath 130, It is necessary.

However, the dosage of the flocculant suitable for the sludge transferred to the coagulation admixture tank 130 depends on the concentration of the sludge, the temperature, the change in particle size of the precipitated sludge depending on the season, the microorganism's active state in the case of microorganism precipitation, It is difficult to control it appropriately due to various variables such as temperature, The concentration of the sludge transferred to the sludge storage tank 120 varies due to various reasons such as the number of times of withdrawing the settled sludge from the settler 110 and the state of the settler 110 depending on the season, The concentration of the sludge in the dehydrator 150 which is flocculated (flocculated) in the dehydrator 130 is so severe that the performance of the dehydrator 150 deteriorates and the operation of the dehydrator 150 becomes difficult.

Conventionally, as shown in FIG. 2, the coagulation admixture tank 130 and the dehydrator 150 are operated in a state of being matched at a ratio of 1: 1. That is, the sludge agglomerated in the coagulating bath 130 matched to each other is put into the dehydrator 150 to process the subsequent process. However, due to various reasons as described above, the concentration of the sludge transferred to the sludge storage tank 120 is changed, and accordingly, the most suitable amount of coagulant for the sludge transferred to the coagulating bath 130 is to be administered. There are many difficulties. However, since such work must be carried out for each coagulation admixture tank 130 and put into the dehydrator 150, it is not only difficult to work, but also the efficiency and performance of the operation such as a difference in dehydration rate for each dehydrator 150 There is a problem in that the efficiency is low.

SUMMARY OF THE INVENTION Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art, and it is an object of the present invention to provide a coagulant- And to provide an even distribution and feeding device for agglomerated sludge which improves the efficiency of the performance.

In order to achieve the above object, the present invention provides an apparatus for uniformly distributing flocculating sludge, comprising: a plurality of communication ports communicating with a plurality of dehydrators along a flow path having one side and the other side communicating with an agglomeration tank; And a flocculation sludge flow unit installed along the flow pipe to flocculate the flocculated sludge coagulated in the flocculation and mixing tank and to distribute the same to the plurality of dehydrators through the plurality of communication holes .

According to the present invention, the flocculation sludge flow means includes a conveyor belt disposed along the longitudinal direction of the lower end of the flow pipe, and a motor for providing power for circulatingly driving the conveyor belt.

In addition, according to the present invention, the conveyor belt is installed so as to circulate and rotate in the flow tube in a state in which the rotation axis thereof is rotatably supported by the flow tube, and the motor, which is coupled to the rotation shaft, And is rotatably driven by rotation.

According to the present invention, the flocculation sludge flow means includes a non-contiguous screw provided along the longitudinal direction of the inside of the flow tube, and a motor for providing power for rotationally driving the non-contiguous screw.

The present invention has the advantage of improving the efficiency of the operation and the efficiency of the performance by uniformly distributing the flocculated sludge agglomerated in one coagulating bath to a plurality of dehydrators to carry out a subsequent process.

1 is a schematic view of a general sludge treatment system,
FIG. 2 is a conceptual view of feeding the flocculating sludge according to the prior art,
3 is a conceptual view of the supply of flocculated sludge according to the present invention,
FIG. 4 is a conceptual diagram of a uniform distribution and supply device for agglomerated sludge according to an embodiment of the present invention.

Best Mode for Carrying Out the Invention Hereinafter, preferred embodiments of a uniform distribution and supply device of flocculated sludge according to the present invention will be described in detail with reference to the accompanying drawings.

3 is a conceptual view of the supply of flocculated sludge according to the present invention. As shown in Fig. 3, the present invention is constructed so that the sludge agglomerated in one coagulation admixture tank is uniformly distributed to a plurality of dehydrators to perform a subsequent process. That is, in the present invention, the sludge and coagulant transferred from the sludge storage tank and the flocculant dissolving tank are mixed in one coagulation bath to form a floc, and the floched (coagulated) sludge thus formed is mixed with the equal And a plurality of dehydrators are equally distributed and supplied by using a distribution supply device to perform a subsequent process.

FIG. 4 is a conceptual diagram of a uniform distribution and supply device for agglomerated sludge according to an embodiment of the present invention. As shown in FIG. 4, the apparatus for uniformly distributing flocculating sludge according to this embodiment is constituted such that the flocculated sludge in one coagulating bath is uniformly distributed to a plurality of dehydrators. That is, the supply device 200 of this embodiment has a flow path communicating with the coagulation admixture tank 300 at one side and the other side, and a plurality of communication holes (not shown) communicating with the plurality of dehydrators 400 along the flow path (Not shown), and flocculation sludge formed along the flow pipe 210 and formed in the flocculation and mixing tank 300 flows along the flow pipe 210, and a plurality of dehydrators (not shown) 400 so as to be uniformly distributed.

The flow pipe 210 provides a flow path through which the agglomerated sludge formed in the coagulation admixture tank 300 can flow. Accordingly, the flow pipe 210 communicates with one side of the coagulation admixture tank 300 to allow flocculation sludge formed therein to flow along the flow path. Since the flow pipe 210 provides a flow path through which flocculation sludge can flow, it can be in any form as long as it can perform its function. That is, the flow tube 210 may be configured as an open type in which at least a portion is opened, or a closed type in which the whole is closed. Further, the cross-section may be formed in the shape of a polygon such as a circle, an ellipse, or a rectangle.

Meanwhile, the flow pipe 210 is configured to have a plurality of communication holes at regular intervals along the longitudinal direction of the flow path. Here, the plurality of communication holes are formed at positions that are smoothly connected to the inlet of the dehydrator 400. Accordingly, the flocculated sludge is supplied to the inside of the dehydrator 400 via the inlet of the dehydrator 400 through the respective communication holes.

In addition, the flow pipe 210 is configured to return the remainder of the flocculating sludge flowing along the flow path to the coagulating bath 300. Therefore, the other side of the flow pipe 210 is configured to communicate with the other side of the coagulation / mixing tank 300. On the other hand, in this embodiment, the flocculant sludge is supplied to the flow pipe 210 (the flow pipe 210) in an amount exceeding the maximum supply amount so that the flocculated sludge flows along the flow pipe 210 while being distributed equally , And return to the coagulation admixture tank 300 for the residue (surplus flocculation sludge).

The flocculating sludge flow unit 220 serves to smoothly flow the flocculated sludge formed in the flocculation and mixing tank 300 along the flow pipe 210. On the other hand, the flocculating sludge flow unit 220 flows along the flow pipe 210 in a state in which the flaps formed in the flocculation and mixing tank 300 are not broken, and in addition, 400). Accordingly, in this embodiment, the flocculating sludge flow means 220 is configured as a conveyor belt driving system. That is, the flocculation sludge is loaded on the conveyor belt to flow.

The flocculating sludge flow means 220 of this embodiment includes a conveyor belt 211 installed along the longitudinal direction of the lower end of the flow pipe 210 and a motor for providing power for circulatingly driving the conveyor belt 211 ) And the like. Here, the conveyor belt 211 is formed so as to be continuous from one side of the flow tube 210 to the other side in the longitudinal direction thereof, and the entirety thereof is positioned in the flow tube 210. At this time, the conveyor belt 211 is installed in a state of being supported by the flow tube 210 and circulatingly driven therein. That is, the conveyor belt 211 is rotatably driven by the motor coupled to the rotating shaft that is rotatably supported by the rotating tube 210 and is thus projected outside the flow tube 210.

On the other hand, the flocculating sludge flow means 220 of this embodiment may be constructed by a non-axial screw driving method. At this time, the non-axial screw driving system may be composed of a non-axial screw installed along the longitudinal direction of the inside of the flow tube 210 and a motor for providing power for rotationally driving the non-axial screw.

The above description of the uniform distribution and supply device of the flocculated sludge of the present invention has been described with reference to the accompanying drawings, which illustrate the best preferred embodiments of the present invention. It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit and scope of the invention as defined by the appended claims. Examples or modifications will also fall within the scope of the claims of this invention.

200: Feeder 210: Flow tube
220: Flocculation sludge flow means 221: Conveyor belt
300: coagulation tank 400: dehydrator

Claims (4)

A flow pipe having a flow path having one side and the other side communicating with the coagulation admixture and having a plurality of communication ports communicating with the plurality of dehydrators along the flow path;
And agglomerated sludge flow means installed along the flow pipe to flow the agglomerated sludge agglomerated in the agglomeration and mixing tank along the flow tube and uniformly distribute and supply the agglomerated sludge through the plurality of communication holes to the plurality of sludge desorption devices Of the flocculated sludge. The method according to claim 1,
Wherein the flocculating sludge flow means includes a conveyor belt installed along a longitudinal direction of the lower end of the flow pipe and a motor for providing power for circulating and rotating the conveyor belt. The method of claim 2,
The conveyor belt is circulatingly driven in the flow tube in a state in which the rotating shaft is rotatably supported by the flow tube, and is circulatingly driven by the motor coupled to the rotating shaft protruding to the outside of the flow tube Characterized in that the flocculation sludge is distributed uniformly. The method according to claim 1,
Wherein the flocculation sludge flow means comprises a non-contiguous screw disposed along a longitudinal direction of the interior of the flow tube, and a motor for providing power for rotationally driving the non-contiguous screw.

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