KR100819541B1 - Equipment and method of thickening sludge and precipitation sludge useing pipe membrane cross flow - Google Patents

Abstract

An apparatus and a method for treating thickened sludge and precipitated sludge of an inverse discharge water are provided to compact a required area for facilities through induction of a membrane filtration process, by disposing a pipe membrane between a recovery bath and a dehydrator. A pipe type membrane filtration unit(10) is disposed between a recovery bath and a dehydrator. The pipe type membrane filtration unit comprises a feed water regulation bath(11) for controlling input of feed water and input of concentrated water, a concentration bath(12) connected to the feed water regulation bath, a pipe membrane(13) connected to the thickening bath, and a treatment water bath(14) connected to the pipe membrane. Further, a level sensor is additionally installed at an upper part of the feed water regulation bath in order to control inflow of the feed water and the concentrated water.

Description

Equipment and method of thickening sludge and precipitation sludge usinging pipe Membrane cross flow}

1 is a schematic process diagram of a conventional wastewater treatment process.

Figure 2 is a backwash discharge thickening chain using a crossflow tubular membrane applied to the present invention

        Schematic process diagram of the treatment system of sludge and sediment sludge.

Figure 3 is a schematic configuration diagram of a tubular membrane filtration device applied to the present invention.

Figure 4 is a block diagram of another embodiment of a tubular membrane filtration device applied to the present invention.

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

10: tubular membrane filtration device 11: supply water adjustment tank

12: thickener 13: tubular membrane

14: treatment tank

The present invention relates to an apparatus and a method for treating backwash effluent concentrated sludge and sediment sludge using a crossflow tubular membrane, and more particularly, to supply backwash effluent concentrated sludge and sediment sludge having a high concentration (solid content of 0.5 to 2%). In the cross flow tubular membrane filtration process, the flow rate is kept small at 0.5 ~ 1.0m / s to reduce the power cost due to the high membrane flow rate caused by the problem of crossflow. In addition, the final concentration was concentrated and discharged to the sludge storage tank with a solid content of 5% or more, and also directly introduced into the dehydrator without injecting a polymer flocculant, thereby greatly improving the quality and reliability of the product, thereby providing consumers with a good image. It will be planted.

As is well known, although the amount and nature of the effluent (sludge) from the water purification process is closely related to the water purification process, the effluent treatment plant often tends to be treated as a separate issue from the water purification process. Recently, however, as the discharged water quality standards are strengthened, wastewater treatment costs are increasingly recognized as an important part of the water purification process. In most conventional water purification processes, there are two kinds of effluents: one is sediment sludge (sludge) discharged from the sedimentation basin, and the other is back washing sludge (effluent) from the backwash process. The amount of sludge is determined by the characteristics of the raw water, the amount of flocculant used, the performance of the water purification process, the efficiency of the sedimentation basin and the sludge discharge method, and the frequency of backwashing.

On the other hand, the wastewater treatment process generated in the water purification plant may vary depending on the water quality of the raw water and operating conditions of the water purification plant, but is generally the same as FIG. That is, backwash sludge having a concentration of about several hundred ppm after sand filtration is precipitated in the recovery tank 1 and then sent to the adjustment tank 3, and the supernatant after precipitation is sent back to the water well. Precipitated backwash sludge and precipitated sludge (solids content of approximately 0.5 to 2%) undergo a precipitation process in the bath (3). The supernatant here is reprecipitated after the recovery tank (1) is sent. In addition, the sludge precipitated in the adjusting tank (3) is introduced into the concentration tank (4) and concentrated. Most of the concentration tanks (4) in Korea's water purification plants are about 2 to 5% of the sludge solidified by gravity. This concentrated sludge is sent to a sludge storage tank, where up to 5% solids are dewatered through the dehydrator 5 after polymer injection for improved dehydration. And the supernatant generated in the concentration tank (4) is discharged to the river, the dehydration filtrate at the time of dehydration is introduced into the concentration tank (4) and concentrated.

However, the above-described prior art has caused a number of problems.

In other words, the wastewater treatment facility of the existing water treatment plant is very complicated compared to the purpose of use, and the size of the facility is not only large, but also requires a large area, requires a lot of maintenance and operation costs, and is expensive for the initial investment of the facility. In addition, there are many problems such as excessive investment compared to the treatment efficiency and the purpose of use, and the application of small water purification plants is disadvantageous.

The present invention has been made to solve the above problems of the prior art, and the first object is to provide a tubular membrane filtration device having a crossflow tubular membrane between the recovery tank and the dehydrator, the second object is The introduction of the membrane filtration process makes it possible to make the required area more compact than existing facilities, and the third purpose is to reduce the waste of water resources by improving the recovery rate of the existing water purification plant since all the discharged water except the final concentrated sludge is recovered. The fourth objective is to provide an economical process by operating at low membrane flow rates of 0.5 to 1.0 m / s to reduce enormous power costs for high membrane flow rates, which is the biggest problem of the crossflow membrane filtration process. The fifth purpose is to concentrate the final concentrated concentration to 5% or more of solids and discharge it. It is possible to reduce the maintenance cost according to the chemical injection cost by enabling direct dehydration without the injection of the agent, and the sixth objective is to greatly improve the quality and reliability of the product, thereby allowing consumers to plant a good image. Provided is an apparatus and method for treating backwashed-condensate sludge and sediment sludge using a crossflow tubular membrane.

In order to achieve the above object, the present invention is a device for treating backwash discharged concentrated sludge and sedimentation sludge generated in a water purification plant, between a recovery tank and a dehydrator, a tubular membrane filtration device for treating backwash discharged concentrated sludge and precipitated sludge generated at a purified water plant. Provided is a treatment apparatus for backwash discharged concentrated sludge and sediment sludge using a crossflow tubular membrane characterized in that the connection is provided.

In addition, the present invention is a method for treating the backwash wastewater concentrated sludge and sedimentation sludge generated in the water purification plant, comprising a tubular membrane filtration device having a cross flow between the recovery tank and the dehydrator, the backwash discharged water generated in the water purification plant Treating the concentrated sludge and the settling sludge, and controlling the inflow of the feed water and the inflow of the concentrated water by the feed water adjustment tank; And preventing agitation and precipitation by the concentrating tank; and providing a method for treating backwash discharged water concentrated sludge and precipitated sludge using a crossflow tubular membrane.

Hereinafter, described in detail with reference to the accompanying drawings a preferred embodiment of the present invention for achieving this purpose are as follows.

Apparatus and method for treating backwashed-water condensed sludge and sediment sludge using a crossflow tubular membrane applied to the present invention are configured as shown in FIGS. 2 to 4.

In the following description of the present invention, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

The following terms are terms set in consideration of functions in the present invention, which may vary depending on the intention or custom of the producer, and their definitions should be made based on the contents throughout the specification.

First, the present invention in the apparatus for treating the backwash discharged water concentrated sludge and sedimentation sludge generated in the water purification plant, as shown in Figure 2 between the recovery tank 1 and the dehydrator 5 concentrated backwash discharged water generated in the water purification plant The tubular membrane filtration device 10 for treating sludge and settling sludge is characterized in that the connection is provided.

That is, the tubular membrane filtration device 10 will be described in more detail, as shown in FIG. 3, a feed water adjusting tank 11 for mutually regulating the inflow of feed water and the inflow of concentrated water, and the feed switch adjustment tank ( A concentration tank 12 connected to one side of the 11 and a tubular membrane 13 and one side of the tubular membrane 13 connected to one side of the concentration tank 12 are connected to the treatment water tank 14.

In addition, each of the inner upper sides of the concentration tank 12 applied to the present invention has a concentration tank due to the flow rate of the feed water flowing from the feed water adjusting tank 11 and the flow rate of the concentrated water circulated in the crossflow in the tubular membrane 13 ( An inclined trough 12a for preventing agitation of 12) is provided.

In addition, at least one inclined plate 12b is installed at an inner lower portion of the thickening tank 12 applied to the present invention to better cause precipitation of the thickening tank 12 in which local precipitation occurs.

The present invention is also provided with a sludge inlet pipe 12b so that the sludge precipitated in the lower portion of the thickening tank 12 is well discharged, the upper side of the thickening tank 12, the feed water at a position higher than the boundary surface due to local precipitation Inlet pipe 12c is installed.

In addition, the present invention is provided with a level sensor (11a) on the top of the feed water adjustment tank 11 to mutually control the inflow of the feed water and the inflow of the concentrated water.

In addition, the bottom of the thickening tank 12 applied to the present invention is formed in a cone shape to flatten as shown in FIG. 3 or to further settleability as shown in FIG. 4, preferably in a cone shape. It is better to form.

In the drawings, reference numeral 2 denotes a landing well, and 5 denotes a dehydrator.

On the other hand, the present invention may be variously modified and may take various forms in applying the above configuration.

And it is to be understood that the invention is not limited to the specific forms referred to in the above description, but rather includes all modifications, equivalents and substitutions within the spirit and scope of the invention as defined by the appended claims. It should be understood that.

Referring to the operation and effect of the apparatus and method for treating the backwashed wastewater concentrated sludge and the settling sludge using the crossflow tubular membrane of the present invention configured as described above are as follows.

First, the invention introduces a cross flow tubular membrane filtration process in place of the conventional adjusting tank 3 and the concentration tank 4 as shown in FIG.

That is, according to the present invention, a tubular membrane filtration apparatus 10 having cross flow is provided between the recovery tank 1 and the dehydrator 5 in treating the backwash discharged water concentrated sludge and the settling sludge generated in the water purification plant. Treated with backwash effluent concentrated sludge and sediment sludge generated in the water purification plant, in particular the step of mutually controlling the inflow of the feed water and the inflow of the concentrated water by the feed water adjustment tank (11) and preventing the stirring by the concentration tank (12) By the step of causing the precipitation and to treat the backwash effluent concentrated sludge and sediment sludge using a crossflow tubular membrane.

In more detail, the present invention allows the inlet of the feed water and the inflow of the concentrated water to be mutually controlled by the level sensor 11a provided in the feed water adjusting tank 11.

Subsequently, the feed water introduced into the condenser 12 is caused by the flow rate of the condensate circulated in the crossflow in the tubular membrane 13 and the flow rate of the feed water flowing from the feed water adjusting tank 11 by the truffle 12a. The stirring of the concentration tank 12 is prevented.

In other words, the crossflow filtration method forms a parallel flow with respect to the membrane surface, and filters the suspension material or colloid in the membrane feed water while the membrane surface is deposited while filtering. In particular, the amount of impurities accumulated on the membrane surface can be removed. The high permeate flow rate can be maintained, and the filtration resistance can be kept constant by the flow rate of the membrane, so that continuous operation is possible.

And the truffle 12a applied to the present invention is to maintain the formation of a distinct interface between the suspended solids and the supernatant, if there is no trough 12a to the pump of raw water and circulation water flowing into the concentration tank (11) Due to the water pressure caused by the tank, the phenomenon of mixing (vortex) will occur, but in order to prevent the phenomenon, the pipe 12a is installed under the outlet of the raw water and the circulating water to reduce the water pressure by the pump. The installation of 12a) will enable the maintenance of a clear interface between the float and the supernatant.

In addition, the inclined plate 12b provided on the inner lower portion of the thickening tank 11 applied to the present invention causes the precipitation of the thickening tank 11 where local precipitation occurs even better.

That is, the inclined plate 12b is intended to increase the efficiency of the concentration, and in particular, the sludge located in the inclined plate 12b slides and settles down the inclined plate.

The present invention is also provided with a sludge inlet pipe 12d provided at the bottom of the thickening tank 12 is installed at the bottom of the thickening tank 12 so that the precipitated sludge can be discharged well.

In addition, the feedwater inlet pipe 12c is installed at a position higher than the interface due to local precipitation so that the tubular membrane 13 can treat sludge of a relatively low concentration even in the concentration tank 12.

In addition, the tubular membrane 13 applied to the present invention uses a crossflow operation method capable of operating at a high concentration, and the membrane flow rate applied to the operation is operated at a membrane surface velocity of 0.5 to 1.0 m / s to reduce power costs. It is characterized by.

In other words, if the flow rate is less than 0.5 m / s, the flow path can be closed in the tubular membrane. Therefore, the flow rate should be more than 0.5 m / s. 0.5-1.0 m / s is preferable.

In addition, the sludge concentrated in the concentration tank 12 applied to the present invention is characterized in that the concentration is discharged by concentrating the concentration to more than 5% solids content.

In other words, if the concentration of the sludge is less than 5%, the dehydration rate is less than 5%.

As described in detail above, the present invention includes a tubular membrane filtration apparatus having a crossflow tubular membrane between the recovery tank and the dehydrator, and in particular, the introduction of the membrane filtration process allows the required area to be more compact than the existing facility. will be.

In addition, all wastewater other than the final concentrated sludge is recovered, thereby improving the recovery rate of the existing water treatment plant to minimize waste of water resources.

In order to reduce the enormous power cost for the high membrane flow rate, which is the biggest problem of the crossflow membrane filtration process, it is possible to provide an economical method by operating at a membrane surface velocity of 0.5 to 1.0 m / s.

In addition, it is possible to reduce the maintenance cost according to the chemical injection cost by allowing the final concentrated concentration to be more than 5% solids content and discharged by direct discharge without the injection of the flocculant of the polymer.

The present invention is a very useful invention that can significantly improve the quality and reliability of the product due to the above-described technical effects so that consumers can plant a good image.

Claims (10)

delete In the apparatus for treating the backwash discharge water concentrated sludge and sedimentation sludge generated in the water purification plant is provided between the recovery tank (1) and the dehydrator (5). The tubular membrane filtration device 10, A feed water adjustment tank 11 for mutually regulating the inflow of feed water and the inflow of concentrated water; A thickening tank 12 connected to one side of the feed adjusting tank; A tubular membrane 13 connected to one side of the concentration tank; And One side of the tubular membrane treatment water tank (14); backwash discharged water concentrated sludge and sedimentation sludge treatment apparatus using a crossflow tubular membrane, characterized in that the connection is installed. According to claim 2, Agitation of the thickening tank 12 due to the flow rate of the feed water flowing from the feed water adjusting tank 11 and the flow rate of the concentrated water circulated in the crossflow in the tubular membrane 13 is performed on both inner upper sides of the thickening tank 12. Apparatus for treating backwash effluent concentrated sludge and settling sludge using a crossflow tubular membrane, characterized in that a further inclined trout (12a) for preventing. The method according to claim 2 or 3, At least one inclined plate 12b is further installed at the inner lower portion of the thickening tank 12 to further cause precipitation of the thickening tank 12 in which local precipitation occurs. Sludge treatment unit. The method according to claim 2 or 3, The sludge inlet pipe 12b is installed in the lower part of the thickening tank 12 so that the precipitated sludge can be discharged well, and the upper side of the thickening tank 12 is located at a position higher than the boundary surface due to local precipitation. ) Backwash effluent concentrated sludge and sedimentation sludge using the cross-flow tubular membrane, characterized in that is further installed. According to claim 2, The upper part of the feed water adjustment tank 11, the level sensor (11a) for controlling the inflow of the feed water and the inflow of the concentrated water is further installed, the apparatus for treatment of backwash discharge water concentrated sludge and sediment sludge using a crossflow tubular membrane . According to claim 2, The bottom of the condensing tank 12 is flat or or formed in a cone shape to further settle the sedimentation sludge and sludge treatment apparatus using a cross-flow tubular membrane, characterized in that formed. In the method for treating the backwash effluent concentrated sludge and sedimentation sludge generated in the water purification plant by providing a cross-flow tubular membrane filtration device 10 between the recovery tank 1 and the dehydrator 5, Mutually regulating the inflow of the feed water and the inflow of the concentrated water by the feed water adjusting tank 11 provided in the tubular membrane filtration apparatus; And A step of causing the stirring and preventing precipitation by the concentration tank (12) provided on one side of the feed water adjustment tank; Treatment method of backwash discharged water concentrated sludge and sedimentation sludge using a crossflow tubular membrane. The method of claim 8, The cross flow (Cross flow) is treated with a backflow discharge water concentrated sludge and sedimentation sludge using a crossflow tubular membrane, characterized in that the operation at a low film surface flow rate of 0.5 ~ 1.0m / s. The method of claim 8, The sludge concentrated in the concentration tank 12 is concentrated and discharged to a concentration of 5% or more solid concentration of the backwash discharge water concentrated sludge and sedimentation sludge using a crossflow tubular membrane.

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