KR100646042B1 - Sedimentation of liquid waste treatment with screw type slant plant - Google Patents

Abstract

 The present invention relates to an electrostatic tank of a wastewater treatment apparatus for treating suspended water generated by mixing of suspended matter such as earth and sand at a tunnel construction site.

In the present invention, a screw-type inclined plate 115 is installed in the settling portion 111 of the first treatment tank 110 to allow high concentration neutralization / aggregation while the treated water is stored or flowed at a low flow rate. In the center of the 110, the second treatment tank 120 is formed by the tubular body 121 to allow the flocculation treatment of the remaining fine suspended matter in the treated water in which the float is almost treated in the first treatment tank 110. What can be achieved by the sedimentation tank of the wastewater facility having a screw-type inclined plate.

Sedimentation tank, first treatment tank, screw type inclined plate, slot hole, concentrating part, second treatment tank, pipe, suspended solids blocking plate, fine floating flotation blocking plate, treated water transport path

Description

Sedimentation of liquid waste treatment with screw type slant plant

1 is a process diagram of a wastewater facility to purify the treated water mixed with suspension.

Figure 2 is an exemplary embodiment of the sedimentation tank used in the conventional wastewater installation.

Figure 3 is a partial cross-sectional perspective view illustrating an embodiment of the present invention.

Figure 4 is a side cross-sectional view illustrating an embodiment of the present invention.

Figure 5 is a plan view showing a pattern of the inclined plate provided in the settling portion of the first treatment tank of the present invention.

* Explanation of symbols for main parts of drawings *

100: sedimentation tank 110: first treatment tank

111: sedimentation unit 112: concentration unit

114: float discharge pipe 115: screw-type inclined plate

115a, bend section 115b: slot hole

120: second treatment tank 121: pipe

122: floating material blocking plate 123: treated water transport path

124: fine floating flotation blocking plate 125: discharge pipe

The present invention relates to an electrification tank of a wastewater treatment apparatus for treating suspended water generated by mixing suspended matter such as earth and sand at a tunnel construction site, and more particularly, to improve the storage of treated water treated in the sedimentation tank by improving the inclined plate of the sedimentation tank into a screw type. The present invention relates to an invention that enables high concentration flocculation treatment while increasing flow rate at low flow rates, and at the same time improves the purification efficiency.

In general, at the construction site, that is, the tunnel construction site, water such as dry water and groundwater is generated inside the tunnel under construction during the excavation of the tunnel.

As described above, the water generated at the tunnel construction site is infiltrated by turbidity generated during excavation.

When discharged into the river without purifying the water issued by the incorporation of the soil as described above, the soil is deposited on the bottom of the river in the water to reduce the production and activity of microorganisms, leading to deterioration of the water quality of the river water, as well as the suspended soil It not only prevents the gills of fish and prevents them from growing, but even transforms them into dead rivers, where it is impossible to grow them.

In order to prevent the above problems, suspended water (hereinafter referred to as "treated water") generated at the tunnel construction site is discharged through a purification process, and a method of purifying the treated water is suspended matter such as earth and sand mixed in water. Sedimentation is used to sedimentation wastewater facility to purify the treated water.

The wastewater facility for precipitating the suspended matter in the treated water in which the suspended matter is mixed by the sedimentation method sediments and separates the suspended matter in the treated water generated from the tunnel construction site, sterilizes the harmful substances in the treated water, and then passes the filtration process. Discharged clear water.

The process of purifying the treated water generated at the tunnel construction site using the wastewater facility as described above will be described in detail with reference to FIG. 1.

The treated water generated in the tunnel construction site is introduced into the settlement 11 of the sedimentation tank 10 so that large particles of suspended matter such as stones are sedimented and separated.

The treated water from which the large particles of suspended matter are separated from the settling basin 11 of the immersion tank 10 is introduced into the sump tank 12, and the treated water introduced into the sump tank 12 is provided by the metering pump 13. It is pumped and supplied to the neutralization / reactor 20.

At this time, the float having a low specific gravity is sent to the concentration tank 30 to be processed.

The treated water supplied to the neutralization / reaction tank 20 is stirred by the rotation of the stirring shaft 22 rotating by the electric motor 21 with the stirring blade 23, and the treated water stirred as described above The bacterial harmful substances contained in the treated water are mixed with the sulfuric acid supplied from the medicine container 60 to be sterilized.

In addition, the suspended solids in the treated water are first agglomerated while being mixed with the alumina sulfate supplied from the medicine container 70.

As described above, the first flocculated floc is settled down and collected through a sludge pump (not shown in the drawing).

In the neutralization / reactor 20, the suspended solids are first agglomerated and purified to be supplied to the settling tank through the transfer pipe 90 connected to the neutralization / reactor 20.

When the treated water purified in the neutralization / reaction tank 20 is transported along the transfer pipe 90, the polymer coagulant is introduced into the transfer pipe 90 from the chemical container 80 so that it is not aggregated in the neutralization / reaction tank 20. Fine suspended matter in the treated water will be secondary agglomerated.

The treated water in which fine suspended solids are agglomerated by the polymer coagulant is controlled by a baffle plate provided in a zigzag pattern in the transfer pipe 90 so that the treated water is transferred at a slow speed.

The treated water transferred along the transfer pipe 90 is introduced into the settling tank having the inclined plate.

 In the settling tank into which the treated water is introduced through the transfer pipe 90, the chemicals are injected from the aforementioned medicine containers 60, 70, and 80.

The treated water introduced into the settling tank is retained by the inclined plate or flows at a low flow rate so that the flocculation of the remaining suspended matter in the suspended water is activated. Will be.

The clear water, which is suspended and purified, is suspended and then discharged through the discharge tank 50 after being finally treated in the filtration tank 40.

On the other hand, the sediment is sedimented sediment is separated from the sedimentation tank sediment accumulated in the suspended solids are transferred to the drying table (not shown) through the discharge pipe is dried and then processed.

As described above, the purification efficiency may vary depending on the function of the sedimentation tank which finally purifies the treated water in the wastewater facility for treating the treated water including the suspension generated at the tunnel construction site.

The sedimentation tank 200 currently used in the wastewater facility is formed of a first treatment tank 210 and a second treatment tank 220 as shown in FIG.

The precipitation tank 200 is the first treatment tank 210 is installed in the second treatment tank 220.

The second treatment tank 220 is formed with an inclined plate 222 which is inclined downward in the sedimentation unit 221 at equal intervals.

The inclined plate 222 is formed with a flat plate 222a drawing a concentric circle along the inner wall of the second treatment tank 220 inclined downward, and is provided with a first treatment installed at the center of the second treatment tank 220. A flat plate 222b drawing a concentric circle along the outer circumferential surface of the tank 210 is formed to be inclined downward to face the plate 222a.

The inclined plate 222 serves to block the floating of fine suspended matter separated from the treated water when the treated water is floated upward and discharged into the filtration tank 40.

The first treatment tank 210 reacts with sulfuric acid in the neutralization / reaction tank 20 to sterilize bacterial harmful substances and react with alumina sulfate to allow the inflow of treated water to activate the flocculation of suspended solids contained in the treated water. 211 is provided, and inside the pipe 211, a plurality of inclined plates 212 having the treatment water movement passage 213 are formed at equal intervals, and between the inclined plates 212. Plates 214 are installed to allow changes in the flow of treated water.

The conventional sedimentation tank 200 configured as described above has a short time and distance for storing the treated water, and when the turbidity of the treated water is high due to the inflow of suspended matter such as earth and sand generated at the construction site, the suspended solids contained in the treated water are removed. Not only can not be separated cleanly, the purification efficiency is significantly reduced, and thereby has the disadvantage that can not prevent the secondary pollution of the river by the treated water.

Therefore, in order to stably clean the treated water in the wastewater facility to which the conventional sedimentation tank is grafted, it is difficult to install and use a plurality of sedimentation tanks or to separately prepare the sedimentation tank with increased treatment capacity to improve the wastewater facility.

The present invention was developed in order to solve the above problems, by improving the inclined plate of the sedimentation tank for the final purification treatment of the treated water in the wastewater facility to purify the treated water generated in the tunnel construction site by screw type to store the treated water in the sedimentation tank By increasing the time, the neutralization / reaction of the suspended solids has not only increased the purification efficiency compared to the sedimentation tank of the same volume, but also the wastewater having a screw-type slant plate capable of purifying the treated turbid water with excessive mixing of suspended solids such as earth and sand. To provide a settling tank for the installation.

The present invention for achieving the above object has a long length, up and down, the concentration portion 112 is sedimented from the sedimentation flocculation sediment from the treated water in the sedimentation section 111 has a float discharge pipe 114 at the bottom A first treatment tank 110 formed therein and having a screw-shaped inclined plate 115 installed in the precipitation unit 111 so as to store the treated water supplied from the neutralization / reaction tank 20 or flow at a low flow rate;

Pipe body 121 is installed in the inner center of the first treatment tank 110, the pipe body, the discharge pipe 125 for sending the treated water purified from the settling portion 111 to the filtration tank 40 at the top It is installed, the lower part is open to allow the inflow of the treated water from which the sediment is sedimentation separation in the sedimentation unit 111, the inner side of the tubular body 121 forms a vertical light narrowing narrowing from the top to the bottom and at the same time the center The floating water blocking plate 122 having the treatment water transport path 123 formed thereon is provided with a plurality of equidistant intervals, and the fine floating material on the upper side parallel to the treated water transport path 123 of the floating water blocking plate 122. It can be achieved by the sedimentation tank of the wastewater facility having a screw-type inclined plate, characterized in that consisting of a second treatment tank 120 is provided with a floating blocking plate 124.

Hereinafter, described in detail by the accompanying drawings a preferred embodiment for achieving the above object is as follows.

As shown in Fig. 3 to Fig. 5, the sedimentation tank 100 of the wastewater facility having the screw-type inclined plate according to the present invention is composed of the first treatment tank 110 and the second treatment tank 120 in the up and down manner. .

The first treatment tank 110 is formed to have a long length up and down, the lower portion of the funnel-shaped enrichment portion 112 so that the floating in the treated water introduced into the settling portion 111 can be settled Formed.

The condensation part 112 is provided with a float discharge pipe 114 so that the accumulated float can be sucked and discharged by a suction pump (not shown).

The precipitation section 111 is provided with a screw-shaped inclined plate 115 to store the treated water supplied from the neutralization / reaction tank 20 or flow at a low flow rate.

 The inclined plate 115 installed in the precipitation unit 111 forms a screw type that goes down while going down.

The inclined plate 115 is formed with a stepped bent portion 115a to further store the treated water or flow at a low flow rate.

When the treated water flows along the inclined plate 115, the bent part 115a is provided with a slot hole 115b to allow vortices to occur in the treated water in the sedimentation part 111 while passing through the treated water of some of the treated water.

The slot holes 115b are formed on surfaces perpendicular to the flat surface of the bent portion 115a.

In the second processing tank 120 formed inside the first processing tank 110, a tubular body 121 is installed at an inner center of the first processing tank 110.

The sedimentation part 111 of the tubular body 121 is open to allow the inflow of the treated water separated from the suspended matter.

The upper part of the pipe 121 is provided with a discharge pipe 125 for sending the treated water introduced from the settling portion 110 to the filtration tank 40.

Inside the tubular body 121, a floating funnel blocking plate 122 having a funnel shape forming an upper and lower narrowing forms and at the same time having a treatment water transport path 123 formed at the center thereof has a uniform interval and is installed in the vertical direction. It is.

The fine flotation support blocking plate 124 is installed at an upper portion parallel to the treated water transport path 123 of the floating block 122.

The process of purifying the treated water in which the suspended matter such as earth and sand is mixed through the sedimentation tank 100 of the wastewater facility having the screw-type inclined plate of the present invention configured as described above is as follows.

In describing the process of purifying the suspended matter in the treated water by the sedimentation tank of the present invention for each process, the same technique as in the prior art will be denoted by the same reference numeral, and the treated water is purified in the pretreatment process of the sedimentation tank 100. Since the process is described in the foregoing will be omitted in the present invention.

First, sulfuric acid of the medicine container 60 and alumina sulfate of the medicine container 70 are supplied to the settling portion 111 of the first treatment tank 110 constituting the precipitation tank 100 and are contained in the treated water. At the same time as the bacterial harmful substances are sterilized, the treated water in which the suspended solids are aggregated is supplied from the neutralization / reaction tank 20.

As described above, the treated water introduced into the sedimentation unit 111 of the first treatment tank 110 is stored by the screw-type inclined plate 115 or flows at a low flow rate. Even suspended matter is agglomerated.

As described above, the treated water stored along the screw-shaped inclined plate 115 or flowing at a low flow rate increases the settling distance, and the reaction / aggregation time increases, thereby increasing the flocculation efficiency of the suspended matter.

As described above, the treated water that is stored along the screw-type inclined plate 115 or flows at a low flow rate causes vortex to be generated by the treated water passing through the slot hole 115b when passing through the bent portion 115a formed in a stepped manner. As a result, the treated water in the precipitation unit 111 is stirred due to the vortex.

When the treated water is stirred as described above, the polymer coagulant supplied from the medicine container 80 is evenly mixed with the suspended matter in the treated water to activate the aggregation.

As described above, the flocculation of the suspended solids is activated by the polymer coagulant, thereby allowing the separation of the suspended solids.

The suspended solids (sludge) which is agglomerated in the sedimentation unit 111 and becomes larger in specific gravity is settled in the lower concentration part 112 by its specific gravity, and the treated water separated into small particles of suspended solids and purified in a clear state is second. It is introduced into the tube body 121 of the treatment tank 120.

As described above, the condensation / reaction tank 20 may be introduced into the second treatment tank 120 from the first treatment tank 110, and thus, the position at which the treated water is introduced may be discharge pipe 125. It is possible to flow into the second treatment tank 120 is higher than the position of).
When the treated water (suspended water) flows into the tubular body 121 of the second treatment tank 120, some of the fine suspended matter is also moved.

As described above, the treated water that is floated and moved from the settling unit 111 into the tubular body 121 is transferred to the treated water provided in the funnel-shaped float blocking plate 122 that forms a light beam bottom side inside the tubular body 121. Floating to the upper portion along the furnace 123, and the flocculate separated and agglomerated from the treated water is settled to the concentrated portion 112 of the first treatment tank 110 against the float blocking plate 122. .

On the other hand, the fine suspended matter that has not been blocked by the float blocking plate 122 and has passed through the treated water transport path 123 of the float blocking plate 122 together with the treated water is blocked by the fine flotation flotation blocking plate 124. It will settle.

As described above, sulfuric acid, alumina sulfate, and polymer coagulant are introduced into the tubular body 121 to separate and aggregate the fine suspended matter remaining in the treated water.

As the drug is administered to the tubular body 121 of the second treatment tank 120 as described above, the separation and flocculation and sedimentation of very small fine suspended solids that have not been processed in the pretreatment process are perfectly performed.

Passing through the tubular body 121 of the second treatment tank 120, the clear water is completely treated is discharged to the filtration tank 40 through the discharge pipe (125).

Clear water introduced into the filtration tank 40 is discharged through the discharge tank 50 through the final filtration process in the filtration tank 40, the lower portion of the sedimentation part 111 of the first treatment tank 110 is sedimentation separated The suspended matter accumulated in the condensation unit 112 is transferred to a drying table (not shown in the drawing) through the suspended matter discharge pipe 114, and then dried and processed.

The present invention as described above, the inclined plate 115 formed in the first treatment tank 110 of the sedimentation tank 100 for the final purification treatment of the treated water in the wastewater facility for the purification treatment of the treated water generated at the tunnel construction site. ) Is a screw type improvement, so that the treated water is rotated in the needle 111 and flows into the reservoir or flows at a low flow rate, so that the neutralization / agglomeration of the suspended solids can be expected, and the distance in which the treated water flows is long, so that it has the same volume. The high treatment efficiency of contrast treated water has the advantage that clean water can be purified even with a high concentration of suspension.

In addition, the slot hole 115b is formed on a surface perpendicular to the horizontal plane of the bent portion 115a formed in the inclined plate 115, so that when the treated water flows along the inclined plate 115, a part of the treated water is processed into the slot hole 115b. It has the advantage that the flotation in the treated water is mixed evenly with chemicals to activate the coagulation.

In addition, the present invention is to process the remaining fine suspended solids while passing through the second treatment tank after the sediment is separated and settled in the first treatment tank including the sedimentation portion 111 having a large volume of water supplied from the neutralization / reaction tank. In addition to minimizing the generation of fine suspended solids, as the generation of fine suspended solids has the advantage of reducing the processing load of the second treatment tank.

Claims (2)

(correction) In the sedimentation tank (100) of the wastewater facility consisting of the first treatment and the second treatment tank in the upstream and downstream manner.  The concentration unit 112 having a long length up and down, the flocculant sediment is separated from the treated water in the sedimentation section 111 is formed in the lower portion having a float discharge pipe 114, the neutralization / reaction tank 20 A first treatment tank (110) having a screw-shaped inclined plate (115) installed in the settling portion (111) for storing the treated water supplied therefrom or flowing at a low flow rate; Pipe body 121 is installed in the inner center of the first treatment tank 110, the pipe body, the discharge pipe 125 for sending the treated water purified from the settling portion 111 to the filtration tank 40 at the top It is installed, the lower part is open to allow the inflow of the treated water from which the sediment is sedimentation separation in the sedimentation unit 111, the inner side of the tubular body 121 forms a vertical light narrowing narrowing from the top to the bottom, The floating water blocking plate 122 having the treatment water transport path 123 formed thereon is provided with a plurality of equidistant intervals, and the fine floating material on the upper side parallel to the treated water transport path 123 of the floating water blocking plate 122. Sedimentation tank of a wastewater facility having a screw-type inclined plate, characterized in that consisting of a second treatment tank 120 is provided with a floating blocking plate (124).  According to claim 1, wherein the inclined plate 115 of the first treatment tank 110 is stepped bending to allow the treated water to be further stored or flow at a low flow rate on the inclined plate 115 in the form of a screw going downward A portion 115a is formed, and the bent portion 115a has a slot hole 115b for forming a vortex in the settling portion 111 while passing through some of the treated water. Sedimentation tanks for wastewater installations with type ramps.

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