KR100990438B1 - Apparatus for coagulation and precipitation - Google Patents

Abstract

PURPOSE: A coagulation sedimentation apparatus is provided to improve process efficiency by the rise of a coagulation and flocculation rate by applying a coagulation method to supply raw water from the upper side to the lower side. CONSTITUTION: A mixing tank(10) injects raw water to the upper side by using a water pump. After flocculant is solved, an flocculant injecting unit(20) injects the flocculant into the mixing tank. The raw water is injected from the lower side to the upper side of a settling tank(30). A mixer suppresses the entry of the raw water from the lower side of the settling tank. The mixer rotates to prevent the coagulation of the sludge. The sludge layer of the settling tank is overflowed in a concentration tank(40).

Description

Coagulation Precipitator {APPARATUS FOR COAGULATION AND PRECIPITATION}

The present invention relates to an agglomeration precipitation apparatus, and more particularly, to an agglomeration precipitation apparatus for mixing and coagulating a flocculant into raw water to agglomerate and settle at a very high speed in order to separate contaminants in the raw water from a precipitation tank.

With the development of modern industry, various factories produce industrial wastes and sewage and waste water, which are harmful to humans. Unauthorized discharge of such sewage and waste water can pollute the natural environment and prevent the ecosystem from being maintained. It is to be discharged.

Recently, the problem of purification of sewage and wastewater has emerged as a serious environmental problem, and devices and methods for purifying sewage and wastewater by cleaner and simpler methods have been developed.

In general, the sewage and wastewater treatment methods include a first precipitation step of moving the sedimentation basin at a slow speed and sinking the sludge after biological treatment, a mixing step of mixing the coagulant in the water entering the mixing tank and mixing the water in the water by the coagulant. Agglomeration step in which the fine particles agglomerate with each other, a secondary precipitation step in which the aggregated material is settled, a filtration step to filter out the remaining impurities using various filter elements, and a step of sterilizing the filtered treated water.

Agglomeration sedimentation devices are well known in the field of water treatment devices for use in the treatment of tap water or river water as raw water to obtain industrial water, or for the treatment of sewage such as public sewage or factory wastewater to an acceptable standard. have. Among these, a so-called cross flow type coagulation precipitation apparatus is used.

However, the conventional cross-flow coagulation sedimentation device has a problem that the residence time of raw water is long, the installation area of the device according to the amount of treatment is very large, and the treatment efficiency is low due to the slow aggregation and sedimentation rate.

The present invention is to solve the above problems, ultra-fast agglomeration and sedimentation, it is possible to improve the sludge removal function, compact to minimize the installation area, low installation cost and operating cost, while maintaining a stable water quality It is to provide a flocculation precipitation apparatus that can be secured.

In order to achieve the above object, the present invention is the raw water is injected into the upper by the raw water pump is mixed with the natural water dropping raw water; A coagulant injecting unit for dissolving a coagulant and injecting the coagulant into the mixing tank; A settling tank into which the coagulant is mixed and the raw water naturally flowing down is injected from the bottom to the top; An agitator disposed under the settling tank and rotating to prevent solidification of the sludge while preventing inflow of raw water; And a concentrating tank disposed around the settling tank and having a sludge layer formed in the settling tank overflowing.

In addition, a plurality of partition walls may be further formed on the inner wall and the other inner wall of the mixing tank alternately arranged downward.

In addition, the flocculant injection unit may include a dissolution tank for dissolving and dissolving the inorganic flocculant, the neutralizing agent, and the polymer flocculant, respectively, and injecting the inorganic flocculant, the neutralizing agent, and the polymer flocculant dissolved in the dissolution tank at injection points of different heights of the mixing tank. have.

In addition, the settling tank may include a small diameter cylindrical portion into which the raw water is introduced, an inclined portion in which the stirrer is disposed and the width thereof is expanded toward the upper portion, and a large diameter cylindrical portion extending to the upper portion of the inclined portion.

In addition, the thickening tank may be disposed in pairs to face each other on both sides of the settling tank.

In addition, four concentration tanks may be arranged at intervals of 90 degrees along the circumference of the precipitation tank.

In addition, a precipitation inclined plate may be further installed inside the precipitation tank to induce sedimentation of contaminants in water.

In addition, a plurality of dispersion hoppers may be further installed at the lower portion of the thickening tank to facilitate the extraction of the overflowed sludge.

In the flocculation precipitation apparatus according to the present invention, by applying a unique flocculation method in which raw water is supplied from the bottom to the top, the settling and flocculation rates are increased, thereby improving treatment efficiency.

In addition, the flocculation precipitation apparatus according to the present invention is compactly configured, the installation area is small, and the facility cost is also low, thereby improving economic efficiency.

In addition, since the flocculation precipitation apparatus according to the present invention has a high concentration of the sludge blanket layer and no structure of the drift, there is no carry-over of floc and stable water quality can be continuously maintained.

In addition, the flocculation precipitation apparatus according to the present invention has a structure in which the sludge blanket layer is precipitated and discharged as it is without destroying the sludge blanket layer, so that the treatment of sludge is easy.

1 is a perspective view of a coagulation precipitation apparatus according to an embodiment of the present invention.
2 is a flow diagram of a coagulation precipitation apparatus according to an embodiment of the present invention.
3 is a perspective view of a coagulation precipitation apparatus according to another embodiment of the present invention.
Figure 4 is a view showing another embodiment of the precipitation tank of the flocculation precipitation apparatus according to an embodiment of the present invention.
5 is a view showing another embodiment of the concentration tank in the flocculation precipitation apparatus according to an embodiment of the present invention.

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

1 is a perspective view of a flocculation precipitation apparatus according to an embodiment of the present invention, and FIG. 2 is a flow diagram of a flocculation precipitation apparatus according to an embodiment of the present invention.

1 and 2, the flocculation precipitation apparatus 100 according to the embodiment of the present invention includes a mixing tank 10 into which raw water is introduced, and a flocculant injection unit for injecting a flocculant or the like into the mixing tank 10 ( 20) and a settling tank 30 into which raw water naturally flowing in the mixing tank 10 flows in from the bottom and a pair of thickening tanks 40 disposed on both sides of the settling tank 30. In the upper part of the settling tank 30, a working table 50 is installed so that an operator can climb the ladder to observe and repair the inside of the settling tank 30.

Mixing tank 10 is, for example, formed in a square column, the upper portion of the raw water inlet 12 and the raw water inlet 12 is directly introduced by the raw water pump (P1) and the raw water inlet 12 It comprises a main mixing section 14 for mixing the flocculant and the like while naturally flowing down the raw water. On both inner walls of the main mixing section 14, the partition walls 16 are arranged at regular intervals in the downward direction. More specifically, the partition walls 16 are alternately arranged alternately with one inner wall and the other inner wall. Therefore, the path of the naturally occurring raw water is zigzag-shaped, so that the raw water and the coagulant can be sufficiently mixed with each other. The partition 16 may be inclined downward to induce an inflow path of raw water more naturally, and to induce a dissolved flocculant or the like to easily flow down.

The coagulant injection unit 20 is disposed on the upper side of the mixing tank 10, the inorganic coagulant dissolving tank 22 in which the inorganic coagulant is dissolved, the neutralizing agent dissolving tank 24 in which the neutralizing agent is dissolved, and the polymer coagulant dissolving tank in which the polymer coagulant is dissolved. (26). Each dissolution tank 22, 24, 26 is connected to injection points H1, H2, H3 of different heights of the mixing tank 10 to sequentially inject dissolved inorganic coagulants, neutralizers and polymer coagulants. That is, the inorganic flocculant is injected through the injection point H1 of the mixing tank 10 of the highest height, the neutralizing agent is injected through the injection point H2 of the mixing tank 10 of the intermediate height, and the polymer flocculant is It is injected through the injection point (H3) of the mixing tank 10 of the lowest height. Thus, by injecting each flocculant into the mixing tank 10 sequentially at different heights, the reaction and mixing efficiency between raw water and each flocculant can be improved.

On the other hand, the inorganic coagulant dissolving tank 22, the neutralizing agent dissolving tank 24, and the polymer coagulant dissolving tank 26 are inorganic coagulants and neutralizing agents respectively dissolved at predetermined concentrations in separate tanks 28-1, 28-2, and 28-3. And the polymer flocculant is continuously supplied through the metering pump P2.

The settling tank 30 is composed of a small diameter cylindrical portion 32, an inclined portion 34 and a large diameter cylindrical portion 36, the width of which increases toward the upper portion. In the lower portion of the small diameter cylindrical portion 32, raw water naturally flowing in the mixing tank 10 flows in the upper direction (reverse direction) (see FIG. 2). The inclination part 34 is provided with the stirrer 38 which rotates by the motor M, suppresses the rise of the raw water which flows in from the lower part to the upper part to some extent, and prevents sludge from solidifying. The stirrer 38 rotates slowly at a few rpm (eg 0.3 rpm).

The raw water mixed with the flocculant and the like is agglomerated continuously in the settling tank 30 so that the contaminants in the raw water grow into pellets having good sedimentation properties, and the sludge blanket on the upper portion of the stirrer 38 (the upper portion of the inclined portion 34). A blanket layer F is formed. The separated water passing through the sludge blanket layer (F) is discharged to the outside through the treated water discharge pipe (39) formed in the upper portion of the large diameter cylindrical portion (36).

The concentration tank 40 is disposed on both sides of the settling tank 30 to face each other. When the sludge blanket layer F formed in the sedimentation tank 30 accumulates and reaches a predetermined height, the accumulated sludge overflows to the concentration tank 40 to settle and concentrate. Sludge accumulated in the lower part of the concentration tank 40 is discharged to the outside through the sludge pump (P3).

Hereinafter, the operation of the flocculation precipitation apparatus 100 having the above configuration will be described with reference to FIG. 2.

First, when the raw water pump (P1) is operated to pull the raw water to the raw water inlet 12 of the mixing tank 10, the raw water is passed to the main mixing unit 14, and then passes through the partition wall 16 by the potential energy Natural drops down. In the course of the natural flow of raw water in the mixing tank 10, the inorganic coagulant, the neutralizing agent and the polymer coagulant are separated from the inorganic coagulant dissolving tank 22, the neutralizing agent dissolving tank 24 and the polymer coagulant dissolving tank 26, respectively. Are injected sequentially at the points. The injected flocculant or the like is completely mixed with the raw water.

The raw water mixed with the coagulant is introduced into the small diameter cylindrical portion 32 of the lower portion of the sedimentation tank 30 by a force naturally falling downwardly and injected upward. The raw water injected into the settling tank 30 reacts with the flocculant to grow into pellets having good settling properties, and forms a sludge blanket layer F at a predetermined height of the settling tank 30. When the sludge blanket layer F accumulates to some extent, it overflows and concentrates to the concentration tank 40 arrange | positioned at both sides of the settling tank 30. The concentrated sludge is discharged periodically through the sludge pump P3.

On the other hand, the separated water from which contaminants are separated from raw water flows through the sludge blanket layer (F) to the upper portion. This treated water is discharged to the outside through the treated water discharge pipe 39 connected to the upper portion of the settling tank (30). The flocculation precipitation apparatus 100 according to the embodiment of the present invention performs such a process repeatedly to separate and contaminate the contaminants contained in the raw water at high speed.

3 is a perspective view of a coagulation precipitation apparatus according to another embodiment of the present invention. As illustrated in FIG. 3, in the flocculation precipitation apparatus 100 according to the exemplary embodiment of the present invention, four concentration tanks 40 are disposed at intervals of 90 degrees around the precipitation tank 10. This is for the sludge blanket layer (F) formed in the settling tank 30 to easily overflow to the thickening tank 40 from all directions.

In the present embodiment, four concentration tanks 40 are arranged around the settling tank, but the present invention is not limited thereto, and the number thereof may be increased or decreased. In addition, the concentration tank may be disposed continuously along the circumference of the settling tank.

Figure 4 is a view showing another embodiment of the precipitation tank of the flocculation precipitation apparatus according to an embodiment of the present invention. As shown in Figure 4, the settling tank 30 according to an embodiment of the present invention may be disposed at intervals the precipitation inclined plate 37 at the top. This precipitation ramp plate 37 increases the number of collisions and the number of collisions between flocs passing through the sludge blanket layer F in the settling tank 30, suppresses the flocs from floating and induces precipitation downward.

The precipitation inclined plate 37 includes an inclined portion which is directly fixed to the upper portion of the settling tank 30 and inclined at a predetermined angle and vertically extending vertically to the lower portion of the inclined portion. The precipitation inclination plate 37 may be formed, for example, of a diaphragm structure. In addition, the precipitation inclination plate 37 may be provided with a micro ultrasonic vibrator for vibrating the inclination plate 37 so as to remove the sludge attached to the degassing. For example, the inclined plate 37 may be fixed to a rod-shaped square pipe installed at the top, and by installing a general micro ultrasonic vibrator in the square pipe and periodically operating the micro vibrator, the inclined plate 37 may be squared by shaking of the micro vibrator. The pipe vibrates, and the sludge attached to the settling ramp plate 37 is automatically degassed while the settling ramp plate 37 fixed to the square pipe is also shaken.

5 is a view showing another embodiment of the concentration tank in the flocculation precipitation apparatus according to an embodiment of the present invention. As shown in Figure 5, the thickening tank 40 according to the embodiment of the present invention is provided with a plurality of dispersion hopper 42 for dispersing the discharge of the sludge into a plurality of areas to facilitate the extraction of the sludge in the lower portion. The dispersion hopper 42 disperses the sludge accumulated in the thickening tank 40 to the outlets of the plurality of dispersion hoppers 42 and discharges the sludge evenly in all areas, thereby accumulating the sludge in all areas. Can prevent sludge.

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, Of course.

10: mixing tank 12: raw water inlet
14: main mixing section 16: bulkhead
20: flocculant injection section 22: inorganic flocculant dissolution tank
24: neutralizing agent dissolving tank 26: polymer flocculant dissolving tank
30: sedimentation tank 32: small diameter cylindrical portion
34: inclined portion 36: large diameter cylindrical portion
37: precipitation ramp 38: stirrer
39: treated water discharge pipe 40: concentration tank
42: dispersion hopper 100: coagulation precipitation device

Claims (8)

A mixing tank in which raw water is injected upward by a raw water pump to naturally drop raw water;
A coagulant injecting unit for dissolving a coagulant and injecting the coagulant into the mixing tank;
A sedimentation tank into which the flocculant is mixed to inject raw water naturally flowing downward from the lower side;
An agitator disposed under the settling tank and rotating to prevent solidification of the sludge while preventing inflow of raw water; And
And a thickening tank disposed around the settling tank, the sludge layer formed in the settling tank overflows.
The method of claim 1,
And a plurality of partition walls alternately disposed on the inner wall of one side of the mixing tank and the inner wall of the other side of the mixing tank.
The method of claim 1,
The flocculant injection unit,
And a dissolution tank for separating and dissolving the inorganic flocculant, the neutralizing agent, and the polymer flocculant, respectively, and injecting the inorganic flocculant, the neutralizing agent, and the polymer flocculant dissolved in the dissolution tank at injection points of different heights of the mixing tank. .
The method of claim 1,
The sedimentation tank comprises a small diameter cylindrical portion into which the raw water is introduced, a stirrer is disposed and the inclined portion is widened toward the upper portion and the large diameter cylindrical portion extending to the upper portion of the inclined portion.
The method of claim 4, wherein
The thickening tank is a coagulation precipitation device, characterized in that a pair is arranged so as to face each other on both sides of the settling tank.
The method of claim 4, wherein
Aggregate precipitation apparatus characterized in that the four concentrated tanks are arranged at intervals of 90 degrees along the circumference of the settling tank.
The method of claim 1,
In the settling tank, a flocculation inclination plate is further installed, which induces precipitation of contaminants in water.
The method of claim 1,
And a plurality of dispersion hoppers are further installed in the lower portion of the thickening tank to facilitate the withdrawal of the overflowed sludge.

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