KR100671047B1 - Sewage Treatment System - Google Patents

Abstract

The present invention can be arranged by a plurality of flocculation tank to increase the cohesive effect of the waste water, and also to generate the fine bubbles containing ozone in each of the flotation tank and the storage tank to improve the purification of the waste water and separation from the solids, through the storage tank Environmentally friendly wastewater treatment system that can reduce the waste of water resources by reducing the discharge of purified water to supply water resupply to the flotation tank and the storage tank, and also to reduce the equipment cost for equipping separate facilities such as the supply tank. will be.

The present invention is a plurality of flocculation tank; A float separation tank for separating solids; A sludge remover for discharging solids out of the flotation tank; A storage tank for ozone treatment and discharged to the outside while retaining the treated water discharged from the flotation separation tank; A suction pump that sucks the purified water while passing through the storage tank and mixes the ozone transferred through the ozone generator with the purified water; A pressurized tank for uniformly distributing ozone in the purified water transferred from the suction pump and for promoting autolysis of ozone; Characterized in that it consists of a microbubble generator for generating microbubbles in the floating separation tank and the storage tank.

Wastewater Treatment System, Pressurized Floating, Micro Bubble

Description

Wastewater Treatment System {Sewage Treatment System}

1 is a schematic view showing a wastewater treatment apparatus according to the present invention.

* Description of Signs for Main Parts in Drawings *

11: first coagulation tank 12, 22: drive motor

13, 23: screw 15, 25: water flow guide

21: second flocculation tank 27: narrow passage

30: floating separation tank 30a: first tank

30b: 2nd tank 31: bulkhead

33: Moving Guide 35: Filter

37: sludge remover 39: sludge discharge section

40: reservoir 41: outlet

50: mixing pump 51a to 51c: first to third connecting pipes

52: pressurized tank 53: ozone generator

55: microbubble generator 61a to 61c: first to third microbubble injection pipe

The present invention relates to a wastewater treatment apparatus, and in particular, by arranging a plurality of flocculation tanks to increase the flocculation effect of the wastewater, and to generate fine bubbles each containing ozone in the flotation separation tank and the storage tank to purify the wastewater and to separate it from the solids. It is possible to improve and to reduce the waste of water resources by recycling the purified water discharged through the storage tank into the feed water resupply to the floating separation tank and the storage tank and to reduce the equipment cost for equipping separate facilities such as a separate supply water tank. The present invention relates to an environmentally friendly wastewater treatment apparatus.

In general, wastewater containing organic matter and solids is discharged to rivers or rivers without being completely treated, and organic matter and solids accumulate at the bottom of rivers or rivers, causing secondary pollutants such as nitrogen and phosphorus to decay. The progress of eutrophication of rivers and rivers is a major social problem. Accordingly, various methods of purifying wastewater that cause eutrophication have been developed.

Conventional wastewater treatment apparatus for treating such wastewater by using microbubbles makes pressurized water by means of a pressurized pump and mixes air with an air compressor to saturate the air in pressurized water in a pressurized tank and purifies the object by a valve. By discharging to the inside, the microbubbles were floated and purified.

However, the conventional micro bubble generator using a pressure pump and an air compressor simply causes ozone-containing micro bubbles to rise through the ozone generator, and decomposes organic matter by attaching, capturing, and adsorbing them. , The air particles are large, bubbles are easily lost, and the rising speed is high, so that the precise purification process is difficult.

In addition, the prior art has a separate ozone supply water to supply ozone and various facilities for storing and supplying the supply water, so that the equipment becomes large, and equipment costs and operating costs increase.

Therefore, in order to solve the above problems, an object of the present invention is to arrange a plurality of flocculation tanks to increase the flocculation effect of the waste water, and to generate fine bubbles containing ozone in the flotation separation tank and the storage tank, respectively, to purify the waste water and solids. To improve the separation of wastewater and to recycle the purified water discharged through the storage tank into the feedwater resupply to the floating separation tank and the storage tank to prevent waste of water resources and to provide additional facilities such as a separate supply water tank. It is to provide an environmentally friendly wastewater treatment device that can be saved.

In order to achieve the above object, the present invention provides a plurality of flocculation tanks in which a flocculant and a water treatment agent are added and stirred together with the waste / waste to agglomerate solids in the waste / waste; Inflow of the treated water from the plurality of flocculation tank to firstly float the aggregates contained in the treated water by using microbubbles, and to separate the flotation by generating a microbubble secondary to the bottom of the strainer, to separate the solids Separation tank; A sludge remover disposed above the floating separation tank to discharge the sludge solidified from the floating separation tank to the outside of the separation tank; A storage tank for ozone treatment and discharged to the outside while retaining the treated water discharged from the flotation separation tank; A suction pump that sucks purified water while passing through the baffle and mixes ozone transferred through an ozone generator with purified water; An auxiliary small pressurized tank for uniformly distributing ozone in the purified water transferred from the suction pump and for promoting autolysis of ozone; It consists of a microbubble generator that generates a plurality of micro-bubbles containing ozone to circulate and supply ozone water transferred from the pressurized tank to the flotation and storage tanks, and to attach and purify and separate the ozone with organic matter in the waste water. It provides a waste water treatment apparatus, characterized in that.

In addition, the plurality of flocculation tanks each have a cylindrical flow guide arranged to surround the screw driven by the drive motor, the flow of the flow of water flows from the outside of the flow guide to the inner top and circulates downwards according to the driving of the screw As a result, the flocculation efficiency is improved.

In addition, the floating separation tank is divided into first and second tanks by partitions, and the first and second ozone bubble injection pipes connected to the microbubble generators are connected to the bottom of the first and second tanks, respectively. In the center of the second tank, the strainer is inclined.

Further, the storage tank is coupled to the third ozone bubble injection pipe connected to the microbubble generator through the inlet through which the first purified water flows through the floating separation tank, and the storage tank circulates a portion of the purified water to the suction pump. One side of the discharge portion of the purified water is connected to the suction pump.

Therefore, in the present invention described above, the coagulation rate between the solids contained in the wastewater is increased through a plurality of flocculation tanks, and fine ozone bubbles are generated through the flotation tank and the storage tank to maximize the purification effect of the wastewater. In addition, since the supply water for the supply of fine ozone bubbles is supplied from the storage tank, it is not necessary to have separate equipment such as the supply water tank and the supply water tank to provide the supply water, thereby greatly reducing the equipment cost.

(Example)

The wastewater treatment apparatus according to the present invention will be described in detail with reference to the accompanying drawings. 1 is a schematic view showing a wastewater treatment apparatus according to the present invention.

First, in the wastewater treatment apparatus according to the present invention, a flocculant such as FeCl ₂ and a water treatment agent for pH adjustment are added together with the wastewater to aggregate the solids in the wastewater, and a plurality of flocculations for flocculating the solids contained in the wastewater. The tanks 11 and 21 are provided, and the screws 13 and 23 are rotated by the drive motors 12 and 22, respectively, to stir evenly the wastewater and various chemicals introduced into the flocculation tanks 11 and 21. do.

In this case, in the plurality of flocculation tanks 11 and 12, cylindrical water flow guides 15 and 25 disposed to surround the screws 13 and 23, respectively, are installed. The flow of water in the flocculation tanks 11 and 21 according to the drive flows from the outside of the water flow guides 15 and 25 to the inside of the top, and then circulates from the bottom of the cylinder guide to the outside.

Accordingly, the wastewater in the flocculation tanks 11 and 21 can easily remove bubbles generated by itself while circulating along the flow of water and can increase the flocculation efficiency.

In addition, the floating separation tank 30 communicated by the narrow passage 27 to one side of the plurality of second flocculating tanks 21 has a first and second water tanks having different widths, respectively, by the partition walls 31. The first and second microbubble injection pipes, which are divided into 30a and 30b and connected to the microbubble generators 55, which will be described below, adjacent to the partition walls 31 at the lower ends of the first and second water tanks 30a and 30b, respectively. 61a and 61b are penetratingly coupled.

In this case, the cylindrical movement guide 33 disposed on the top of the partition wall 31 is introduced into the first water tank 30a from the second agglomeration tank 21 at a high speed through the narrow passage 27 so that the first micromachine The mixed water and solids contained therein are guided to the second water tank 30b by the ozone microbubble supplied through the injection pipe 61a. Along with this, ozone microbubbles are used to purify the waste water as the floating separation action such as adhesion, capture, and adsorption, which reacts with organic matter, is smoothly performed.

In addition, the second water tank (30b) of the flotation separation tank (30) is disposed in the center of the strainer 35 for filtering the purified water separated from the solid in the center.

In this case, the mixed water introduced into the second water tank 30b through the moving guide 33 is supplied to the ozone microbubble supplied through the second ozone microbubble injection pipe 61b as in the first water tank 30b. The suspended solids are purified through flotation and separation, such as adhesion, capture, and adsorption, which react with organic matter by ozone microbubbles.

Furthermore, the sludge remover 37 disposed above the flotation separation tank 30 is sludge collected by floating above the flotation separation tank 30 together with the ozone microbubbles generated through the second microbubble injection pipe 61b. The solids are discharged to the outside of the flotation tank 30. As such, the sludge discharged from the flotation separation tank 30 is guided to the sludge treatment apparatus (not shown) by the sludge discharge part 39.

On the other hand, the storage tank 40 disposed on one side of the floating separation tank 30 is purified first in the floating separation tank 30 to retain the purified water discharged to the lower portion of the floating separation tank 30 through the strainer (35). While the secondary purification process by ozone while discharging to the outside through the discharge port (41).

In this case, the storage tank 40 is coupled to the third micro-bubble injection pipe (61c) connected to the microbubble generator (55) through the introduction portion through which the purified water is first introduced through the floating separation tank (30).

Accordingly, the floating separation tank 30 and the storage tank 40 through the first to third micro-bubble injection pipes 61a, 61b, and 61c penetrated and coupled to the floating separation tank 30 and the storage tank 40. By supplying microbubbles containing ozone, the purification capacity of waste water can be greatly improved.

In addition, the storage tank 40 circulates a part of the purified water by the first connecting pipe (51a) to the mixing pump 50, the mixing pump 50 is the ozone transferred through the ozone generator (53) and the purified water The mixture is transferred to the pressure tank 52.

The pressurized tank 52 uniformly distributes ozone in the purified water supplied from the suction pump 50, promotes self-decomposition of ozone, and generates oxygen generated with strong oxidizing power.

In addition, the microbubble generator 55 receiving purified water containing ozone from the pressurizing tank 52 through the third connecting pipe 51c generates a plurality of microbubbles containing ozone and thus floats the separation tank 30. ) And the storage tank 40.

Accordingly, the present invention does not need to equip the water supply tank for supplying the ozone microbubbles to the flotation separation tank 30 as conventionally, without having to have various facilities such as a supply water tank for providing the supply water and the supply water. Can be supplied from 40 and reused.

In the present invention described above, it is possible to maximize the cohesion rate between the solids contained in the wastewater through a plurality of integrated flocculation tanks, and to generate fine ozone bubbles through the three phases through the flotation separation tank and the storage tank to maximize the purification effect of the wastewater. In addition, since the supply water for supplying the fine ozone bubbles is supplied from the storage tank and used, it is not necessary to have separate equipment such as a supply water tank for supplying the supply water and the supply water, thereby greatly reducing the equipment cost.

Claims (5)

(delete) (delete) In order to agglomerate the solids in the wastewater / wastewater, a flocculant and a water treatment agent are added together with the wastewater / wastewater and stirred together, and each has a cylindrical water flow guide arranged to surround a screw driven by a drive motor. A plurality of flocculation tanks for flowing the flow of water from the outside to the inside of the water flow guide and circulating to the bottom; Inflow of the treated water from the plurality of flocculation tank to firstly float the aggregates contained in the treated water by using microbubbles, and to separate the flotation by generating a microbubble secondary to the bottom of the strainer, to separate the solids Separation tank; A sludge remover disposed above the floating separation tank to discharge the sludge solidified from the floating separation tank to the outside of the separation tank; A storage tank for ozone treatment and discharged to the outside while retaining the treated water discharged from the flotation separation tank; A suction pump that sucks the purified water while passing through the storage tank and mixes the ozone transferred through the ozone generator with the purified water; An auxiliary small pressurized tank for uniformly distributing ozone in the purified water transferred from the suction pump and for promoting autolysis of ozone; The flotation tank for ozone water transferred from the pressure tank; And a microbubble generator which generates a plurality of microbubbles including ozone to circulate and supply to the storage tank and to purify and float by attaching ozone to organic matter in the wastewater. The floating separation tank is divided into first and second tanks by partitions, and first and second microbubble injection pipes connected to the microbubble generators are respectively connected to the bottoms of the first and second tanks, respectively. 2 sewage treatment device, characterized in that the strainer is arranged in the center of the tank. According to claim 3, wherein the storage tank is coupled to the third micro-bubble inlet pipe connected to the microbubble generator through the inlet through which the first purified water flows through the flotation separation tank to perform secondary purification by ozone in the storage tank. Waste water treatment apparatus, characterized in that. (delete)

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