KR101662430B1 - Conduit type apparatus for treating wastewater - Google Patents

Abstract

The present invention relates to a method for effectively treating untreated low-level organic matter and nutrients contained in sewage treatment plants or wastewater treatment plant effluent water, wherein fine bubbles containing ozone are generated in a channel through which effluent water is discharged, And the fine suspended solids are adhered to the fine bubbles so as to be raised above the water surface and collected by the non-moving type aquatic scraper and discharged out of the water path by the air lift method.
To this end, the present invention comprises an inflow pump 110 for introducing the effluent of a sewage treatment plant or a wastewater treatment plant into the waterway 100; A valve 120 installed on a bottom surface of the inlet of the water channel 100 to generate turbulence in the flow of the incoming water; A distribution pipe (130) provided at the rear surface of the vapore and formed with a plurality of small holes (131) for uniformly generating minute bubbles in the discharge water flowing into the water channel; The micro bubble generator 140 is connected to the first connection line L through a plurality of small holes 131 formed in the distribution pipe 130 and the micro bubble generator 140 is connected to the ozone generator 150 An object 160 for automatically sucking generated ozone gas is installed between a discharged water inflow pipe 170 and a fine bubble generator 140 and the discharged water inflow pipe 170 is disposed behind the suspended material collecting device 200 A scraper 210 of a non-motorized aberration scraper 200 installed on a diagonal line at an upper end of an inside of the water channel, and gratinged so that waste water flows in the front and rear sides thereof; A plurality of bearing shafts B provided on both sides of the aberration scraper 210 and a belt V installed on the first bearing shaft and the last bearing shaft; 220 are installed to rotate the aberration cup 220 by the flow velocity generated when the water flows through the water channel, and the filtered suspended matter is moved / collected to the edge by the water.

Description

[0001] The present invention relates to a wastewater treatment apparatus,

The present invention relates to a hydroelectric wastewater treatment apparatus. More particularly, the present invention relates to a method for effectively treating untreated low-concentration organic substances and nutrients contained in effluent from a sewage treatment plant or a wastewater treatment plant, comprising the steps of generating minute bubbles containing ozone in a channel through which effluent water is discharged, And the fine suspended particles are attached to the fine bubbles and are raised on the water surface, collected by the non-moving type aberration scraper, and discharged out of the water path by the air lift method.

Conventional heavy metal wastewater treatment technology is used to increase the gas-liquid contact by using various devices. There is a turbine agitation type, and its working principle is that when ozone air is sprayed through the pipe at the bottom of the water tank, And the ozonized air is rotated and mixed with water.

However, the disadvantage of the above method is that power is excessively consumed and the turbine driving part is kept submerged in water, which makes maintenance maintenance difficult.

Another wastewater treatment method is the radial method, in which when ozone air is sprayed through the pipe at the bottom of the water tank, the water is vortexed by the water pressure of the water sprayed by the discharge pressure of the pump, And the like.

However, the disadvantage of this method is that it requires pump power.

Another wastewater treatment method is a diffuser method, which refers to a method in which the ozonized air at the bottom of the tank bottoms the ozone air through the small pores of the disk plate through the piping.

However, the disadvantage of this method is that a high efficiency is maintained only when the water head of the water tank is maintained at 5 m or more, so that the efficiency is low when the height of the water tank is small and the cleaning is required once a year when the turbidity is very high.

Another wastewater treatment method is the injector method, which uses an injector to absorb the ozone gas by the pump pressure into the injector of the vacuum state and to cause it to diffuse like water.

The disadvantage of this method, however, is that pump power is required, precise selection of the injector is necessary and efficiency is inadequate in comparison with other methods.

In addition to the above methods, there are membrane type, pressure type, and the like. These technologies are generally designed and constructed by an engineering company as various technologies for increasing gas-liquid contact.

In addition, Korean Patent Application (10-2006-0016437), which is a prior patent in the field of wastewater treatment, mentions an apparatus and a method for treating a refractory material using pressurized ozone oxidation (PO2) Nov. 7, 2007) referred to the ozonated water generating device, the gas-liquid mixed structure used in the ozonated water generating device, the ozonated water generating method, and the ozonated water, and disclosed a patent (10-2008-0013780, 2008-0022521, Mar. 11, 2008) describes the ozone production apparatus.

The technique mentioned in the domestic patent publication (10-2009-0009493, Jan. 23, 2009) relates to a system for circulating water purification using ozone (O3) using a jet pump, -2006-038298, Apr. 13, 2006) discloses an apparatus for producing ozone water.

However, the conventional techniques as described above have disadvantages in that the efficiency of increasing the dissolution rate of ozone is low due to a low mass transfer efficiency due to an increase in the area of the system, and a vortex device for precipitating heavy metals in the wastewater is complicated, There is a problem that a large amount of energy is consumed for driving and the efficiency of the entire wastewater purification treatment is small.

[Patent Literature]

[Patent Document 1] Korean Patent Laid-Open No. 10-2009-0009493 (2009. 1. 23)

[Patent Document 2] Published Japanese Patent Application No. 10-2006-038298 (Apr. 13, 2006)

[Patent Document 2] Korean Published Patent Application No. 10-2008-0013780 (Feb. 13, 2008)

In order to effectively treat untreated low-concentration organic matter and nutrients contained in sewage treatment plants or wastewater treatment plant effluent water, the present invention provides a method of treating microbubbles containing ozone in a water channel through which effluent water is discharged The dissolved contaminants are oxidized and removed by ozone, and the fine suspended particles adhere to the fine bubbles and are raised above the water surface so as to be collected by the non-moving type aberration scraper and discharged out of the water path by the air lift method.

Another object of the present invention is to provide a non-powered aberration scraper which does not need any additional power because the pollutant raised above the water surface is collected by the scraper provided with the aquarium cup and is rotated by the aquarium cup installed on the scraper by the flow rate of water So that the sludge is removed.

In order to achieve the above-described object of the present invention,

An inflow pump 110 for introducing the effluent of the sewage treatment plant or wastewater treatment plant into the waterway 100;

A valve 120 installed on a bottom surface of the inlet of the water channel 100 to generate turbulence in the flow of the incoming water;

A distribution pipe (130) provided at the rear surface of the vapore and formed with a plurality of small holes (131) for uniformly generating minute bubbles in the discharge water flowing into the water channel; And

The micro bubble generator 140 is connected to the first connection line L through a plurality of small holes 131 formed in the distribution pipe 130,

The micro bubble generator 140 is provided with an object 160 for automatically sucking ozone gas generated from the ozone generator 150 between the inflow pipe 170 and the micro bubble generator 140,

The discharged water inlet pipe 170 is installed behind the suspended collector 200.

In addition, turbulence is generated in the flow of water by the baffle 120 installed at the front end of the distribution pipe 130 by flowing into the water through the distribution pipe 130 which uniformly generates minute bubbles in the water in the water channel, It is constructed so that the micro-fabric and the discharge water can be mixed thoroughly.

Further, the suspended solids collecting apparatus 200 includes a non-powered aberration scraper 210 installed on a diagonal line at the upper end of an inner side of the water channel, and gratinged so that water flows through the front and rear sides thereof. And

A plurality of bearing shafts B provided on both side surfaces of the aberration scraper 210, a belt V installed on the first bearing shaft and the last bearing shaft,

 A plurality of aberration cups 220 are installed on the belt V so that the aberration cup rotates by the flow velocity generated when the water flows through the water channel, and the suspended matters are moved / collected to the edges by the water.

The suspended solids collected on the wall surface of the water channel are sucked by the suspended solids collecting apparatus 200 attached with the air pump 300 using the air lift principle to discharge the suspended solids collected on the water surface out of the water path .

The present invention provides a water treatment wastewater treatment apparatus capable of effectively treating untreated organic pollutants and nutrients contained in sewage treatment plants or wastewater treatment plants discharged water, as well as being easily applied to existing waterways without any separate treatment facilities, It does not require new land area, and it can be easily applied to existing facilities.

FIG. 1 is a view showing a state in which a hydrothermal wastewater treatment apparatus according to the present invention is installed.
FIG. 2 is a plan view of the hydrothermal wastewater treatment apparatus according to the present invention. FIG.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the drawings, the same reference numerals are used to designate the same or similar components throughout the drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

Further, the preferred embodiments of the present invention will be described below, but it is needless to say that the technical idea of the present invention is not limited thereto and can be practiced by those skilled in the art.

As shown in FIG. 1 or FIG. 2, the flooded wastewater treatment apparatus of the present invention is provided with an inflow pump 110 for introducing effluent water from a sewage treatment plant or wastewater treatment plant into a waterway 100.

In the bottom surface of the entrance of the water channel 100, the vapors 120 are installed to generate turbulence in the flow of the incoming water.

In addition, a distribution pipe 130 having a plurality of small holes 131 is formed on the back surface of the vapors 120 so that fine bubbles are uniformly generated in the water discharged into the water channels.

The micro bubble generator 140 is connected to the first connection line L through a plurality of small holes 131 formed in the distribution pipe 130 and the micro bubble generator 140 is connected to the ozone generator 150 An object 160 for automatically sucking ozone gas is installed between a discharge water inflow pipe 170 and a minute bubble generator 140. The discharge water inflow pipe 170 is installed behind the suspended material collecting device 200 do.

At this time, water is introduced into the water through the distribution pipe 130 to uniformly generate minute bubbles in the water in the water channel, and turbulence is generated in the flow of water by the baffle 120 installed at the front end of the distribution pipe 130 The micro-bubbles and the effluent are thoroughly mixed.

The auricle scavenging device 200 includes a non-powered aberration scraper 210 diagonally installed on an inner upper side of the water channel and gratinged so that waste water flows on the front side and the rear side thereof, a plurality of bearing shafts A plurality of aberration cups 220 are installed on the belt V, and a plurality of aberration cups 220 are installed on the belt V by a flow velocity generated when water flows through the water channel As the aberration cup rotates, the filtered suspension is moved / collected to the edge of the water channel.

The suspended solids accumulated on the wall surface of the water channel 100 are sucked by the suspended solids collecting apparatus 200 attached with the air pump 300 using the air lift principle to discharge the suspended solids collected on the water surface out of the water path Respectively.

In the air pump 300, an inlet is formed in a shape of a trunk tube 310 to easily collect suspended matters.

Hereinafter, the operation sequence and operation of the present invention will be described.

1 and 2, when an inflow pump 110 installed in a sewerage treatment plant or an effluent water channel of a wastewater treatment plant is used to flow into the effluent inflow pipe 170, The ozone gas generated by the ozone generator 150 is automatically sucked into the inside of the object 160.

Then, the discharged water in which the ozone is dissolved passes through the minute bubble generator 140 and contains a large amount of minute bubbles and flows into the discharged water in the water channel again. At this time, the water flows into the water through the distribution pipe 130 so that fine bubbles are uniformly generated in the water discharged in the water channel, and turbulence is generated in the flow of water by the baffle 120 installed at the front end of the distribution pipe 130, Is completely mixed.

In addition, the minute bubbles injected into the discharged water adhere to suspended water in the water as the water flows, and the dissolved contaminants in the discharged water are removed by the dissolved ozone.

In addition, the float floating above the water surface is collected at a certain place by the belt (V) installed on the non-powered aberration scraper (210) installed in the water channel and the baffle (120) installed inside the water channel.

A plurality of the aberration cups 220 are installed under the belt V. The plurality of aberration cups 220 are installed on the lower side of the belt V, The aberration cup 220 is rotated by the flow velocity generated when the water flows through the water channel. At this time, the belt V simultaneously rotates in the direction of the inner wall side of the water channel, So that no additional power is required.

On the other hand, the suspended matters gathered on the wall surface of the water channel are sucked on the surface of the water by the fallopian tube 310 attached with the air pump 300 by using the air lift principle, and the suspended matters collected on the water surface are discharged to the outside of the water path.

At this time, it is possible to increase the treatment effect by adjusting the interval between the distribution pipe and the aberration scraper or adjusting the angle of the cradle depending on the inclination of the water channel and the water quality of the discharged water.

In the foregoing, the present invention has been described with reference to the preferred embodiments thereof with reference to the accompanying drawings. BRIEF DESCRIPTION OF THE DRAWINGS The accompanying drawings and the foregoing embodiments are provided by way of illustration for purposes of clarity of understanding to those skilled in the art to which the present invention pertains. It is, therefore, to be understood that the various embodiments of the present invention may be embodied in various forms without departing from the essential characteristics thereof, and the above-described embodiments are to be considered as illustrative and not restrictive. Accordingly, the scope of the present invention should be construed in accordance with the invention as set forth in the appended claims rather than the foregoing embodiments, and various changes, alternatives, and equivalents by those skilled in the art may be made by the inventions It is obvious that it is included in the range of.

100: channel 110: inflow pump
120: Discharge 130: Dispense piping
131: small hole 140: fine bubble generator
150: ozone generator 160:
170: discharge water inlet pipe 200: float collecting device
210: scraper 220: water cup
300: Air pump 310: Fallopian tube
B: Bearing axis V: Bearing

Claims (4)

An inflow pump 110 for introducing the effluent of the sewage treatment plant or wastewater treatment plant into the waterway 100;
A valve 120 installed on a bottom surface of the inlet of the water channel 100 to generate turbulence in the flow of the incoming water;
A distribution pipe (130) provided at the rear surface of the vapore and formed with a plurality of small holes (131) for uniformly generating minute bubbles in the discharge water flowing into the water channel; And
The micro bubble generator 140 is connected to the first connection line L through a plurality of small holes 131 formed in the distribution pipe 130,
The micro bubble generator 140 is provided with an object 160 for automatically sucking ozone gas generated from the ozone generator 150 between the inflow pipe 170 and the micro bubble generator 140,
The discharged water inlet pipe 170 is installed behind the suspended collector 200,
The suspended solids collecting device (200) comprises a non-powered aberration scraper (210) installed on a diagonal line at an inner upper side of a water channel, and gratinged so that discharged water flows on the front and rear sides thereof; And
A plurality of bearing shafts B provided on both side surfaces of the aberration scraper 210, a belt V installed on the first bearing shaft and the last bearing shaft,
A plurality of aberration cups 220 are installed on the belt V so that the aberration cup 220 is rotated by the flow velocity generated when water flows through the water channel, Wastewater treatment system. delete delete delete

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