KR101711038B1 - Sewage Treatment Equipment - Google Patents

Abstract

More particularly, the present invention relates to a contaminated water treatment facility, and more particularly, to a contaminated water treatment facility, in which raw water contaminated by a central part of a multi-stage purification tank is descended by gravity, passes through a primary wavy part made of coarse filter medium such as gravel, And is transported to the upper part by the raw water conveying part after passing through the secondary inflow part composed of a small filter medium such as a royal dragon, and then moved in various directions along the original water piping, falls and is secondly refined by aerobic microorganisms, To a side space divided by the partition wall portion through filtration means provided above the partition wall portion and reaching a certain height of the partition wall portion and is purified by contact with oxygen in a stepwise manner to thereby maximize the treatment efficiency of the polluted water .

Description

[0001] Sewage Treatment Equipment [

More particularly, the present invention relates to a contaminated water treatment facility, and more particularly, to a contaminated water treatment facility, in which raw water contaminated by a central part of a multi-stage purification tank is descended by gravity, passes through a primary wavy part made of coarse filter medium such as gravel, And is transported to the upper part by the raw water conveying part after passing through the secondary inflow part composed of a small filter medium such as a royal dragon, and then moved in various directions along the original water piping, falls and is secondly refined by aerobic microorganisms, To a side space divided by the partition wall portion through filtration means provided above the partition wall portion and reaching a certain height of the partition wall portion and is purified by contact with oxygen in a stepwise manner to thereby maximize the treatment efficiency of the polluted water .

Generally, polluted water such as sewage, industrial wastewater and livestock wastewater from various domestic sewage and manure septic tank are treated by water treatment and regulated by the law so that biological oxygen demand (BOD) is minimized. Large-scale apartment complexes that discharge sewage, and factories that discharge various kinds of waste water and wastewater are obliged to set up sewage treatment facilities.

Therefore, the various polluted water must be purified and discharged, and the functionality and efficiency of the treatment apparatus depend on how quickly and continuously a large number of aerobic microorganisms that lower the BOD of the wastewater in the contact oxidation tank can be cultured, When the efficiency of aerobic microorganisms is increased, it is possible to more quickly and efficiently remove suspended matters, contaminants, and chromaticities contained in sewage, sewage, and wastewater.

In order to supply the necessary oxygen for biological treatment of contaminated water or to activate water by supplying oxygen in the water, a septic tank was installed in the treatment tank of the sewage treatment apparatus. Through this operation, the oxidizing action and the digestive action by aerobic bacteria .

At this time, the microorganism removes carbon dioxide gas, hydrogen sulfide, methane gas and the like from the contaminated water by the digestive action and cleans the water.

On the other hand, there is a problem that the above-mentioned aerobic microorganism alone can not effectively treat high concentration wastewater or refractory substances. To solve this problem, Korean Patent Laid-Open No. 10-2006-0097871 discloses a sewage treatment apparatus and method, Anoxic tank through the precipitation of the sludge and the intermittent circulation, and the waste water treatment system having the automatic backwashing device of Korean Patent Laid-Open No. 10-2009-0095849 comprises a filter material receiving cage The backwash efficiency was improved by reaching sufficient pressure for the reverse water and air in all areas inside. Korean Unexamined Patent Application Publication No. 10-2011-0029506 discloses that the non-point pollution source purifying and filtering apparatus supplies oxygen to the inside of the container containing the filter medium, so that the microorganisms in the filter medium smoothly decompose pollutants in the polluted water. There is a shortcoming in that the time and space for staying in the filter medium for decomposing the pollutants in the microorganisms are insufficient and it is not easy to contact oxygen in an amount sufficient for activating the microorganisms,

KR 10-2006-0097871 A (2006.09.18) KR 10-2009-0095849 A (2009.09.10) KR 10-2011-0029506 A (March 23, 2011)

An object of the present invention is to provide a purification apparatus which is formed into a multi-stage purification tank symmetrical in the direction from the center to the edge so that the raw water introduced into the purification tank moves in both directions and the coarse filter medium, the small filter medium and the aerobic microorganism, And to provide a contaminated water treatment facility for purifying polluted water by allowing the polluted water to be contacted stepwise.

Another object of the present invention is to provide a method for purifying contaminated raw water, in which raw water drops by gravity and is raised by a pumping device and can be repeatedly lifted and lowered to forcibly change the water level to increase the oxygen permeability and increase the contact area with the filter material And to provide a polluted water treatment facility for improving the efficiency of treatment of polluted water by increasing activity of microorganisms.

It is another object of the present invention to provide a polluted water treatment facility which can easily remove contaminants by supplying sufficient oxygen to move in a multi-stage purification tank containing a filter medium so that contaminated raw water can be purified.

The present invention relates to a polluted water treatment facility for purifying contaminated raw water in a multi-stage purification tank (100) formed in a bilaterally symmetrical form, characterized in that it comprises a funnel-shaped raw water inlet (110); A primary charging unit 120 in which raw water dropped from the raw water inflow unit 110 is divided into two directions and is moved upward and passes through the first filter medium and is filtered; The first purified raw water that has passed through the through hole 121 located in the upper portion of the primary inlet portion 120 and is conveyed along the raw water conveying pipe 122 located on the outer peripheral surface of the primary inlet portion 120, A secondary overflow portion 130 through which filtration is performed; A plurality of raw milk inflow passages 141 through which the raw water having passed through the secondary feeding section 130 flows are formed at a predetermined interval and a plurality of raw water inflow passages 141 are formed, A raw water conveying unit 140 having an ascending pipe 142 and further including raw water conveying means 144 for raising raw water by a pumping device 143 moving up and down in the raw water ascending pipe 142; A raw moisture distributor 150 provided as a raw water pipe 151 extended so that raw water transferred from the raw water transfer unit 140 is divided into several directions and dropped; And an oxygen supply unit (160) for supplying oxygen into the purification tank (100); The raw water moves along the original water pipe 151 and falls through the plurality of through holes 151a provided in the original water pipe 151. When the water reaches a certain level, And is moved to the side space divided by the partition 170 through the filtration means 171 provided at the upper portion of the partition wall 170 and the discharge port 172 connected to the filtration means 171.

When the raw water reaches a certain level in the partition 170 located at the edge, the water falls down in various directions by the distribution pipe 173 extended from the upper portion of the partition 170.

The raw water transferred to the side space divided by the partition wall portion 170 is distributed by the raw water distribution portion 150 raised by the raw water transfer portion 140 and branched into a plurality of portions.

The raw water transfer means 144 of the present invention is vertically moved by the pumping device 143 in the raw water riser pipe 142 and a through hole 144a is formed in the lower surface thereof to introduce the raw water into the inside thereof.

The raw water transfer means 144 of the present invention is characterized in that the opening / closing port 144b located on the upper surface is opened when the raw water transfer means 144 is stopped in the raw water riser pipe 142.

The purifying tank 100 according to the present invention has a structure in which oxygen is introduced into the oxygen supply port 181 located on both sides of the purification tank 100 and discharged through the oxygen discharge hole 182 located inside the purification tank 100, And an oxygen supply unit 180.

The raw water drainage unit 190 of the present invention comprises a pipe extending from the center of the lower end of the purification tank 100 and discharging purified water, and a filter 191 is installed at the front end to prevent the filter medium from being discharged.

The raw water of the present invention drops down with a zigzag flow by a plurality of diaphragms 174 protruding and formed at a predetermined interval in the vertical direction at the partition wall portion 170 and flows into the raw water drain portion 190 .

Closing means 175 is provided between the filtration means 171 and the discharge port 172 of the partition wall portion 170 to rotate by the urging force of the raw water flowing in the center of rotation axis, A backflow prevention guide 175a for preventing rotation of the opening and closing means 175 by 360 degrees is further provided on the lower end side of the valve body 175.

The polluted water treatment facility of the present invention is formed as a multi-stage purification tank symmetrical in the left-right direction from the center to the edge, so that the raw water flowing into the purification tank moves in both directions, and coarse filter media, small filter media, and aerobic microorganisms, So that the contaminated water can be purified.

In addition, when the contaminated raw water is purified, the raw water drops by gravity and is raised by the pumping device and can be repeatedly lifted and lowered, thereby forcibly changing the water level, thereby increasing the oxygen permeability and contacting with the filter medium By increasing the area of the microorganism, the activity of the polluted water can be improved.

In addition, the polluted water treatment facility of the present invention is provided with a plurality of oxygen supply units mounted on a septic tank and a side oxygen supply unit passing through the inside of the septic tank, There is an advantage that the material can be easily removed.

In addition, the polluted water treatment facility of the present invention has an advantage in that the number of the partition walls can be increased according to the kind of the raw water introduced.

1 is a perspective view of a septic tank 100 of a polluted water treatment facility according to an embodiment of the present invention.
2 is a side cross-sectional view of a septic tank 100 of a polluted water treatment facility according to an embodiment of the present invention.
3 is a front sectional view of a septic tank 100 of a polluted water treatment facility according to an embodiment of the present invention.
4 is a plan view of a septic tank 100 of a polluted water treatment facility according to an embodiment of the present invention.
5 is a detailed view of the raw water transfer section 140 of the polluted water treatment facility according to the embodiment of the present invention.
FIG. 6 is a process chart for treating contaminated water using a septic tank 100 of a polluted water treatment facility according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings so that those skilled in the art can easily carry out the present invention. It should be noted that the same reference numerals are used in the different drawings to denote the same constituent elements in 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. And certain features shown in the drawings are to be enlarged or reduced or simplified for ease of explanation, and the drawings and their components are not necessarily drawn to scale.

FIG. 1 is a perspective view of a septic tank 100 of a polluted water treatment facility according to an embodiment of the present invention, FIG. 2 is a side sectional view of a septic tank 100 of a polluted water treatment facility according to an embodiment of the present invention, FIG. 4 is a plan view of a septic tank 100 of a polluted water treatment facility according to an embodiment of the present invention, and FIG. 5 is a plan view of a septic tank 100 of a polluted water treatment facility according to an embodiment of the present invention. FIG. 6 is a process diagram for processing polluted water using the purification tank 100 of the polluted water treatment facility according to the embodiment of the present invention. FIG. 6 is a detailed view of the raw water transfer unit 140 of the polluted water treatment facility.

As shown in FIGS. 1 to 4, the present invention is a polluted water treatment facility for purifying contaminated raw water in a multi-stage purification tank 100 formed in a bilaterally symmetrical shape in the direction of both side edges from a central portion,

A raw water inlet 110 in the form of a funnel which is located at the upper center of the upper part of the septic tank 100 and into which contaminated raw water flows, raw water which has fallen freely from the raw water inlet 110 is divided into two directions, And a first filter 120 which passes through the through hole 121 located in the upper portion of the primary filter 120 and is located on the outer peripheral surface of the primary filter 120, The first purified water transported along the pipeline 122 passes through a second filter medium made of a crown or the like and is subjected to filtration treatment. The second filtered overflow 130 is filled with raw water passing through the secondary overflow 130, And a raw water uptake pipe 142 is provided so that raw water flowing in from the raw milk inflow inlet 141 can rise vertically and the raw water uptake pipe 142 The pumping device 143 moves up and down A raw water transferring unit 140 having a raw water transferring unit 144 for transferring the raw water to the raw water transferring unit 140 and a raw water transferring unit 144 for transferring the raw water to the raw water transferring unit 144, And an oxygen supply unit 160 for supplying oxygen to the inside of the purification tank 100,

The raw water moves along the raw water pipe 151 and passes through the filtering unit 171 provided at the upper part of the partition 170 separating the purification tank 100 into a plurality of stages when the water falls and reaches a certain level, The partition wall portion 170 is moved to the side space divided by the partition wall portion 170 through the discharge port 172 connected to the partition wall portion 170 connected to the partition wall portion 170. When the partition wall portion 170 located at the edge reaches a certain water level, A plurality of divergent plates 174 which are distributed in a plurality of directions by the distribution pipe 173 formed at the upper part and fall down and are vertically spaced apart from each other at regular intervals in the partition wall 170, And is discharged through a raw water drainage unit 190 located at the bottom of the purification tank 100.

At this time, the raw water dropped in the raw water distributing unit 150 is secondarily purified by microorganisms after receiving oxygen from the oxygen supplying unit 160, and is separated by the separating membrane 131 located at the upper part of the secondary overflowing unit 130 And is separated from the filtered raw water in the quadrature section 130.

The raw water inlet 110 is formed in a funnel-shaped pipe so that the raw water can be easily introduced into the inside of the purification tank 100, 100 extending from the center of the primary wider portion 120 to the lower portion of the primary wider portion 120. Both sides of the primary wider portion 120 are vertically bent so that the raw water can move in both directions.

A plurality of through holes 121 are formed in the upper portion of the primary whorl part 120. The raw water transferred to the lower part of the primary whorl part 120 is moved upward by the water pressure and is filtered, 121 and the raw water conveying pipe 122 connected to the through hole 121 to move to the secondary feeding part 130. [

The raw water inlet 141 of the raw water transfer section 140 is disposed in the secondary filling section 130 so that the raw water passing through the secondary filling section 130 is supplied to a plurality of And then flows into the raw water ascending pipe 142 through the hole 141a.

The raw water flowing into the raw water ascending pipe 142 is moved upward by the raw water conveying means 144 connected to the pumping device 143 and is circulated through the raw water pipe 151 extending vertically above the raw water ascending pipe 142 It is divided into several directions.

A number of through holes 151a are formed in the original water pipe 151 so that raw water flowing along the original water pipe 151 drops.

The raw water dropped in the original water pipe 151 is filtered by microorganisms in a space located above the separation membrane 131 separated from the secondary wider portion 130. The microorganisms are supplied with oxygen from the oxygen supply unit 160 .

The raw water that has passed through the raw moisture distributor 150 is supplied with oxygen by the oxygen supplier 160. Oxygen is supplied to the oxygen supplier 160 through the oxygen inlet 161 provided in the upper portion of the raw water distributor 150, Oxygen is discharged through a plurality of oxygen outlets 162 formed on the outer circumferential surface.

At this time, the oxygen discharged through the oxygen outlet 162 increases the circulation speed of the raw water by the discharged pressure.

A plurality of the oxygen supply units 160 are disposed between the partition 170 and the partition 170 and the oxygen inlet 161 is located outside the purification tank 100.

At this time, the purification tank 100 is provided with a side oxygen supply unit 182 for allowing oxygen to flow in the oxygen supply port 181 located on both sides of the purification tank 100 and discharged through the oxygen discharge hole 182 located inside the purification tank 100, The side oxygen supply unit 180 supplies oxygen to the raw water that has passed through the distribution pipe 173 of the partition 170 located at the edge.

At this time, a plurality of through holes 173a are formed in the distribution pipe 173 of the partition 170 so that raw water can be discharged constantly.

The raw water discharged from the distribution pipe 173 of the partition 170 is staggered by the diaphragm 174 and falls down to enlarge the contact area with oxygen supplied from the side oxygen supply unit 180, And increase the efficiency of the polluted water treatment.

The raw water purified as described above is discharged through a raw water drainage unit 190 located at a lower portion of the septic tank 100. The raw water drainage unit 190 is a pipe through which raw water treated for purified water is discharged, A filter 191 is installed at a front end of the filter 191. The filter 191 is formed of a mesh net and can contain a loess ball, dolomite, etc. After use, the filter 191 is dried and then EM (microorganism solution) It can be used after being sufficiently adsorbed and semi-permanently usable.

At this time, the primary irregular portion 120 has a thick filter medium and the secondary irregular portion 130 has a small filter medium so that the raw water can pass through the filter medium in a stepwise manner. The filter medium provided in the space through which the water drops can be made of gravel or sand capable of propagating aerobic microorganisms.

In addition, the filter medium in which the aerobic microorganisms propagate is built up to a certain height between the partition wall portion 170 and the partition wall portion 170 to form an empty space above the filter medium from which the gas is discharged, The ammonia, hydrogen sulfide, and the like are generated and collected in the upper space in the upper part, so that the gas can be discharged from the upper part of the unsealed purified water tank 100.

At this time, the partition wall portion 170 may increase the number of steps in the case of a high concentration depending on the kind of raw water to be introduced, and the filtration means 171, which is installed to penetrate the upper portion of the partition wall portion 170, And the large raw water is prevented from being absorbed.

In addition, the diaphragm 174 protruding at a predetermined height at a predetermined height perpendicular to the partition 170 can generate a vortex due to the movement of the raw water, so that the contact area with the filter can be increased. When the number of contacts is increased, The area is further increased and the efficiency of the water treatment is improved.

Closing means 175 is provided between the filtration means 171 and the discharge port 172 of the partition 170 to rotate by the pushing force of the raw water flowing into the rotary shaft. And a backflow prevention guide 175a for preventing rotation of the opening and closing means 175 by 360 degrees is further provided on the lower end side. The opening and closing means 175 discharges the raw water by the amount of the raw water that has passed through the filtration means 171 by the water pressure of the raw water passing through the filtration means 171. At this time, raw water passing through the opening / closing means 175 and directed toward the discharge port 172 is prevented from flowing backward by the backflow prevention guide 175a which enables the opening / closing means 175 to rotate about 180 degrees.

5, the raw water transfer means 144 of the raw water transfer unit 140 is formed with a through hole 144a on the lower surface thereof, and raw water flows through the through hole and is opened at an inclined angle of 75 to 80 degrees on the upper surface thereof. A plurality of opening / closing openings 144b are formed. The raw water conveying means 144 moves up and down by the pumping device 143 in the raw water ascending pipe 142 and raw water flows into the inside through the through hole 144a located on the lower surface. When the raw water conveying means 144 is positioned between the upper end and the lower end of the raw water ascending pipe 142, the opening / closing port 144b is provided with elastic means such as a spring, (The raw water transfer means 144 is located at the uppermost and lowermost ends of the raw water riser pipe 142). That is, when the raw water conveying means 144 rises, the weight of the raw water located above the opening / closing port 144b becomes larger than the elastic force of the elastic means of the opening / closing port 144b so that the opening / closing port 144b is closed, 144 are positioned at the uppermost or lowermost end of the raw water ascending pipe 142 and the pumping device 143 temporarily stops, the weight of the raw water becomes smaller than the elastic force of the elastic means of the opening / closing port 144b, so that the opening / closing port 144b is opened. At this time, the pumping device 143 may be a hydraulic device or a pneumatic device, and the raw water transfer means 144 may be made of a silicon material.

As shown in FIG. 6, the polluted water treatment facility according to the embodiment of the present invention includes a raw water inlet 110 into which raw water flows, a primary superfine 120 that is filtered by a coarse filter medium, A raw water transfer unit 140 for transferring the raw water to the upper portion and a raw water distributing unit 150 for distributing the raw water transferred from the raw water transfer unit 140 in various directions to drop the raw water, An oxygen supply unit 160 for supplying oxygen to the raw water dropped from the original water distribution unit 150 and a partition wall unit 160 for separating the raw water that has been secondarily purified by the microorganism, A side oxygen supply unit 180 for supplying oxygen to the inside of the purification tank 100 from the side of the purification tank 100 and a raw water drainage unit 190 for draining the purified raw water, (Not shown) disposed in the upper center portion of the feeder 100, The raw water flowing in from the unit 110 passes through the primary superficial portion 120 and the secondary superfluous portion 130 and moves upward by the raw water transfer portion 140 and drops from the original water distribution portion 150, The contact area with the oxygen introduced through the first water passage 160 is increased and the water moves to the next step and is moved upward by the raw water transfer part 140 in the space isolated by the partition part 170 and is distributed by the original water distribution part 150 And is supplied with oxygen from the oxygen supply unit 160. The oxygen is supplied from the side oxygen supply unit 180 through the distribution pipe 173 of the partition 170 to the purified water, And is drained in the raw water drainage part 190 located at the center along the lower end face of the washing machine 100.

The raw water that has undergone such a process will be discharged in a state where the water quality is remarkably improved and the smell is removed.

As described above, the polluted water treatment facility of the present invention is composed of a multi-stage purification tank 100 symmetrical in the left-right direction from the center to the edge, so that the raw water introduced into the purification tank 100 moves in both directions and is used for purification of raw water, Small filter media and aerobic microorganisms can be contacted stepwise in a certain space, thereby purifying polluted water.

In addition, when the contaminated raw water is purified, the raw water drops due to gravity and is raised by the water pressure or the pumping device 143 so that the raw water can be repeatedly raised and lowered to forcibly change the water level, And increasing the contact area with the filter medium to increase the activity of the microorganisms, thereby improving the efficiency of the polluted water treatment.

In addition, the polluted water treatment facility of the present invention includes a plurality of oxygen supply units 160 installed in the purification tank 100 and a plurality of oxygen supply units 160 installed in the purification tank 100, There is an advantage in that contaminants can be easily removed by supplying sufficient oxygen through the supply part 180. [

In addition, the polluted water treatment facility of the present invention is advantageous in that the number of the partition walls 170 can be increased according to the type of raw water introduced.

100: septic tank
110: raw water inlet
120: 1 chord widow 121: through hole
122:
130: quadratic part 131: separator
140: Transmission of raw water 141: Introduction of raw milk
142: Raw water riser 143: Pumping device
144: Feeding means
150: Original water distribution 151: Original water piping
160: oxygen supply unit 161: oxygen inlet
162: oxygen outlet
170: partition wall portion 171: filtration means
172: exhaust port 173:
174: diaphragm 175: opening / closing means
180: side oxygen supply unit 181: oxygen supply port
182: oxygen discharge hole
190: raw water drainage part 191: filter

Claims (9)

In a contaminated water treatment facility for purifying contaminated raw water in a multi-stage purification tank (100) having a symmetrical shape,
A raw water inflow part 110 located at the upper center part of the purifying tank 100 and having a funnel-shaped raw water into which the contaminated raw water flows;
A primary charging unit 120 in which raw water dropped from the raw water inflow unit 110 is divided into two directions and is moved upward and passes through the first filter medium and is filtered;
The first purified raw water that has passed through the through hole 121 located in the upper portion of the primary inlet portion 120 and is conveyed along the raw water conveying pipe 122 located on the outer peripheral surface of the primary inlet portion 120, A secondary overflow portion 130 through which filtration is performed;
A plurality of raw milk inflow passages 141 through which the raw water having passed through the secondary feeding section 130 flows are formed at a predetermined interval and a plurality of raw water inflow passages 141 are formed, A raw water conveying unit 140 having an ascending pipe 142 and further including raw water conveying means 144 for raising raw water by a pumping device 143 moving up and down in the raw water ascending pipe 142;
A raw moisture distributor 150 provided as a raw water pipe 151 extended so that raw water transferred from the raw water transfer unit 140 is divided into several directions and dropped;
And an oxygen supply unit (160) for supplying oxygen into the purification tank (100);
The raw water moves along the original water pipe 151 and falls through the plurality of through holes 151a provided in the original water pipe 151. When the water reaches a certain level, And is moved to the side space divided by the partition wall portion 170 through the discharge port 172 connected to the filtration means 171,
The raw water conveying means 144 is vertically moved by the pumping device 143 in the raw water ascending pipe 142 and has a through hole 144a formed in the lower surface thereof so that raw water flows into the inside thereof.
The method according to claim 1,
And the water is divided in various directions by the distribution pipe (173) extended from the upper part of the partition wall (170) when the raw water reaches a predetermined level in the partition part (170) located at the edge.
The method according to claim 1,
Wherein the raw water transferred to the side space separated by the partition wall portion (170) rises by the raw water transfer portion (140) and is distributed by the original water distribution portion (150) branched into plural portions.
delete The method according to claim 1,
Wherein the raw water transfer means (144) is provided with an opening (144b) located on the upper surface when the raw water transfer means (144) is stopped in the raw water riser pipe (142).
The method according to claim 1,
The purifying tank 100 is provided with a side oxygen supply unit 182 for allowing oxygen to flow in the oxygen supply port 181 located on both sides of the purification tank 100 and discharged through the oxygen discharge hole 182 located inside the purification tank 100 180). ≪ / RTI >
The method according to claim 1,
Further comprising a raw water drainage part (190) provided at a front end of the filter (191) for preventing raw water from being discharged from the purified water tank (100) facility.
3. The method of claim 2,
The raw water is staggered by the plurality of diaphragms 174 protruding from the partition wall 170 at regular intervals and is discharged through the raw water drain part 190 located at the lower part of the septic tank 100 Polluted water treatment facility.
The method according to claim 1,
Closing means 175 is provided between the filtration means 171 and the discharge port 172 of the partition 170 to rotate by the pushing force of the raw water flowing into the rotary shaft. And a backflow prevention guide (175a) for preventing rotation of the opening / closing means (175) by 360 degrees is further provided on the lower end side of the water supply pipe

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