KR101431649B1 - Apparatus for treating simultaneously wastewater and first flush and method thereof - Google Patents

Abstract

The present invention can perform the primary treatment and the initial good treatment at the same time by converting the existing primary settler into the upflow high-speed filtration facility, and use the floating filter media and the biofiltered filter in the existing clarifier for the initial good treatment It is possible to obtain stable treatment water even in the case of fluctuation of flow rate and load, and it is applicable to existing wastewater treatment facility, so that it is unnecessary to install separate facility for introducing the initial excellent treatment facility and control of the flow rate to the biological treatment facility The present invention provides a wastewater treatment apparatus and a wastewater treatment method which simultaneously perform an initial excellent effluent treatment and a primary treatment that can comply with a target water quality, and its technical structure is included in wastewater An upflow high-speed filtration facility for filtering suspended solids; Sludge reservoir; A biological treatment facility for removing dissolved organic matter contained in effluent discharged from the upflow type high-speed filtration facility; And concentrators; The present invention is characterized in that it comprises:

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a wastewater treatment apparatus and a wastewater treatment apparatus,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a wastewater treatment apparatus and a wastewater treatment method. More particularly, the present invention relates to a wastewater treatment apparatus, The present invention also relates to a wastewater treatment apparatus and a wastewater treatment method, which are capable of effectively removing pollutants generated by initial rainfall,

Generally, the pollutant load overflowing in a combined sewer is called CSO (Combined Sewer Overflows).

Here, CSO (Combined Sewer Overflows) due to the initial rainfall is greater than the amount of contaminants caused by the sewage treatment plant effluent. That is, in the case of urban areas, when the rainfall occurs, the pollutants piled up on the road and the pollutants accumulated in the pipelines flow into the sewage treatment plant at a time due to the increase in the flow rate due to the rainfall.

The concentration of BOD (Biochemical Oxygen Demand) is 150 ~ 300mg / L and the concentration of Suspended Solid (SS) is 250 ~ 400mg / L. High concentrations often occur.

In order to reduce the amount of contaminants generated by the initial storm, Korea's sewage system standards require that the concentration of water pollutants (BOD) be reduced to 40 mg / L or less before discharge, and water quality improvement of rivers and lakes Therefore, it is necessary to remove pollutants generated by such early storms more efficiently.

Here, as shown in FIG. 1, the existing wastewater treatment facility includes a primary settling tank, a biological treatment facility, and a secondary settling tank.

In the dry season, the design flow rate (1Q) is introduced into the wastewater treatment facility and processed.

In the conventional wastewater treatment facility as described above, when rainfall occurs, a large amount of initial excellent monthly water is mixed with wastewater and stormwater in a combined sewer pipe.

In the case of the early excellent pollution, pollutants on roads and roads and pollutants accumulated in the pollutants are washed and infiltrated by storm water, resulting in a problem that pollutant concentration of pollutants becomes very high.

In order to solve such a problem, as shown in FIG. 2, 3Q, which is three times the designed flow rate (1Q) during the rainfall, is processed through sedimentation and then processed through biological treatment and 2Q is discharged However, since the filtration rate (surface load ratio, Q / A), which is the design standard of the primary sedimentation basin, is specified as 1 to 2 m ² / hr in the sewage facility standard, when 3Q is introduced, it exceeds the facility standard. There is a problem that the treatment efficiency of the wastewater treatment facility is drastically lowered.

Meanwhile, as shown in FIG. 3 for solving the above-mentioned problems, a method of introducing a separate initial good facility to a conventional wastewater treatment facility has been proposed.

Here, when introducing the initial excellent facilities such as the high-speed filtration facility to the existing wastewater treatment facility, 3Q of the design flow (1Q) is flowed into the primary clarifier at the time of rainfall, and 2Q of 3Q is sent to the high- , And the design flow (1Q) flowing into the primary clarifier is processed through the biological treatment facility and then discharged through the secondary clarifier.

As described above, it is possible to increase the initial stormwater treatment efficiency by introducing the initial stormwater facilities such as the high-speed filtration facility to the existing wastewater treatment facilities, but since the initial stormwater facilities must be installed separately, the construction cost and the installation cost are incurred, There is a problem in that it is impossible to introduce such separate facilities and devices such as the generation of the free space and the securing of the spare site.

In order to solve these problems, Korean Patent Application No. 10-2008-0047645 proposes an apparatus and method for treating wastewater, which is capable of efficiently removing contaminants due to initial storms.

FIG. 4 is a diagram showing the operation of the water level variable barrier when the amount of introduced wastewater is relatively small. As shown in the figure, the primary precipitation means 60 ' The water level variable barrier wall 73 controls the flow rate of the water flowing into the biofilm 69 from the floating member filtering portion 67 and the loss head is increased The residual flow rate is automatically discharged through the outlet weir 71 through the water level variable barrier wall 73 when the flow rate flowing into the biofilm 69 is reduced.

However, since the primary clarifier is converted to a high-speed filtration facility, the index of the primary clarifier decreases, and the surface load factor The sedimentation efficiency is lowered, and the sedimentation and the filtration process must be operated at the same time, which is a disadvantage that maintenance is difficult.

SUMMARY OF THE INVENTION The present invention has been conceived in order to solve the above-mentioned problems, and it is an object of the present invention to provide a method and apparatus for treating a primary settling basin, It can be operated as a high-speed filtration facility. Therefore, it is possible to obtain stable treated water even in the case of fluctuation of flow rate and load, and it is applicable to existing wastewater treatment facility, The present invention provides a wastewater treatment apparatus and a wastewater treatment method for simultaneously performing initial excellent overflow treatment and primary treatment that can control the flow rate to a biological treatment facility without requiring installation of facilities, .

In order to accomplish the above object, the present invention provides an upflow type high-speed filtration facility for filtering suspended matters contained in wastewater by using an auxiliary filter medium; A sludge storage tank for storing intermittent backwash water to equalize the flow rate and load of the subsequent thickener; A biological treatment facility for removing dissolved organic matter contained in the effluent from the upward flow high speed filtration facility; And a concentrator for increasing the sludge concentration before injecting the backwash sludge of the sludge storage tank into a subsequent sludge treatment process; The present invention is characterized in that it comprises:

Here, a backwash device for discharging the backwash sludge of the upflow type high-speed filtration facility is provided, and the backwash device transfers the backwash sludge to the sludge storage tank.

Then, the biological treatment facility is transferred to the sludge storage tank and treated with a high concentration of organic matter generated from the backwash sludge after the concentration treatment.

At this time, the upflow type high-speed filtration facility can be converted into the first settling basin and converted to be applicable.

On the other hand, the upflow type high-speed filtration facility classifies and divides primary sedimentation basin into 2 ~ 8 units and renovates and changes them.

The upward flow filtration facility has a filtration rate (surface load ratio, Q / A) of 5 to 50 m ² / hr.

On the other hand, upflow high speed filtration facility; Sludge reservoir; Biological treatment facilities; And concentrators; The method comprising the steps of: converting an initial settling tank to an upflow high-speed filtration facility during rainfall; Introducing an initial storm into an upflow high-speed filtration facility; Processing an initial storm entering the upflow high speed filtration facility; Introducing a portion of the initial fresh water treated through the upward flow type high-speed filtration facility into a biological treatment facility and treating the same; Introducing and treating an initial storm treated through a biological treatment facility into a secondary settler; And releasing the remainder of the initial anomaly not entering the biological treatment facility; And a control unit.

(1Q) 1.1Q ~ 30Q at the initial stormwater inflow into the upflow type high-speed filtration facility; .

Injecting a flocculant into the initial stormwater flowing into the upflow type high-speed filtration facility; .

In addition, introducing the initial design flow (1Q) through the upflow type high-speed filtration facility into the biological treatment facility; .

On the other hand, discharging 0.1Q ~ 29Q of initial design flow (1Q) that does not enter the biological treatment facility; .

Here, the step of disinfecting and discharging the discharged water 0.1Q to 29Q of the designed flow rate (1Q) discharged after being processed through the upflow type high-speed filtration facility by bypassing; .

And, if the filtration is continued through the upflow type high-speed filtration facility, back washing is performed when the head loss occurs; .

At this time, the step of transferring the backwashing sludge generated in the backwash to the sludge low flow, and concentrating and treating it; .

In the meantime, there is a step of converting the upflow high-speed filtration facility into a primary clarifier during dry season; Introducing the design flow (1Q) wastewater into the primary clarifier; Treating wastewater flowing into the primary clarifier; Flowing wastewater treated through the primary clarifier into a biological treatment facility and treating the wastewater; Introducing the wastewater treated in the biological treatment facility into a secondary settling tank and reprocessing the same; And discharging the treated wastewater from the secondary settler; .

As described above, the present invention having the above-described structure can more effectively remove contaminants generated by initial storms, improve the quality of water in rivers and lakes, provide quick removal and solubility of solids It is possible to effectively oxidize the organic matter, and it is possible to obtain a stable treatment water even when the flow rate and the load are changed.

The present invention can be applied to existing wastewater treatment facilities, thereby reducing the cost of installation and construction costs for installation, reducing the installation area and installation cost of the wastewater treatment, and simultaneously operating the precipitation and filtration processes. And the maintenance and management of the treatment facility is easy.

The present invention is capable of controlling the flow rate to observe the target water quality, to prevent the index of the primary clarifier from decreasing, to prevent the surface load ratio from increasing, and to prevent the precipitation efficiency from being lowered .

FIG. 1 is a conceptual diagram schematically illustrating a process of processing wastewater during non-rainfall of a wastewater treatment apparatus according to the prior art.
2 is a conceptual diagram schematically illustrating a process of processing wastewater during rainfall of a wastewater treatment apparatus according to the related art,
3 is a conceptual diagram schematically showing a process of processing wastewater during rainfall of a wastewater treatment apparatus in which an initial stormwater treatment plant according to the prior art is installed separately.
4 is a schematic view of a conventional wastewater treatment apparatus in which a primary clarifier is modified by high-speed filtration,
5 is a conceptual diagram schematically illustrating a process of processing wastewater at the time of rainfall in the wastewater treatment apparatus that simultaneously performs the initial excellent flood water treatment and the primary treatment according to the present invention.
FIG. 6 is a plan view schematically illustrating a process of treating wastewater during the rainfall of the wastewater treatment apparatus which simultaneously performs the initial excellent flood water treatment and the primary treatment according to the present invention.
FIG. 7 is a flow chart illustrating a method for treating wastewater during rainfall in the wastewater treatment method according to the present invention,
8 is a conceptual diagram schematically illustrating a process of processing wastewater during the dry season of the wastewater treatment device that simultaneously performs the initial excellent marine water treatment and the primary treatment according to the present invention.
9 is a flowchart showing a method of treating wastewater during dry season in a wastewater treatment method according to the present invention for simultaneously performing an initial good month flow treatment and a primary treatment.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. The present invention is not limited to the scope of the present invention, but is merely an example, and various modifications can be made without departing from the technical spirit of the present invention.

FIG. 5 is a conceptual view schematically showing a process of treating wastewater during rainfall of the wastewater treatment apparatus that simultaneously performs the initial excellent flood water treatment and the first treatment according to the present invention. FIG. 7 is a plan view schematically illustrating a process of treating wastewater during rainfall of a wastewater treatment apparatus that simultaneously performs a primary treatment and a secondary treatment. FIG. 7 is a schematic plan view of a wastewater treatment apparatus according to the present invention FIG. 8 is a conceptual diagram schematically illustrating a process of processing wastewater during the dry season of the wastewater treatment apparatus that simultaneously performs the initial excellent monthly flow treatment and the primary treatment according to the present invention, and FIG. 9 is a schematic diagram of the waste water treatment system according to the present invention, FIG. 2 is a flowchart showing a method for treating wastewater during dry season in a method for treating wastewater according to a treatment apparatus.

As shown in the figure, the wastewater treatment apparatus 1 for simultaneously performing the initial excellent flood water treatment and the primary treatment according to the present invention comprises an upward flow high speed filtration facility 10, a sludge storage tank 20, a biological treatment facility 30) and a concentrator (40).

Here, the upflow type high-speed filtration facility 10 is for filtering the suspended substances contained in the wastewater by using the floating water filter (not shown). It is preferable that the upflow type high-speed filtration facility 10 is separately provided , It is also preferable that the primary settling tank 50 applied to the existing wastewater treatment apparatus is modified to be used as the upflow high-speed filtration facility 10.

For this purpose, the primary sedimentation basin (50), which is conventionally rectangular or circular, is divided and divided into 2 to 8 units to be converted and changed into an upflow type high-speed filtration facility (10).

As described above, when the existing primary settling tank 50 is modified to be applied to the upflow type high-speed filtration facility 10, the filtration rate (surface load ratio, Q / A) of the upflow type high- 5 to 50 m ² / hr.

That is, the primary clarifier 50 having the filtration rate (surface load ratio, Q / A) of 1 to 2 m ² / hr was modified to increase the filtration rate (surface load ratio, Q / A) of 5 to 50 m ² / (10).

When the existing primary settling tank 50 is converted into the upflow type high-speed filtration facility 10, the theoretical filtration rate (surface load ratio, Q / A) is theoretically 5 to 50 times faster than the conventional filtration rate It is possible to process a flow rate of 5 to 50 times or more than the flow rate to be processed in the processing apparatus.

At this time, the upflow type high-speed filtration facility 10 can be converted into a primary settler 50 and converted and applied.

By the above-described structure, it is converted into and converted into an upflow high-speed filtration facility 10 at the time of rainfall to process a large amount of initial rainfall, and converted into and converted into a first settling basin 50 during dry season to treat a certain amount of wastewater .

In an embodiment of the present invention, a sludge storage tank 20 for storing backwash sludge generated during high-speed filtration is installed. The sludge storage tank 20 may utilize an existing primary sedimentation tank or may be newly installed. Since SS concentration of backwash sludge is 3,500 ~ 5,000 mg / L, it is necessary to concentrate the sludge in order to flow into the subsequent sludge treatment process. In the case of reverse sludge sludge, it is discharged intermittently, .

The biological treatment facility 30 removes the dissolved organic matter contained in the effluent discharged from the upflow type high-speed filtration facility 10 and is connected to the upflow type high-speed filtration facility 10.

Here, the biological treatment facility 30 receives a high concentration organic matter such as a concentrated supernatant generated in the backwash sludge which is transferred to the sludge storage tank 20 and then treated and concentrated.

The biological treatment facility 30 is connected to a secondary settling tank (not shown), and the wastewater treated in the biological treatment facility 30 is introduced, treated, and discharged.

The concentrator 40 is adapted to concentrate the SS concentration to 4 to 5% in order to introduce the backwash sludge generated during the backwash into a subsequent sludge treatment process (not shown). The concentrator 40 may be a mechanical concentrator or a gravity sludge concentrator.

Meanwhile, the upflow type high-speed filtration facility 10 is provided with a backwash device 60 for discharging backwash sludge, and the backwash device 60 transfers the backwash sludge to the sludge storage tank 20.

Here, the backwashing device 60 is composed of a reverse water discharge valve (not shown) and a backwashing air injection device (not shown). As the filtration progresses, a head loss occurs. If a certain loss occurs, the backflow is performed by opening the reverse water discharge valve after shutting off the inflow.

Since the waste water from the upper part of the filter paper is used, no separate supply is required. When the reverse water discharge valve is opened, the backwash water is discharged under natural oil flow, and the solid material, .

Backwash air is used when a strong backwash is required. - The backwash water discharge valve is opened. - The backwash water discharge. - The backwash water discharge valve is closed. - Backwash air inflow. - Backwash air shutoff. .

The upflow type high-speed filtration facility 10 is provided with an inflow pipe (not shown) for introducing the initial rainwater and a discharge pipe (not shown) for discharging the inflowed sludge of the initial rainwater.

The wastewater treatment method according to the wastewater treatment apparatus 1 that simultaneously performs the initial excellent marine waters treatment and the primary treatment according to the present invention will be described with reference to FIG.

First, at the time of rainfall, the existing primary settling basin 50 is converted into an upflow high-speed filtration facility 10 and converted (S10). That is, at the time of rainfall, the pollutants piled up on the road and the pollutants accumulated in the pipelines increase in flow rate due to the rainfall, so that CSO (Combined Sewer Overflows) due to the initial rainfall is caused by the effluent of the sewage treatment plant The primary settler 50 is converted and converted to an upflow high-speed filtration facility 10 in order to treat a large amount of wastewater.

After converting the existing primary settler 50 into an upflow type high-speed filtration facility 10, the initial upflow is introduced into the upflow type high-speed filtration facility 10 (S20).

At this time, when the initial storm flows into the upflow type high-speed filtration facility 10, the initial excellent 1.1Q to 30Q of the design flow 1Q is introduced (S21).

That is, 1.1 to 30 Q of the initial storm, which is 1.1 to 30 times the designed flow rate (1Q), flows into the upstream stormwater inlet of the upflow type high-speed filtration facility 10.

In this way, the initial storm that flows into the upflow type high-speed filtration facility 10 is processed (S30). That is, after entering the initial stormwater into the upflow type high-speed filtration facility 10, the floating material contained in the wastewater of the initial stormwater is filtered and treated using the floating water filter provided in the upflow type high-speed filtration facility 10.

Here, the flocculant is injected into the initial stormwater flowing into the upflow type high-speed filtration facility 10 (S31).

As described above, the coagulant is injected into the initial stage to increase the filtration efficiency by agglomerating the colloidal solution which is much contained in the initial storm that has flowed into the upflow type high-speed filtration facility 10.

As described above, after the coagulant is injected into the initial rainwater inflowed to the upflow type high-speed filtration facility 10 and treated, some of the initial rainwater treated through the upflow type high-speed filtration facility 10 is supplied to the biological treatment facility 30 (S40).

At this time, the design flow rate 1Q of the initial stage treated through the upflow type high-speed filtration facility 10 is introduced into the biological treatment facility 30 (S41). That is, during the rainy season, the initial excellent of the design flow rate (1Q) processed through the upflow type high-speed filtration facility (10) among the initial storms of 30Q flowing into the upflow type high-speed filtration facility (10) .

Next, the initial storm treated through the biological treatment facility 30 is introduced into the secondary settler and treated (S50).

Meanwhile, the remainder of the initial storm that does not flow into the biological treatment facility 30 from the upflow high-speed filtration facility 10 is discharged (S60).

In this case, the initial excellent 0.1Q to 29Q of the design flow 1Q during the early stage which is not introduced into the biological treatment facility 30 is discharged from the upflow type high-speed filtration facility 10 (S61).

The discharged water 0.1Q to 29Q of the designed flow rate 1Q discharged after being processed through the upflow type high-speed filtration facility 10 is bypassed and disinfected and discharged (S62).

At this time, if filtration is continued through the upflow type high-speed filtration facility 10, backwash is performed when head loss occurs (S63).

As described above, the filtration is continued through the upflow type high-speed filtration facility 10 to backwash when the head loss occurs. The backwash sludge generated in the backwash is transferred to the sludge storage tank 20, The sludge is concentrated and then treated (S64).

Since the concentrated supernatant generated during the concentration of the backwashing sludge has a high concentration of organic matter, it is preferable to flow into the biological treatment facility 30 for treatment.

In the meantime, in the method of treating wastewater according to the present invention, the method of treating wastewater during dry season will be described with reference to FIGS. 8 and 9. FIG.

First, at the dry season, the upflow type high-speed filtration facility 10 is converted into a primary settler 50 to process wastewater (S10 ').

In this dry season, the upflow type high-speed filtration facility 10 is switched to the primary settling tank 50 and the wastewater of the design flow rate 1Q is introduced into the primary settling tank 50 (S20 ').

The wastewater flowing into the primary settling tank 50 is treated (S30 '). As described above, after the wastewater flowing into the primary settling tank 50 is treated, the wastewater treated through the primary settling tank 50 is introduced into the biological treatment facility 30 and processed (S40 ').

Then, the wastewater treated in the biological treatment facility 30 flows into the secondary settling tank (S50 '), and the wastewater treated in the biological treatment facility 30 is discharged (S60').

As described above, the existing primary settling basin 50 can be converted into an upflow high-speed filtration facility 10 in accordance with the dry season or the rainy season, so that it can be applied to a separate place for installing the upflow high- And facility investment is not required, so that it can be directly applied to existing wastewater treatment facilities.

While the present invention has been particularly shown and described with reference to specific embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention as defined in the appended claims. It will be easy for anyone to know.

1: a wastewater treatment device that simultaneously performs the initial excellent overflow treatment and the first treatment,
10: Upflow type high-speed filtration facility, 20: Sludge storage tank,
30: biological treatment facility, 40: concentrator,
50: primary clarifier, 60: backwash device.

Claims (15)

The filtration rate (surface load ratio, Q / A) of 5 to 50 m ² / hr is used to filter the suspended solids contained in the wastewater by using the supernatant filter. The primary clarifier is divided into 2 to 8 units (1Q) 1.1Q ~ 30Q in the initial flow of the initial storm flows, and it is converted and converted into the first settler in the dry season. High speed filtration facility;
A sludge storage tank for storing intermittent backwash water to equalize the flow rate and load of the subsequent thickener;
(1Q), which is processed through an upstream high-speed high-speed filtration facility of 30Q, which flows into the upflow type high-speed filtration facility, to remove dissolved organic matter contained in effluent discharged from the upflow type high- A biological treatment facility in which the initial storm is introduced; And
A concentrator for increasing the sludge concentration before injecting the backwash sludge of the sludge storage tank into a subsequent sludge treatment process;
(0.1Q ~ 29Q) of the initial design flow (1Q) that does not flow into the biological treatment facility in the upflow high-speed filtration facility, and discharges the design flow (1Q) And 0.1Q to 29Q are bypassed and discharged after disinfection. The wastewater treatment device simultaneously performs the initial excellent overflow treatment and the first treatment.
The method according to claim 1,
And a backwash device for discharging backwashing sludge of the upflow type high-speed filtration facility, wherein the backwashing sludge is transferred to the sludge storage tank, wherein the backwashing sludge is transferred to the sludge storage tank. Processing device.
3. The method of claim 2,
Wherein the biological treatment facility is provided with a high concentration of organic matter introduced from the backwash sludge which is transferred to the sludge storage tank and then treated after being concentrated and then treated. Device.
delete delete delete Upflow High Speed Filtration Facility; Sludge reservoir; Biological treatment facilities; And concentrators; The present invention also provides a method for treating wastewater in an wastewater treatment apparatus which simultaneously performs an initial excellent monthly flow water treatment and a primary treatment,
Converting the primary clarifier into an upflow high-speed filtration facility during rainfall;
Introducing the initial storm into the upflow high-speed filtration facility, and introducing the initial excellent 1.1Q to 30Q of the design flow (1Q) at the initial stormwater inflow;
Processing the initial stormwater flowing into the upflow type high-speed filtration facility;
Introducing a part of the initial storm treated through the upflow type high-speed filtration facility into the biological treatment facility, and treating the initial design storageway (1Q) treated through the upflow type high-speed filtration facility;
Introducing the initial storm treated through the biological treatment facility into the secondary settling tank and treating the initial stormwater; And
Discharging the initial excellent 0.1Q to 29Q of the initial design flow (1Q) not flowing into the biological treatment facility;
(1Q) discharged at a design flow rate of 0.1Q to 29Q after being processed through the upflow type high-speed filtration facility, is discharged by disinfection and bypassed. A wastewater treatment method according to an wastewater treatment apparatus capable of simultaneously performing treatment and primary treatment.
delete The method of claim 7, wherein
Injecting a flocculant into the initial stormwater flowing into the upflow type high-speed filtration facility;
The method according to any one of claims 1 to 3, further comprising the steps of:
delete delete delete 8. The method of claim 7,
Performing a backwash if the filtration is continued through the upflow type high-speed filtration facility and a head loss occurs;
The method according to any one of claims 1 to 3, further comprising the steps of:
14. The method of claim 13,
Transferring the backwash sludge generated during backwashing to a sludge low-flow stream, and concentrating and treating the backwashing sludge;
The method according to any one of claims 1 to 3, further comprising the steps of:
8. The method of claim 7,
Converting the upflow high-speed filtration facility to a primary clarifier at dry season;
Flowing wastewater of a design flow rate (1Q) into the primary clarifier;
Treating wastewater flowing into the primary clarifier;
Introducing wastewater treated through the primary clarifier into a biological treatment facility and treating the wastewater;
Introducing the wastewater treated in the biological treatment facility into a secondary settling tank and performing reprocessing; And
Discharging wastewater treated in the secondary settler;
The method of claim 1, wherein the initial sewage water treatment and the primary treatment are performed simultaneously.

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