KR101886425B1 - Multiple Pre-treatment System for Membrane Bio-reactor - Google Patents

Abstract

The present invention relates to an MBR total preprocessor,
A coarse screen separating large coarse particles which are mixed with the raw water and are large in size,
A trash drum screen for filtering small contaminants that have passed through the screen,
A non-powered swirl-flow unwind eliminator for separating sand, scum and oil contained in raw water passing through the slab drum screen,
A slant type fine neck drum screen for separating the fine contaminants that have passed through the non-powered swirl flow eliminator,
A scraper conveyor for conveying and discharging the separated sand and the separated sand, and an air pressure conveyor,
A complicated process for separating and removing each foreign substance required in the MBR preprocessing process is unified, and each process for removing these foreign substances in a packaged MBR integrated preprocessor is made organically,
And the initial facility investment, operation cost and maintenance cost can be greatly reduced.

Description

MBR Integrated Pre-treatment System for Membrane Bio-reactor

The present invention relates to an MBR total preprocessor,

In the MBR-treated wastewater treatment, the coarse particles of large size, scum and oil particles floating on the surface of the water, fine contaminants of very small size, and various foreign substances such as sand are previously separated and removed from the raw water flowing into the MBR device, And an MBR total preprocessor for smoothly performing the membrane filtration process of the MBR device.

Membrane Bio-reactor (MBR) combines the advantages of membrane technology with activated sludge process,

As a technique which solves the disadvantages of the existing activated sludge process, for example, it is possible to maintain a high MLSS concentration in the reaction tank and to enable effective solid-liquid separation by a separation membrane,

In order to prevent the separation membrane from being damaged during the process by the MBR and allow the process to proceed more smoothly,

A process of pre-treating the raw water in advance is required before the raw water is introduced into the MBR device.

In this pretreatment process, a large coarse particle, which is mixed with the raw water, scum and oil particles floating on the water surface, a very small size fine particle, sand and the like are separated and discharged.

First, the raw water is put into a vibration damper, and coarse contaminants large in size contained in the raw water are removed in advance,

The raw water from which the coarse contaminants have been removed is introduced into the desolver remover, the sand mixed with the raw water is separated and collected separately,

After separating the small contaminants contained in the raw water first through the finishing screen

And the second step of separating the fine contaminants contained in the raw water into the drum screen.

Therefore, such an MBR pretreatment apparatus requires a complicated treatment device, a site, a manpower, and the like for separating these various foreign substances,

A huge initial facility investment cost, operation cost and maintenance cost are required.

The present invention has been made to solve the problems of the conventional MBR pretreatment apparatus,

It is an object of the present invention to provide a MBR preprocessor which is integrated with a complicated process for separating and removing each foreign substance required in an MBR preprocessing process,

And to provide an MBR comprehensive preprocessor capable of greatly reducing the initial facility investment cost, operation cost, and maintenance cost.

It is another object of the present invention to provide a method of separating and removing sand, scum, and oil in a MBR preprocessing process,

And to provide MBR comprehensive preprocessor that can reduce facility investment and operation cost.

To this end,

A coarse screen separating large coarse particles which are mixed with the raw water and are large in size,

A trash drum screen for filtering small contaminants that have passed through the screen,

A non-powered swirl-flow unwind eliminator for separating sand, scum and oil contained in raw water passing through the slab drum screen,

A slant type fine neck drum screen for separating the fine contaminants that have passed through the non-powered swirl flow eliminator,

And a scraper conveyor for conveying and discharging the separated sand and sand, and an air pressure conveyor,

A complicated process for separating and removing each foreign substance required in the MBR preprocessing process is unified, and each process for removing these foreign substances in a packaged MBR integrated preprocessor is made organically,

The initial facility investment cost, the operation cost, and the maintenance cost can be greatly reduced.

In the present invention, a complicated process for separating and removing each foreign substance required in the MBR preprocessing process is unified, and each process for removing these foreign substances is organized in one packaged MBR pre-processor,

The initial facility investment cost, operation cost and maintenance cost can be greatly reduced.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a front view showing the entire configuration of a preferred embodiment of the present invention;
Fig. 2 is a plan view,
Fig. 3 is a front view showing a constitutional state of the coarse screen provided in the present invention, Fig.
Fig. 4 is a front view showing the constitutional state of the limb drum screen provided in the present invention, Fig.
5 is a front view showing a configuration of a non-powered swirl-flow type unwind remover installed in the present invention;
6 is a top plan view,
Fig. 7 is a front view showing the drum screen installed in the present invention. Fig.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a front view showing the entire configuration of a preferred embodiment of the present invention;

FIG. 2 is a plan view,

In the MBR total preprocessor of the present invention,

A raw water inflow pipe (2) into which raw water flows;

(3), a non-powered swirl-flow desolator remover (5), a warp-type fine-neck drum screen (7), and a warp-type fine-neck drum screen (7) for separating each of different contaminants contained in raw water and sand, and;

A screw conveyor 9 and an air pressure conveyor 11 for conveying and discharging the respective separated contaminants and sand;

A process water discharge pipe 13 through which process water is discharged, and the like.

To explain this again,

The basic structure of the coarse screen 1 is a patent registered with the patent application No. 1425778 by the applicant of the present invention,

As shown in Figure 3,

The frame 103 is installed on the bottom surface of the inflow channel 101 in an oblique inclined state and the screen 104 is mounted on the front side,

A link bracket 113 is provided at an upper end of the frame 103 to connect a link 112. A drive shaft base is connected to an end of the link 112 to connect the drive shaft 123, A roller 124 is attached.

A sprocket 118 is mounted on both left and right sides of the drive shaft 123, in which a square first tooth and a second triangle second tooth are repeatedly formed on the circumference,

A first end of the chain 106 coupled to the sprocket 118 is provided with a groove 110 at one end thereof and a protrusion 112 formed at the other end thereof to be coupled to the groove of the first end, And a second end portion provided with the second end portion,

A first chain pin insertion hole is formed at a first end of the chain 106, and a second chain pin insertion hole is formed at a side of the second end portion, and between the first and second chain pin insertion holes A first engaging step is inclined on the inner surface of the groove at the first end of the chain 106, and a protrusion at the second end of the chain 106 And a second engaging jaw corresponding to the first engaging jaw is formed obliquely on the outer surface,

The first teeth of the sprocket 118 are engaged with the chain grooves formed in the chain 106 and the second teeth of the sprocket are engaged with each other between the adjacent chain 106 and the chain 106, The chain 106 adjacent to the chain 106 is engaged with the chain pin inserted in the first and second chain pin insertion holes, And is formed in such a structure that the sprocket and the shaft do not exist at the lower portion,

The distance between the chain 106 and the screen 104 is arbitrarily adjusted in accordance with the size of the obstacle so that large coarse objects of large size can be transported and unloaded.

The raw water from which large coarse particles having a large size are removed through the above process is continuously introduced into the limb drum screen 3,

The limb drum screen 3, as shown in Fig. 4,

A wedge bar or a perforated / mesh type cylindrical screen 301 for filtering a small obstacle that has passed through the screen screen 1, a hopper 303 for collecting and discharging the contaminants, and a discharge screw conveyor 305,

Compared to a flat screen, it has a cylindrical shape, so it has a large passage area,

The screen 301 is formed into a triangular wedge bar or perforated / mesh type so that the contaminants can easily fall off,

When the screen 301 is cleaned, it can be easily cleaned using a brush and pressure water outside the screen 301,

The impurities are collected by the hopper 303, dehydrated by the discharge screw conveyor 305, and then discharged.

The raw water from which small contaminants have been removed by the trash drum screen 3 is introduced into the non-powered swirl flow eliminator 5 again.

Fig. 5 is a front view showing the constitutional state of the non-powered swirl flow type unwind remover,

6 is a plan view of the same,

A circular inner inclined wall 501 is formed in the lower part and a cylindrical inner separating wall 505 is mounted in the circular gutter 503 provided on the vertical frame 502 of the wastewater treatment plant,

A raw water inlet 507 is connected along one tangential direction of the circular gangway 503 and a treated water discharge tube 509 is passed through the other side of the circular gangue 503 to pass through the tangential direction Respectively,

A guide plate 511 is installed obliquely along the inflow path of the raw water between the circular gangway 503 and the inside partition wall 505 at an inner upper portion along the raw water inlet 507,

A hopper 513 is installed at the center of the circular gangway 503 and a scum discharge pipe 517 having an automatic valve 515 mounted thereon is connected to the bottom end of the circular gangue 503. The hopper 513 is connected to the process water discharge pipe 509 A baffle 519 is disposed in front of the treated water discharge pipe 509,

A cylindrical thread conveyor 523 is provided on the lower end of the conical inclined wall 501 of the circular gangway 503 so as to be inclined upward in the upward direction.

If the raw water from which small contaminants have been removed by the trunk drum screen 3 flows through the raw water inlet 507 installed in the tangential direction of the circular gangway 503,

And proceeds along the inner wall surface of the circular gathering paper 503,

A swirling flow is formed in a center direction by a guide plate 511 installed obliquely along the inflow path of raw water between the circular gathers 503 and the inside partition wall 505,

The needle thread is settled and separated to the lower portion of the circular gathers 503 along the inner separation wall 505,

The raw water from which the needle has been removed is discharged to the outside through a process water discharge pipe 509 provided in the tangential direction of the inside separating wall 505.

At this time, the scum and oil that have floated to the water surface from the raw water flow into the inside separating wall 505 along the guide plate 511 provided on the water surface between the circular gutter 503 and the inside separating wall 505, In a state where the entrance of the process water into the process water discharge pipe 509 is blocked by the baffle 519 installed in front of the process water discharge pipe 509,

And the automatic valve 515 operated by a sensor or a timer is intermittently operated so that the scum and the oil collected in the center are collected through the scum discharge pipe 517 to the natural or pump And then discharged to the outside,

The sand mixed with the raw water proceeds together with the raw water along the inner wall surface of the circular gravel 503 and the inner separating wall 505 and then sinks downward due to the load,

Is collected along the inner wall surface of the inclined wall 501 of the circular clumpy paper 503 to the lower central portion and is then taken out along the spiral screw conveyor 523 through the needle outlet 521. [

Finally, the coarse contaminants and the raw water separated and removed from the sand, scum and oil are finally removed through the inclined fine-neck drum screen 7 while the fine contaminants are removed.

The inclined type fine neck drum screen 7 is a patent registered by the applicant of the present invention as patent No. 1370394,

As shown in Fig. 7,

A support table 703 is provided on the bottom surface of the water channel 701 and a drum screen 705 is installed on the upper surface of the support table 703 in an inclined state,

A denitration motor 721 and a dehydrator 717 and a debris chute 719 and a decelerating motor 721 are continuously connected to the center of the non-main shaft screw 713,

The drum screen 705 has a plurality of divided screens 740 that are removably bolted to the drum screen 705. The drum screen 705 is tightly formed with a reinforcing mesh having inner and outer surfaces as a perforated plate and a wire mesh, A screen cleaning nozzle 756 is provided,

A nozzle tube 761 provided with a series of bubble spray holes 759 is provided on the upper side and a microbubble generator 763 and an adjustment valve 765 are connected by a hose 767,

When the raw water flows into the inclined drum screen 705,

After the fine contaminants are filtered by a cylindrical mesh screen, they are collected by a hopper by air bubbles and high-pressure washing water, transferred and dewatered by non-spindle screws 713, and discharged to the outside.

Through the process, the treated water in which various impurities are separated and removed is discharged through the treated water discharge pipe 13,

Various kinds of impurities separated from the raw water are delivered to the screw conveyor 9 and finally discharged to the air pressure conveyor 11 installed at the end,

The collected silt is finally discharged to the pneumatic conveyor 11 through the screw conveyor 9.

Therefore, according to the MBR total preprocessor of the present invention,

A complicated process for separating and removing each foreign substance required in the MBR preprocessing process is unified, and each process for removing these foreign substances in a packaged MBR integrated preprocessor is made organically,

The initial facility investment, operation cost and maintenance cost can be greatly reduced.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. For example, the coarse screen (1) and the non-powered swirl flow eliminator (5) can perform an equal function even with a bar screen, a swirling-flow unwind eliminator, and the like. Of course not.

1: Coarse screen
2: raw water inlet pipe
3: Detail drum screen
5: Non-motorized swirl-type desilter remover
7: Slope type fine neck drum screen
9: Screw conveyor
11: Pneumatic Conveyor
13: treated water discharge pipe

Claims (2)

A raw water inflow pipe (2) into which raw water flows;
A coarse screen (1) connected to the raw water inflow pipe (2) for separating large coarse particles contained in the introduced raw water,
A limb drum screen 3 connected to the knotting screen 1 for filtering small particles passing through the knotting screen 1,
A non-powered swirl flow eliminator 5 connected to the slender drum screen 3 for separating sand, scum and oil contained in raw water passing through the slender drum screen 3,
An inclined fine neck drum screen 7 connected to the non-powered swirl flow eliminator 5 for re-separating the fine contaminants that have passed through the non-powered swirl flow eliminator 5,
A screw conveyor 9 and an air pressure conveyor 11 for conveying and discharging the separated contaminants and sand,
And a treatment water discharge pipe (13) through which the treated water separated and removed from each of the contaminants and the sand is discharged. In the MBR general pretreatment apparatus,
The non-powered swirl flow eliminator 5 is provided with an inner separation wall 505 through which raw water containing scum and oil is introduced into the circular gangway 503, A guide plate 511 is installed between the inner upper portion of the inlet 507 and the inner separating wall 505 obliquely along the inflow path of the raw water,
A process water discharge pipe 509 is connected along the tangential direction of the inner separating wall 505,
A baffle 519 is provided in front of the process water discharge pipe 509 to block the entry of scum and oil,
A hopper 513 connected to the automatic valve 515 and the scum discharging pipe 517 is provided at the center of the circular gluing paper 503 so as to discharge the scum and oil collected at the center portion centripetally intermittently to the outside MBR synthesis preprocessor. delete

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