KR20220076638A - Apparatus For Removing Sludge For Waste Water Treatment System - Google Patents

Abstract

The present invention is a sludge treatment apparatus for a wastewater treatment system that, after injecting a coagulant into various harmful substances contained in the wastewater to be treated, floats and removes sludge containing harmful substances by using the microbubbles generated by the air jet nozzle. is about Its composition is; a main treatment tank for providing a floating separation tank where the sludge floats and the treated water settles; a reaction tank installed inside the main treatment tank as a place where the input raw wastewater and the coagulant react, and a raw wastewater inlet pipe is connected to one side to receive raw wastewater from the outside; a two-fluid injection device installed in the reactor and configured to simultaneously spray gas and liquid to the supplied raw wastewater; a treatment tank for receiving and storing the treated water deposited in the main treatment tank through a treated water transfer pipe; a circulation pump pumping the treated water in the treatment water tank and supplying it to the two-fluid injection device in the reaction tank; and a sludge collecting unit for collecting sludge floating on the liquid level of the floating separation tank .

Description

Sludge treatment device for waste water treatment system {Apparatus For Removing Sludge For Waste Water Treatment System}

The present invention relates to a wastewater treatment system, and after injecting a coagulant into various harmful substances contained in the wastewater to be treated, microbubbles generated by the air jet nozzle are used to float and remove sludge containing harmful substances. It is a sludge treatment device for the treatment system.

A conventional floating treatment apparatus typically includes a chemical reaction tank 1 , a main treatment tank 2 and a pressure tank 3 as shown in FIG. 1 . After the flocculation reaction is completed from the outside, the ejector 5 is installed between the discharge and the suction part of the pressurizing pump 4 for a part of the treated water flowing into the main treatment tank 2 at the same time. The ejector 5 transfers the sucked air to the pressurized tank 3 .

Inside the pressurized tank 3, liquid and gas are operated at a considerable pressure, and after being joined with the reaction water of the chemical reaction tank 1, it is transferred to the main treatment tank 2, and then is ejected to atmospheric pressure.

However, in the wastewater treatment apparatus having the conventional main treatment tank as described above, a lot of sludge did not float, and the sludge containing harmful substances was not effectively treated, and the price of the facility was too high compared to the performance. In addition, there was a problem in that cost was consumed in maintenance due to the need for several attachments.

On the other hand, conventional technologies such as Republic of Korea Patent Registration No. 10-1228227 are generally only about a method for treating or recycling the collected sludge and an apparatus thereof.

And Republic of Korea Patent Registration No. 10-0783629 is a device for collecting the floating sludge, not for the sludge to float quickly.

Republic of Korea Patent Registration No. 10-1228227 Republic of Korea Patent Registration No. 10-0783629

In response to the above problems, the present invention has a simple structure, so that facility costs can be reduced, maintenance costs can also be reduced, and on the other hand, an object of the present invention is to provide a sludge treatment apparatus for a wastewater treatment system having a high sludge treatment effect. do it with

More specifically, the purpose of providing a sludge treatment device for a wastewater treatment system of a simple structure that does not require a conventional chemical reaction tank, a pressurized tank, and an ejector by installing the chemical reaction tank and the pressurized tank in one piece without installing them separately do.

The above object, the main treatment tank to provide a floating separation tank where the sludge is floated and treated water is settled; a reaction tank installed inside the main treatment tank as a place where the input raw wastewater and the coagulant react, and a raw wastewater inlet pipe is connected to one side to receive raw wastewater from the outside; a two-fluid injection device installed in the reactor and configured to simultaneously spray gas and liquid to the supplied raw wastewater; a treated water discharge unit for discharging the treated water deposited in the main treatment tank to the outside of the floating separation tank through a treated water transfer pipe; a treatment tank for receiving and storing treated water from the treated water discharge unit; and a sludge collection unit configured to collect sludge floating on the liquid level of the floating separation tank.

According to another feature of the present invention, the two-fluid injection device includes: a mixing pipe to which a raw wastewater supply pipe is connected to one side and installed upright inside the reaction tank;

a nozzle tube installed inside the mixing tube, through which a liquid is introduced from the outside;

an air injection pipe installed inside the nozzle tube, through which air is injected; and an air supply unit for supplying compressed air to the air injection pipe.

According to another feature of the present invention, the lower end of the nozzle tube may have a conical shape such that the diameter is gradually reduced.

According to another feature of the present invention, the liquid supplied to the nozzle tube may be treated water supplied from the treatment water tank through a circulation pump and a circulation water transfer pipe.

According to another feature of the present invention, the reaction tank and the treatment water tank are provided by installing a wall on one side of the main treatment tank; The floating separation tank may be a portion other than the reaction tank and the treatment water tank.

According to the above configuration, many ultrafine bubbles are generated by the air jetting device, and the treatment effect is increased because a much larger amount of sludge can be floated by these bubbles compared to the existing ones;

In addition, the configuration is simple because it does not require a chemical reaction tank, a pressurized tank, and an ejector; Therefore, it can be installed and operated even in a narrow space; A sludge treatment device for a wastewater treatment system is provided, which is more economical by requiring less cost for maintenance including equipment due to a simple configuration.

1 is a block diagram of a wastewater treatment system according to the prior art.
2 is a side configuration diagram of a sludge treatment apparatus for a wastewater treatment system according to an embodiment of the present invention.
3 is a plan view of a sludge treatment apparatus for a wastewater treatment system according to an embodiment of the present invention.
4 is a side configuration diagram of a two-fluid injection device of a sludge treatment device for a wastewater treatment system according to an embodiment of the present invention.
5 is a detailed configuration diagram of a two-fluid injection device of a sludge treatment device for a wastewater treatment system according to an embodiment of the present invention.
6 is a side configuration diagram of a water level control device of a sludge treatment device for a wastewater treatment system according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. An embodiment of the present invention will be described with reference to FIGS. 1 to 6 simultaneously.

The present invention is a wastewater treatment system that purifies wastewater by adding a coagulant to various harmful substances included in the wastewater to be treated, and then levitating and removing the sludge containing the harmful substances using the microbubbles generated by the air jet nozzle. processing device.

The sludge treatment apparatus for the wastewater treatment system of the present invention basically includes a main treatment tank 100 , a reaction tank 113 , a double-fluid injection device 101 , a floating separation tank 115 , and a treatment water tank 118 . . And a sludge collecting unit 114 may be installed at the upper portion of the main treatment tank 100 .

According to the present embodiment, the reaction tank 113 and the treatment water tank 118 may be provided by respectively installing walls on one side of the inner side of the main treatment tank 100 . In addition, the floating separation tank 115 may be the remaining part except for the reaction tank 113 and the treatment water tank 118 .

That is, the main treatment tank 100 is divided into a floating separation tank 115 , a reaction tank 113 , and a treatment water tank 118 , and is an upper open storage tank. The main treatment tank 100 may be provided with a drain means 102 for discharging the liquid when the water level is higher than the limit value. The main treatment tank 100 has a rectangular shape in plan view.

The reaction tank 113, where the raw wastewater and the coagulant react, is installed inside the main treatment tank 100, in particular, biased toward one side. The reaction tank 113 may be provided simply by installing two walls having different heights inside the main treatment tank 100 . That is, the treatment apparatus of the present invention may be provided integrally with one treatment water tank 100 as the center.

The reaction tank 113 is also of an open top type, and the height of its wall is lower than that of the wall of the main treatment tank 100 . Furthermore, the height of the wall of the reactor 113 is lower than the water level. The coagulant may be introduced into the reaction tank 113 or a mixing pipe 112 to be described later.

A raw wastewater inlet pipe 111 is connected to one side of the reaction tank 113 to supply raw wastewater from an external circulation pump.

A two-fluid injection device 101 is installed inside the reaction tank 113 . The two-fluid injection device 101 is to separate the sludge from the raw wastewater by generating (super)fine bubbles in the reaction tank 113 . The two-fluid jetting device 101 has a structure to simultaneously jet gas and liquid to raw wastewater.

The two-fluid injection device 101 includes a mixing pipe 112 , a nozzle tube 110 , an air injection pipe 109 , and an air supply unit 108 . The mixing pipe 112 is installed upright in the center of the reaction tank 113 . The upper end of the mixing tube 112 is positioned lower than the liquid level, and the lower end is spaced apart from the bottom surface 113a of the reactor. The raw wastewater inlet supply pipe 111 is connected to the nozzle tube 110 of the double-fluid injection device . As a result, the raw wastewater flows into the nozzle tube 110 of the air injection device .

A nozzle tube 110 is installed coaxially in the mixing pipe 112 . The upper end of the nozzle tube 110 protrudes upward from the upper end of the mixing tube 112 , and the lower end is located at a higher point than the lower end of the mixing tube 112 . The lower end 110a of the nozzle tube 110 has a conical shape. The nozzle tube 110 gradually decreases in diameter toward the bottom, so that the speed of the fluid discharged to the lower part is increased. The liquid is supplied to the inside of the nozzle tube 110 from the outside.

The air injection pipe 109 through which the air is injected is fixedly installed inside the nozzle tube 110 so as to be located on the same axis. The air supply unit 108 for supplying compressed air supplies compressed air to the air injection pipe 109 . Compressed air is injected from the lower end of the air injection pipe (109).

The lower end of the air injection pipe 109 protrudes slightly more downward than the lower end of the nozzle tube 110 . When compressed air is injected from the air injection pipe 109, the liquid in the nozzle tube 110 is sucked out through the ring-shaped space between the air injection pipe 109 and the nozzle tube 110 and mixed with the air, in this process Air is finely pulverized to form (ultra)fine bubbles.

Finely pulverized air bubbles have a large number of particles and low specific gravity, so they are easily combined with the sludge contained in the raw wastewater. However, microbubbles and sludge are ejected into the reaction tank 113 through the lower end of the mixing pipe 112 by the injection force. The microbubbles and sludge discharged from the lower end of the mixing pipe 112 collide with the bottom surface 113a of the reaction tank or float upward by low specific gravity from the vicinity thereof. Accordingly, the sludge is diffused throughout the floating separation tank 115 through the upper opening of the reaction tank 113 .

The sludge floating in the main treatment tank 100 is collected by the sludge collecting unit 114 . The sludge collector 114 is collected by a belt 114a and a scraper 114b that behave in a manner similar to a conveyor. The sludge collecting part 114 is installed on the upper part of the floating separation tank 115 which is a main part of the main treatment tank 100 .

The fluid in the reaction tank 100 is continuously circulated as shown by the arrow in FIG. 4 , and in this circulating process, the sludge is continuously collected and treated water remains in the lower layer inside the main treatment tank 100 . Meanwhile, the liquid supplied to the nozzle tube 110 may be treated water stored in the treatment water tank 118 . The treated water is supplied to the inside of the nozzle tube 110 through the circulation water transfer pipe 107 by the circulation pump 116 .

The treated water in the main treatment tank 100 is supplied to the treatment water tank 118 through the treated water transfer pipe 117 . The inlet end of the treated water transfer pipe 117 is located below the main treatment tank 100 , and the outlet end is connected to the treated water tank 118 . If necessary, it may be forcibly supplied by a pump, but it may also be allowed to flow naturally by atmospheric pressure. According to this embodiment, the water levels of the main treatment tank 100 and the treatment water tank 118 may be maintained to match the installation height of the drain means 102 . The treated water is supplied to the treated water tank 118 through the treated water transfer pipe 117 in the direction of the arrow K.

The treated water tank 118 receives and stores the treated water from the treated water transfer pipe 117 and carries it out. The treatment water tank 118 may be provided on one side of the inside of the main treatment tank 100 . The wall height of the treatment tank is equal to the wall height of the main treatment tank. Therefore, the sludge cannot flow into the treatment water tank 118 . The treatment water tank 118 may also be provided simply by installing a wall inside the main treatment tank.

A water level adjusting device 119 for adjusting the water level of the treated water is installed in the treated water tank 118 . As shown in FIG. 6 , the water level control device 119 includes a cover pipe 131 that rises and goes down as the handle 130 is rotated. The cover pipe 131 is fitted outside the discharge end 117a of the treated water transfer pipe. The treated water is discharged to the outside when the water level in the treatment water tank 118 exceeds a set value. The treated water may be discharged from the treatment water tank 118 in a variety of ways.

What has been described above is only a few examples based on the technical idea of the present invention. Those skilled in the art will be able to make various modifications using the illustrated bar without going beyond the scope of the technical spirit of the present invention expressed through the claims. For example, all embodiments described above can be freely combined and practiced by those skilled in the art, and any combination should be construed as being included in the scope of the present invention.

100: main treatment tank 101: air injection device
102: drain means 107: circulating water transfer pipe
108: air supply unit 109: air injection pipe
110: nozzle tube 111: raw waste water inlet pipe
112: mixing tube 113: reaction tank
114: sludge collecting unit 115: floating separation tank
116: circulation pump 117: treated water transfer pipe
118: treatment water tank 119: water level control device

Claims (5)

a main treatment tank for providing a floating separation tank where the sludge floats and the treated water settles;
a reaction tank installed inside the main treatment tank as a place where the input raw wastewater and the coagulant react, and a raw wastewater inlet pipe is connected to one side to receive raw wastewater from the outside;
a two-fluid injection device installed in the reactor and configured to simultaneously spray gas and liquid to the supplied raw wastewater;
a treated water discharge unit for discharging the treated water deposited in the main treatment tank to the outside of the floating separation tank through a treated water transfer pipe ;
a treatment tank for receiving and storing treated water from the treated water discharge unit; and
a sludge collecting unit for collecting sludge floating on the liquid level of the floating separation tank;
A sludge treatment device for a wastewater treatment system comprising a.
According to claim 1,
The two-fluid injection device may include: a mixing pipe to which a raw wastewater supply pipe is connected to one side and installed upright inside the reactor;
Where the liquid is introduced from the external circulation pump, the nozzle tube is installed inside the mixing pipe;
an air injection pipe installed inside the nozzle tube, through which air is injected; and an air supply unit for supplying compressed air to the air injection pipe.
According to claim 1,
The sludge treatment apparatus for a wastewater treatment system, characterized in that the lower end of the nozzle tube is in the form of a cone so that the diameter is gradually reduced.
According to claim 1,
The liquid supplied to the nozzle tube is a sludge treatment apparatus for a wastewater treatment system, characterized in that the treated water is supplied from the treatment water tank through a circulation pump and a circulation water transfer pipe.
According to claim 1,
A sludge treatment apparatus for a wastewater treatment system, characterized in that a water level adjusting device 119 for adjusting the water level of the treated water is installed in the treatment water tank.

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