KR102041539B1 - Air-jet Injector for Wastewater Sludge Reduction System - Google Patents

Abstract

The present invention discloses a diffuser for wastewater sludge reduction treatment. The present invention provides a water pipe installed in the middle of the sludge reduction apparatus; An auxiliary tube installed in the water pipe to allow high-speed external air to flow into the water pipe; and an air introduced into the water pipe inner diameter is introduced into the turbulent flow state while striking the rod and the blade to hinder decomposition of organic matter. It has the advantage of providing an environment where microorganisms are easy to decompose organic matters by supplying oxygen and providing strong impact force by simplifying the mechanical structure by the structure including an acid pipe which destroys the oil film and finely crushes sewage sludge. .

Description

Air-jet Injector for Wastewater Sludge Reduction System

The present invention relates to an acid pipe for wastewater sludge abatement treatment, in which air is efficiently distributed in a space of an abatement device so that microorganisms are easily decomposed to organic matter.

Sewage sludge, which accounts for a large part of the sludge generated from wastewater treatment, handles 25,330 thousand tons of sewage per day in Korea in 2013, and the amount of sewage sludge generated and treated is huge.

Since marine discharge, the main treatment method of sludge generated in such a large amount, has been banned under the London Convention since 2012, the sewage sludge treatment facility is installed with a huge amount of funds, and it is built in a costly drying method and landfilled on land. It's being processed.

Most sludge treatment methods are based on water treatment, and a lot of development and investment are made. Sludge of such waste water is composed of water containing inorganic and organic matter.

Therefore, if the organic sludge is decomposed and treated in the sludge treatment process, it is possible to fundamentally reduce the generation of a large amount of sewage sludge, thereby reducing the sewage sludge treatment cost.

In the sludge treatment process, a micro vortex bubble acid engine for decomposing organic sludge by supplying air to the organic sludge has been proposed in Korean Patent Publication No. 10-2011-0056370 (hereinafter referred to as "selection").

The present invention provides a porous sintered material microbubble generating part formed and manufactured by the sintering method to generate uniformly sized microbubbles, and the microbubbles increase the oxygen transfer efficiency by widening the contact area with the liquid phase in the aeration process. Provides a diffuser for microbubble generation that can be improved.

In particular, the selection is provided with a blade for generating a vortex bubble, the microbubbles generated from the microbubble generating unit behaves as a vortex flow, thereby increasing the dispersion area of the bubbles in the water while creating a liquid stirring effect The present invention relates to a fine vortex bubble diffuser that can improve and produce auxiliary power by the rotational force of a blade during diffuser operation.

The present invention is a diffuser used for supplying air to the aeration process of a wastewater treatment plant, comprising: an air chamber for branching the air evenly to the diffuser, and a porous body formed above the air chamber to split the introduced air into micro bubbles. Sintered material microbubble generating unit, the microbubble generating unit fastening means for coupling the microbubble generating unit with the air chamber, and the microbubble formed on the microbubble generating unit above the bubble generated from the microbubble generating unit by vortex flow Vortex bubble forming means consisting of a plurality of blades to make it, a rotating shaft and the rotating means is formed in the center of the vortex bubble forming means to rotate the whole blade, and formed in the lower rotating shaft to generate electricity by the rotational force of the blade Generator and storage battery to be generated, and the main pipe and lower And it can provide a connection with the main pipe, a fine bubble diffusers, characterized in that the vortex that is formed at one side of the main pipe connecting portion includes the non-return means for preventing liquid backflow to help you.

However, in the present invention, the vortex bubble forming means is provided on the sintered material microbubble generating unit so that the uniform microbubbles generated from the microbubble generating unit are dispersed / diffused widely in the water in the form of vortex, thereby delivering oxygen in water. Not only does it increase significantly, but it also has the liquid stirring effect and auxiliary energy production function by the rotating blade from the drag and vane principle of the rising bubble, so it is treated as structural complexity and mechanical composition requiring the driving force to rotate the blade. There is a problem that is not easy to manage.

KR 10-2011-0056370 A (published May 27, 2011)

The present invention has been made to solve the difficulty in handling and management due to the complexity of the conventional mechanical configuration, the object of providing an diffuser for supplying oxygen to facilitate the decomposition of the sludge as well as the compactness of the mechanical device It is done.

In addition, the present invention aims to create an environment in which microorganisms easily decompose organic materials by destroying an oil film that impedes the decomposition of organic materials by applying a great impact to the sewage and grinding the sewage sludge very finely.

In order to achieve the object of the present invention, an acid engine for wastewater sludge reduction treatment is introduced.

To this end, the present invention, the water pipe is connected to the sludge storage tank; An auxiliary tube installed in the water pipe to allow external air to flow into the water pipe at a high speed; and a state in which the air introduced into the water pipe through the auxiliary tube forms a turbulent flow Includes a diffuser to be brought into contact with the sewage sludge.

The diffuser has a shape corresponding to the water pipe, and comprises a first diffuser provided with a rod on an inner surface of the flow passage, and a second diffuser provided with a wing piece.

The first acid pipe is composed of a fixed pipe provided with a flow path connected to the water pipe, and a rod bar protruding from the inner surface of the fixed pipe toward the center of the fixed pipe,

The rod is characterized in that a plurality is installed at a uniform interval on the inner surface.

The second diffuser is composed of a fixed tube provided with a flow path connected to the water pipe, and a wing piece protruding from the inner surface of the fixed pipe toward the center of the fixed pipe, the plurality of wing pieces at a uniform interval on the inner surface Characterized in that installed.

The rod rod has a tip having a same diameter toward a center position of the fixed tube, the tip of which is formed in a tip shape, the surface of which has a first groove in the longitudinal direction and crosses the first groove in the longitudinal direction. A plurality of second grooves are formed.

The rod and the blade piece is formed to protrude toward the center from the inner diameter of the fixing tube, characterized in that formed inclined in the range of 10 ° or more and 30 ° or less in the air discharge direction of the auxiliary tube.

The rod is characterized in that the projecting obliquely formed alternately in the air discharge direction and the water inlet direction of the auxiliary tube.

    The wing piece is characterized in that the projecting obliquely formed alternately in the air discharge direction and the water inlet direction of the auxiliary tube.

The diffuser is characterized in that the first mountain engine and the second mountain engine are installed in a pair, and a plurality of the first mountain engine and the second mountain engine are installed.

According to the present invention while supplying a strong impact force while supplying air to the sludge reservoir through the diffuser, there is provided an advantage that the strong impact force is uniformly distributed.

According to the present invention, the impact on the sewage, including sludge, is promoted to facilitate the decomposition of organic matter, thereby providing the advantage of reducing the amount of sludge in the waste water.

1 is an installation state of the diffuser for wastewater sludge reduction treatment applying the present invention.
Figure 2 is a front view of the first diffuser equipped with a rod-shaped rod of the present invention.
Figure 3 is a front view of the second diffuser equipped with a wing piece of the present invention.
Figure 4 is a side view showing the inclined structure of the diffuser to which the present invention is applied.
Figure 5 is an air flow distribution by the inclined structure of the diffuser in the present invention.
Figure 6 is a side view showing an embodiment of another inclined structure of the diffuser of the present invention.
7 is an air flow distribution diagram according to another inclined structure in the present invention.

Specific embodiments in which the present invention may be practiced are described below with reference to the accompanying drawings.

These embodiments are described in sufficient detail to enable those skilled in the art to practice the invention, and it should be understood that the various embodiments of the present invention are different from one another, but need not be mutually exclusive.

For example, certain shapes, structures, and characteristics described herein may be embodied in other embodiments without departing from the spirit and scope of the invention with respect to one embodiment.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily implement the present invention.

1 is an installation state diagram of a wastewater sludge reduction treatment diffuser according to the present invention, a sludge reduction apparatus connected to a sludge storage tank is provided with a water pipe 100 for supplying air and water. The water pipe 100 is typically a cylindrical pipe and water and air supply are induced in the direction in which sewage sludge is trapped.

The water pipe 100 is provided with an auxiliary tube 200 for inducing the supply of external air to the sludge storage tank side.

The installation of the auxiliary tube 200 is to be bent in the "L" shape of the auxiliary tube 200 penetrated into the water pipe so as to penetrate from the outside of the water pipe 100 to the inside of the water pipe to discharge the air in the direction of movement of the water. To form.

 In addition, the water pipe 100 is installed in the water pipe 100 is introduced into the water pipe 300 to the air supply to the sludge storage tank side to the diffuser 300 to cause the flow and vortex is installed.

 Figure 2 is a front state of the first mountain engine is equipped with a rod-shaped rod of the present invention, Figure 3 is a front state of the second mountain engine equipped with a wing piece of the present invention,

In the diffuser 300 which causes the air supplied to the sludge storage tank to be diffused by the flow and vortex inside the water pipe 100, the air discharged from the auxiliary tube 200 is first contacted. The diffuser 350 and the second diffuser 370 allow the air dispersed in contact with the first diffuser 350 to make secondary contact.

The first acid pipe 350 and the second acid pipe 370 of the diffuser 300 are cylindrical pipes such as the water pipe 300, so that one side direction of the water pipe 300, that is, the movement direction of the water Fixed tube 310 is provided connected to the end.

Since the fixed tube 310 has the same structure as the cylindrical tube of the water pipe 100, an inner surface 320 having a cylindrical tube shape and a flow path 330 through which air and water flow are provided.

In such a fixed tube 310 is to form a vortex induction structure that causes a physical change in the flow of air and water characterized in the present invention.

In forming the vortex induction structure, the first acid pipe 350 in which air and water are primarily in contact with each other is required to not disturb the flow of air and water, and the air and water are in secondary contact. In the second acid engine 370, it is required to cause vortex phenomena as the primary dispersed air and water are further dispersed and diffused.

Such a requirement is necessary for the technical configuration to achieve the object of the present invention, while meeting the requirements of the technical configuration is to promote the decomposition of organic matter in the sludge storage tank to achieve a state in which the amount of sludge in the waste water is reduced.

Accordingly, the rod rod 351 is installed to satisfy the request of the first mountain engine 350, and the wing piece 371 is installed on the second mountain engine 370.

Referring to FIG. 2, the rod rod 315 is installed in the first acid engine 350. The rod bar 351 is formed on the inner surface 320 of the fixed tube 310 of the first acid engine 350. Is installed but is fixed to the center of the flow path 330 on the inner surface 320, a plurality of bar rods 351 are installed at a predetermined interval of the inner surface (320).

The rod bar 351 is formed of the same diameter, the tip toward the center position of the fixed tube 310 for the first dispersion and vortex formation when the air and water contact, the pointed tip portion 354, the surface The first groove 352 is formed by digging the groove in the longitudinal direction, and the second groove 353 is formed by digging several grooves crossing the first groove 352 in the longitudinal direction of the surface.

Further, in forming the wing piece 371, the wing piece 371 has a trapezoidal shape in which the width of the inner surface 320 of the fixed tube 310 is wider than the width of the center position of the flow path 330, and the wing piece ( An inclined portion 374 inclined in one direction is formed at the end of the 371, and a third groove 372 is formed by digging a groove in the longitudinal direction on the surface of the trapezoidal wing piece 371 where water and air are in contact. To form.

 5 is an air flow distribution diagram according to the inclined structure of the diffuser in the present invention, wherein the diffuser 300 is formed in a state where the first diffuser 350 and the second diffuser 370 form a pair. To be installed in the water pipe (100).

In the present invention constituted as described above, water is introduced in the inflow direction 100A of the water pipe 100, and external air is introduced into the inflow hole 210 of the auxiliary tub 200.

As such, the air and the water introduced into the water pipe 100 are first contacted with the rod 351 protruding from the flow path 330 while passing through the diffuser 300 by the flow thereof, and then the wing pieces are secondarily. In the state in contact with 371, the state moves to the outflow direction 100B.

When the water and air are primarily in contact with the rod bar 351 of the first diffuser 350, resistance of the first groove 352 and the second groove 353 is formed on the surface of the rod bar 351. As a result, air and water affect the flow of the flow, resulting in an active mixing.

In addition, the water and air passing through the rod 351 is in a state of being in secondary contact with the blade 371 of the second acid pipe 370.

At this time, since the shape of the wing piece 371 is trapezoidal, the area of the flow path 330 at the wing piece 371 position is much narrower than the area of the flow path 330 at the position of the rod bar 351. The resistance to the formation is large, the mixture is formed more actively than the rod bar 351 position.

That is, according to the law of mass conservation, the flow rate flowing from the inlet is kept constant, so that the flow velocity in the region where the flow area is relatively narrow increases rapidly.

It can be appreciated that the flow rate of the diffuser is very small in the region before the diffuser with little or no shape change, but the flow rate of air is increased in the diffuser center region.

As the flow gradually flows through the center of the diffuser, it can be confirmed that this flow is weakened. This is because the flow of the diffuser is actively mixed with water.

As such, in order to actively form a mixture in the flow of water and air, it may be maximized through another embodiment.

Figure 6 is a side view showing an embodiment of another inclined structure of the diffuser in the present invention.

Through the water pipe 100 as described above by the mechanical shape of the rod 351 and the blade 371 in the flow path 330 of the first and second acid pipes 350 and 370. To resist the flow of air and water fluid to vortex due to the flow phenomenon.

In addition, the rod rod 351 of the first mountain engine 350 and a part of the blade 371 of the second mountain engine 370 are inclined in order to generate a greater resistance to the flow of water and air fluid. It may be formed to be inclined in the flow direction of the fluid, that is, the outflow direction (100B) while the remaining part is inclined in the inflow direction of the fluid, that is, the inflow direction (100B), wherein the rod bar 351 and the wing piece ( The inclination direction of 371) may be installed alternately.

Therefore, this alternating state is formed to the maximum resistance to the flow of air and water in the flow path 330 of the diffuser 300.

 7 is an air flow distribution diagram according to another inclined structure for the diffuser in the present invention. When the inclined state of the rod bar 351 and the wing piece 371 is alternately installed in the opposite direction to each other, the flow state is largely formed in the flow path 330 of the diffuser 300 so that the sewage sludge has a large impact. Since it is repeatedly added to the state to destroy the oil film that interferes with the decomposition of the organic matter, the sewage sludge is very finely crushed to provide an environment where microorganisms are easy to decompose the organic matter. This promotes the decomposition of organic matter and reduces the amount of sludge in the waste water.

Although the embodiments of the present invention have been described above with reference to the accompanying drawings, the present invention is not limited to the above embodiments and can be manufactured in various forms, and a person of ordinary skill in the art to which the present invention pertains. It will be appreciated that the present invention may be embodied in other specific forms without changing the technical spirit or essential features of the present invention. Therefore, it should be understood that the embodiments described above are exemplary in all respects and not restrictive.

100: water pipe 100A: inflow direction 100B: outflow direction
200: auxiliary tube 210: inlet hole 300: diffuser
310: fixed tube 320: inner surface 330: euro
350: first mountain engine 351: rod rod 352: first groove
353: second groove 354: tactile 370: second mountain engine
371: wing piece 372: third groove 374: inclined portion

Claims (9)

A water pipe connected to the sludge reservoir;
An auxiliary tube installed in the water pipe to allow external air to flow into the water pipe at high speed; And
And a diffuser installed in the longitudinal direction of the water pipe to allow the air flowing into the water pipe through the auxiliary tube to come into contact with the sewage sludge in a turbulent flow.
The diffuser has a shape corresponding to the water pipe, the first diffuser having a rod formed on an inner surface of the flow passage, and a second diffuser having a wing piece formed therein,
The first diffuser, the fixed pipe is provided with a flow path connected to the water pipe, and the rod rod protruding from the inner surface of the fixed tube toward the center of the fixed tube, the rod rod is a plurality of uniformly spaced in the inner surface Is installed,
The second diffuser is composed of a fixed tube provided with a flow path connected to the water pipe, and a wing piece protruding from the inner surface of the fixed pipe toward the center of the fixed pipe, the plurality of wing pieces at a uniform interval on the inner surface Is installed
The rod is formed obliquely projected alternately in the air discharge direction and the water inlet direction of the auxiliary tube and
The wing piece is characterized in that the projecting obliquely formed alternately in the air discharge direction and the water inflow direction of the auxiliary tube, wastewater sludge reduction treatment.
delete delete delete The method of claim 1,
The rod bar,
The tip is embodied in the shape of a tip while forming the same diameter toward the center position of the fixed tube,
The surface of the wastewater sludge reduction treatment diffuser, characterized in that the surface is formed with a plurality of first grooves in the longitudinal direction, and a plurality of second grooves crossing the first grooves in the longitudinal direction.
The method of claim 1,
The rod and the blade piece,
An acid pipe for wastewater sludge reduction treatment, which is formed to protrude toward the center from the inner diameter of the fixed tube, and is inclined within a range of 10 ° to 30 ° in the air discharge direction of the auxiliary tube.
delete delete The method of claim 1,
The diffuser,
The first mountain engine and the second mountain engine are installed in a pair,
An acid pipe for wastewater sludge reduction treatment, characterized in that a plurality of first and second mountain engines are provided.

Images