KR102631036B1 - Pressurized Flotation Tank For Wastewater Treatment - Google Patents

Abstract

Pressurized flotation tank for wastewater treatment is launched. The pressurized flotation tank for wastewater treatment according to an embodiment of the present invention has an inlet port for introducing wastewater through a pipe piping and an discharge port for discharging the treated water to the next stage, and is used to separate sludge and floating foreign substances contained in the wastewater. It has a certain floating space, and an air generating spray device is installed near the inflow port to activate separation of floating foreign substances by generating fine bubbles by air injection in the inflowing wastewater, and the sludge settled at the bottom is discharged to the outside. In the pressurized flotation tank for wastewater treatment, the floating foreign matter removal unit is mounted on the upper part of the pressure flotation tank and scrapes and removes floating foreign matter separated from the wastewater; and a sediment removal piping unit mounted on the side of the pressurized flotation tank and in communication with the discharge port, which removes sediment by allowing the treated water discharged through the discharge port to flow to the outside for a predetermined length and then discharges it to the outside. What is included is considered the gist of the composition.
According to the present invention, it is possible to provide a pressurized flotation tank for wastewater treatment that includes a configuration that can increase the separation efficiency and storage effect of foreign substances in wastewater.

Description

Pressurized Flotation Tank For Wastewater Treatment}

The present invention relates to a pressurized flotation tank for wastewater treatment, and more specifically, to a pressure flotation tank for wastewater treatment that includes a configuration that can increase the efficiency of separating foreign substances and the storage effect of wastewater.

Wastewater treatment refers to the removal of foreign substances present in dissolved and particulate form in water. By solidifying foreign substances using various methods such as chemicals and microorganisms, and separating solidified foreign substances using physical methods, they are separated into supernatant and sludge. It refers to the process of giving.

The sedimentation method is the most common method of removing solidified foreign substances during this wastewater treatment process, but this sedimentation method has the disadvantage of taking up a large amount of land area for the installation of the facility, and the sediment being deposited decays and becomes wastewater again. , Considering these shortcomings, pressure flotation was developed.

The principle of pressure flotation is that air dissolves in water under atmospheric pressure and exists as dissolved oxygen. When water is placed in a container and the pressure is raised and air is injected, the air dissolves more than the atmospheric pressure and does not dissolve and becomes a molecule. It exists in water.

In this state, when the pressure is lowered to atmospheric pressure, the air that existed in the molecular form in the water is released back into the atmosphere.

For example, when you turn on a faucet with pressurized water, white, milky tap water may come out. This is because air exists in a molecular form in the water.

At this time, the fine air in the pressurized water and the coagulated sludge become entangled and the sludge becomes buoyant, floats on the water, and the floated sludge is removed.

To elaborate, the principle of pressurized flotation is to dissolve air in the wastewater to be treated under pressure, and when this is released to the atmosphere, the air dissolved in the wastewater becomes a large number of fine bubbles and rises, and at this time, the bubbles float in the water. This is a method in which floating matter adheres to the surrounding material and eventually rises to the surface of the water and is removed.

Looking at the existing types of pressurized flotation, there are dissolved air flotation (DAF), induced air flotation (CAF), air flotation, and vacuum flotation.

The dissolved air flotation method is divided into a full pressurization method and a partial pressurization method. The full pressurization method is a method of floating the sludge by pressurizing the entire wastewater, and the partial pressurization method is a method of floating sludge by circulating only a part of the treated water. The treatment principle is that external air is injected using an air compressor or ejector and pressurized water is created to levitate the sludge.

The induced air flotation method uses treated raw wastewater as pressurized water, and is treated by modifying the circulating pressurization type and adding anionic detergent to increase bubble generation.

The air flotation method uses a blower and a diffuser, and is a method that can simultaneously levitate fine air and particulate matter by forcibly injecting air into wastewater.

The vacuum flotation method is a method in which wastewater is injected into a vacuum space, and supersaturated air bubbles are eluted and attached to the particulate matter to levitate the particulate matter.

Since these existing pressurized flotation tanks are widely used facilities, they are easy to manage and have the advantage of easily generating microbubbles because they use various media to generate microbubbles. However, on the contrary, they are pressurized by the generation of microbubbles. As the flow in the flotation tank increases, a problem arises in which sludge, which has a greater specific gravity than water, cannot settle and remains suspended for a long time.

In addition, the removal of floating foreign substances often relies on natural drainage flow, so there is a problem of low removal efficiency.

Therefore, there is a need for technology that can solve the problems caused by the prior art.

Korean Patent Publication No. 10-0797197 (Registration date: January 16, 2008)

The purpose of the present invention is to provide a pressurized flotation tank for wastewater treatment that includes a configuration that can increase the separation efficiency and storage effect of foreign substances in wastewater.

A pressurized flotation tank for wastewater treatment according to one aspect of the present invention for achieving this purpose has an inlet port for introducing wastewater through a pipe and an discharge port for discharging the treated water to the next stage, and removes sludge and wastewater contained in the wastewater. It has a certain floating space for separating floating foreign substances, and an air generating spray device is installed near the inflow port to activate the separation of floating foreign substances by generating fine bubbles by air injection in the inflowing wastewater. In the pressure flotation tank for wastewater treatment that discharges the sludge settled in the wastewater to the outside, the floating foreign matter removal unit is mounted on the upper part of the pressure flotation tank and scrapes and removes floating foreign matter separated from the wastewater; and a sediment removal piping unit mounted on the side of the pressurized flotation tank and in communication with the discharge port, which removes sediment by allowing the treated water discharged through the discharge port to flow to the outside for a predetermined length and then discharges it to the outside. It may be a configuration that includes.

In one embodiment of the present invention, the pressure flotation tank for wastewater treatment further includes a sludge storage tank portion mounted on a side of the pressure flotation tank and storing sludge removed through the sediment removal piping portion therein. You can.

In one embodiment of the present invention, the sediment removal piping unit includes: a treated water supply pump mounted on a lower side of the pressurized flotation tank and mounted on a discharge port to deliver treated water discharged from the discharge port to the sludge separation unit; a sludge separation unit having a flat donut-shaped piping structure that allows the treated water delivered from the treated water supply pump to flow to the upper part of the sludge storage tank and then returns back; and a treated water flow unit that is mounted adjacent to one side of the sludge separation unit and operates to allow the treated water delivered from the treated water supply pump to continuously flow along the inside of the piping of the sludge separation unit.

In one embodiment of the present invention, the sediment removal piping unit is mounted inside the piping of the sludge separation unit located at the top of the sludge storage tank unit, has a structure that protrudes from the inner bottom surface of the piping structure by a predetermined height, and the piping extends. A plurality of sludge capturing blades are installed at regular intervals along the longitudinal direction and capture sludge flowing along the inner bottom surface of the sludge separation unit of the piping structure; a sludge discharge port formed on the lower surface of the sludge separation unit located at the top of the sludge storage tank unit and separating and discharging sludge captured by the sludge capturing blade downward; A vibration generator mounted on the inner surface of the sludge discharge port and one side of the sludge capturing blade, and operated by a control signal from the drive control unit to generate vibration in the ultrasonic range; and a drive control unit mounted adjacent to the sludge discharge port and controlling the rotational drive of the sludge capture blade, the opening operation of the sludge discharge port, the closing operation of the sludge discharge port, and the driving of the vibration generator.

In one embodiment of the present invention, the sediment removal piping unit may be configured to further include a piping length change unit that is mounted in the center of the sludge separation unit and extends rearward to change the piping length of the sludge separation unit.

As described above, according to the pressurized flotation tank for wastewater treatment of the present invention, by providing a floating foreign matter removal unit and a sediment removal piping section of a specific structure, it is possible to effectively remove floating foreign matter and also sedimented foreign matter at the same time, resulting in wastewater It is possible to provide a pressurized flotation tank for wastewater treatment that includes a configuration that can increase the foreign matter separation efficiency and storage effect.

Figure 1 is a perspective view showing a pressurized flotation tank for waste water treatment according to the prior art.
Figure 2 is a front view showing a pressurized flotation tank for wastewater treatment according to an embodiment of the present invention.
Figure 3 is a photograph showing the air generating injection device of the pressurized flotation tank for wastewater treatment according to an embodiment of the present invention shown in Figure 2.
Figure 4 is a photograph showing the driving part of the floating foreign matter removal unit of the pressurized flotation tank for wastewater treatment according to an embodiment of the present invention shown in Figure 2.
Figure 5 is a photograph showing the floating foreign matter removal part of the pressurized flotation tank for wastewater treatment according to an embodiment of the present invention shown in Figure 2.
Figure 6 is a photograph showing the floating foreign matter removal part of the pressurized flotation tank for wastewater treatment according to an embodiment of the present invention shown in Figure 2.
Figure 7 is a front view showing the sediment removal piping section and sludge storage tank section of the pressurized flotation tank for wastewater treatment according to an embodiment of the present invention.
FIG. 8 is a plan view showing the sediment removal piping section and sludge storage tank section of the pressurized flotation tank for wastewater treatment shown in FIG. 7.
Figure 9 is an enlarged view of portion A of Figure 7.
Figure 10 is an enlarged view of portion A of Figure 6.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the drawings. Prior to this, terms and words used in this specification and claims should not be construed as limited to their usual or dictionary meanings, but should be construed with meanings and concepts consistent with the technical idea of the present invention.

Throughout this specification, when a member is said to be located “on” another member, this includes not only cases where a member is in contact with another member, but also cases where another member exists between the two members. Throughout this specification, when a part "includes" a certain component, this means that it may further include other components rather than excluding other components, unless specifically stated to the contrary.

Figure 2 shows a front view showing a pressure flotation tank for wastewater treatment according to an embodiment of the present invention, and Figures 3 to 6 show an air generating injection device for a pressure flotation tank for wastewater treatment according to an embodiment of the present invention. A photo representing it is shown.

Referring to these drawings, the pressurized flotation tank 100 for wastewater treatment according to the present embodiment has an inlet port 11 for introducing wastewater through a pipe piping and an discharge port 12 for discharging the treated water to the next step. , It has a certain floating space (13) for separating sludge and floating foreign matter contained in the wastewater, and generates fine bubbles by air injection in the wastewater flowing into the adjacent side of the inlet port (11) to remove floating foreign matter. An air generating injection device 15 that activates separation is installed, and the pressurized flotation tank for wastewater treatment discharges the sludge settled at the lowest part to the outside, and is equipped with a suspended foreign matter removal unit and a sediment removal piping unit 120 of a specific structure. By doing so, it is possible to effectively remove suspended foreign substances and at the same time also effectively remove settled foreign substances, and as a result, it is possible to provide a pressurized flotation tank for wastewater treatment that includes a configuration that can increase the foreign matter separation efficiency and storage effect of wastewater.

Hereinafter, each component constituting the pressurized flotation tank 100 for wastewater treatment according to this embodiment will be described in detail with reference to the drawings.

The floating foreign matter removal unit 110 according to the present embodiment is mounted on the upper part of the pressure flotation tank and is configured to scrape and remove floating foreign matter separated from sewage water.

The sediment removal piping unit 120 according to this embodiment is mounted on the side of the pressurized flotation tank and is installed in a structure that communicates with the discharge port 12, and directs the treated water discharged through the discharge port 12 to the outside by a predetermined length. It is designed to remove sediment by flowing it as much as possible and then discharge it to the outside.

Figure 7 shows a front view showing the sediment removal piping and sludge storage tank of the pressure flotation tank for wastewater treatment according to an embodiment of the present invention, and Figure 8 shows the sediment removal piping of the pressure flotation tank for wastewater treatment shown in Figure 7. A plan view showing the section and the sludge storage tank section is shown, and FIGS. 9 and 10 show an enlarged view of portion A of FIG. 7.

Referring to these drawings, the sludge storage tank unit 130 according to this embodiment is mounted on the side of the pressure flotation tank and has a structure to store sludge removed through the sediment removal piping unit 120 therein.

The sediment removal piping unit 120 according to this embodiment may be configured to include a treated water supply pump 121, a sludge separation unit 122, and a treated water flow unit 123 of a specific structure.

Specifically, the treated water supply pump 121 of the sediment removal piping unit 120 is mounted on the lower side of the pressurized flotation tank, and is mounted on the discharge port to supply treated water discharged from the discharge port to the sludge separation unit 122. It can be delivered. The sludge separation unit 122 is a planar donut-shaped piping structure that allows the treated water delivered from the treated water supply pump 121 to flow to the top of the sludge storage tank unit 130 and then returns back. In addition, the treated water flow unit 123 is installed adjacent to one side of the sludge separation unit 122, and the treated water delivered from the treated water supply pump 121 continues to flow along the inside of the pipe of the sludge separation unit 122. It operates so that it can flow.

More specifically, as shown in FIGS. 8 to 10, the sediment removal piping unit 120 according to this embodiment includes a sludge capturing blade 124, a sludge discharge port 125, and a vibration generating unit 126 of a specific structure. and a drive control unit 127.

The sludge capturing blade 124 of the sediment removal piping unit 120 is a component mounted inside the piping of the sludge separation unit 122 located at the top of the sludge storage tank 130, and is attached to a predetermined amount on the inner bottom surface of the piping structure. It has a structure that protrudes as high as the height, and is mounted at regular intervals along the longitudinal direction of the pipe extension, and can capture sludge flowing along the inner bottom surface of the sludge separation part 122 of the pipe structure. The sludge discharge port 125 is formed on the lower surface of the sludge separation unit 122 located at the top of the sludge storage tank unit 130, and is structured to separate and discharge the sludge captured by the sludge capturing blade 124 downward. . The vibration generator 126 is mounted on the inner surface of the sludge discharge port 125 and one side of the sludge capturing blade 124, and is operated by a control signal from the drive control unit 127 to generate vibration in the ultrasonic range. . In addition, the drive control unit 127 is mounted adjacent to the sludge discharge port 125, and operates the rotational drive of the sludge capture blade 124, the opening operation of the sludge discharge port 125, the closing operation of the sludge discharge port 125, and the vibration generator. The operation of (126) can be controlled.

In some cases, as shown in FIGS. 7 and 8, the sediment removal pipe section 120 may be configured to include a pipe length change section 128 of a specific structure. Specifically, the pipe length change unit 128 is a component mounted on the central portion of the sludge separation unit 122 and extends rearward to change the pipe length of the sludge separation unit 122.

As described above, according to the pressurized flotation tank for wastewater treatment of the present invention, by providing a floating foreign matter removal section and a sediment removal piping section 120 of a specific structure, floating foreign matter can be removed and settled foreign matter can also be effectively removed. , As a result, it is possible to provide a pressurized flotation tank for wastewater treatment that includes a configuration that can increase the separation efficiency and storage effect of foreign substances in wastewater.

In the above detailed description of the present invention, only special embodiments thereof have been described. However, it should be understood that the present invention is not limited to the particular form mentioned in the detailed description, but rather is understood to include all modifications, equivalents and substitutes within the spirit and scope of the present invention as defined by the appended claims. It has to be.

That is, the present invention is not limited to the specific embodiments and descriptions described above, and various modifications may be made by anyone skilled in the art without departing from the gist of the present invention as claimed in the claims. is possible, and such modifications fall within the scope of protection of the present invention.

11: Inlet port
12: Discharge port
13: Levitation space
15: Air generating injection device
100: Pressurized flotation tank for sewage treatment
110: Floating foreign matter removal unit
120: Sediment removal piping section
121: Treated water supply pump
122: Sludge separation unit
123: Treated water flowing part
124: Sludge capture blade
125: Sludge outlet
126: Vibration generator
127: Drive control unit
128: Pipe length change section
130: Sludge storage tank part

Claims (5)

It has an inflow port (11) that introduces wastewater through the pipe piping and an discharge port (12) that discharges the treated water to the next stage, and has a certain floating space (13) to separate sludge and suspended foreign substances contained in the wastewater. , an air generating spray device 15 is installed to activate the separation of floating foreign substances by generating fine bubbles by air injection in the wastewater flowing in near the inlet port 11, and the sludge settled at the bottom is installed. In the pressurized flotation tank for wastewater treatment that is discharged to the outside,
A floating foreign matter removal unit 110 that is mounted on the upper part of the pressurized flotation tank and scrapes and removes floating foreign matter separated from the sewage water.
It is mounted on the side of the pressurized flotation tank and is installed in a structure that communicates with the discharge port 12. The sediment is discharged to the outside after removing the sediment by flowing the treated water discharged through the discharge port 12 to the outside for a predetermined length. Removal piping unit 120; and
A sludge storage tank unit 130 which is mounted on the side of the pressurized flotation tank and stores therein the sludge removed through the sediment removal piping unit 120;
Including,
The sediment removal piping unit 120,
A treated water supply pump 121 mounted on the lower side of the pressurized flotation tank and mounted on a discharge port to deliver treated water discharged from the discharge port to the sludge separation unit 122;
a sludge separation unit 122 having a planar donut-shaped piping structure that flows the treated water delivered from the treated water supply pump 121 to the upper part of the sludge storage tank 130 and then returns it back;
A treated water flow unit that is mounted adjacent to one side of the sludge separation unit 122 and operates to allow the treated water delivered from the treated water supply pump 121 to continuously flow along the inside of the pipe of the sludge separation unit 122. (123);
It is mounted inside the pipe of the sludge separation unit 122 located at the top of the sludge storage tank 130, has a structure that protrudes at a predetermined height on the inner bottom surface of the pipe structure, and is spaced at regular intervals along the longitudinal direction of the pipe extension. A plurality of sludge capturing blades 124 are installed and capture sludge flowing along the inner bottom surface of the sludge separation unit 122 of the piping structure;
A sludge discharge port 125 formed on the lower surface of the sludge separation unit 122 located at the top of the sludge storage tank 130 and separating and discharging the sludge captured by the sludge capturing blade 124 downwardly;
A vibration generator 126 mounted on the inner surface of the sludge discharge port 125 and one side of the sludge capturing blade 124 and operated by a control signal from the drive control unit 127 to generate vibration in the ultrasonic range; and
It is mounted adjacent to the sludge discharge port 125 and controls the rotational drive of the sludge capturing blade 124, the opening operation of the sludge discharge port 125, the closing operation of the sludge discharge port 125, and the driving of the vibration generator 126. a driving control unit 127;
A pressurized flotation tank for wastewater treatment, comprising:
delete delete delete According to paragraph 1,
The sediment removal piping unit 120,
A pipe length change unit 128 mounted on the central portion of the sludge separation unit 122 and extending rearwardly to change the pipe length of the sludge separation unit 122;
A pressurized flotation tank for wastewater treatment, characterized in that it further comprises.