KR102813982B1 - Reduction Apparatus for Pollution of Small Scale Wastewater Treatment Equipment - Google Patents

Abstract

The pollution reduction device for a small-scale sewage treatment facility of the present invention comprises: an air injection unit (10) into which air is injected into the upper portion; a receiving tank (20) provided at the lower portion of the air injection unit (10), formed long from the upper portion to the lower portion, and having an air passage (21) formed in the central portion so as to be in communication with the air injection unit (10) and through which air passes; a contaminated water inflow pipe (22a) provided on the outer side of the air passage (21) and into which contaminated water collected from the collecting tank is introduced at one upper side; and a contaminated water receiving unit (22) formed in which contaminated water supplied from the collecting tank is received; a filter unit (30) which vertically partitions the air passage (21) and the contaminated water receiving unit (22) of the receiving tank (20) into long sections, and filters the contaminated water received in the contaminated water receiving unit (22) of the receiving tank (20) and discharges it through the air passage (21); An air and filtered water discharge unit (40) is provided at the lower portion of the air path (21) of the receiving tank (20) so that air flowing in the air path (21) and filtered water filtered by the filter unit (30) are discharged to the aeration tank; and a compressed air supply unit (50) that supplies compressed air to the air injection unit (10) so that the contaminated water contained in the contaminated water receiving unit (22) of the receiving tank (20) can be filtered by the filter unit (30) and discharged through the air path (21) by a pressure difference between the pressure in the contaminated water receiving unit (22) of the receiving tank (20) and the pressure in the air path (21) and acts in an inwardly suctioning direction of the filter unit (30).

Description

{Reduction Apparatus for Pollution of Small Scale Wastewater Treatment Equipment}

The present invention relates to a pollution reduction device for a small-scale wastewater treatment facility, which reduces the concentration of high-concentration organic matter and suspended matter in a collection tank in a small-scale wastewater treatment facility, thereby stably supplying the microbial load of a biological reactor and improving treatment efficiency.

Small-scale wastewater treatment facilities refer to wastewater treatment facilities with a daily wastewater treatment capacity of less than 500 tons.

The general structure of a small-scale wastewater treatment facility consists of an inflow tank, a coarse screen, a collection tank, a distribution tank, a biological reactor, a sedimentation tank, a discharge tank, and a sludge storage tank.

The above inflow tank receives small-scale wastewater and the received wastewater passes through a coarse screen.

The above coarse screen is a facility that physically separates and deposits sand with high specific gravity and foreign substances with large volume contained in wastewater flowing in from the above inflow tank, thereby protecting pipes and other mechanical equipment.

The above-mentioned collection tank collects contaminated water to treat wastewater from which foreign substances have been filtered out by the coarse screen.

The above distribution tank is a place where a certain amount of wastewater is treated from the stored collection tank, and plays a role in mixing the sludge returned from the biological reactor with the contaminated water collected from the collection tank and introducing them into the biological reactor.

The above biological reactor is a facility that purifies wastewater distributed from a distribution tank using microorganisms. It injects and stirs air (oxygen) necessary to remove organic substances by promoting biological reactions such as oxidation of organic substances by activated sludge, proliferation of sludge, and auto-oxidation.

The above sedimentation tank plays a role in separating solid and liquid from wastewater purified by the biological reactor, i.e., separating it into sludge and treated water.

At this time, organic matter decomposed by microorganisms in the biological reactor is separated into sludge and effluent in the sedimentation tank, and the sludge settled at the bottom of the sedimentation tank is returned to the biological reactor by the sludge return pump and reprocessed.

The above discharge tank serves to discharge purified treated water to the outside.

The above sludge storage tank is a facility for storing sludge separated from a sedimentation tank, precipitating the sludge, and then finally processing it.

In these small-scale wastewater treatment facilities, the capacity of the collection tank is designed to be increased by 15% or more of the design capacity. However, because they are small-scale, if the inflow water increases or unknown water enters, there will be a major problem with the treatment efficiency.

In addition, existing small-scale wastewater treatment facilities do not have a fine screen device other than a collection tank after a coarse screen, so when high-concentration organic matter flows into the biological reactor, the treatment efficiency becomes very low due to the high load, making operation difficult.

Therefore, a method is required to improve treatment efficiency by reducing the concentration of high-concentration organic matter and suspended solids in the collecting tank and stably supplying the microbial load of the bioreactor.

The present invention has been made to solve the above problems, and the purpose of the present invention is to provide a pollution reduction device for small-scale wastewater treatment facilities that reduces the concentration of high-concentration organic matter and suspended matter in a collecting tank, thereby stably supplying the microbial load of a biological reactor and improving treatment efficiency.

Another object of the present invention is to provide a pollution reduction device for small-scale wastewater treatment facilities that can reduce filtration costs by replacing a contaminated portion of the filter without replacing the entire filter, and that is easy to replace.

Another object of the present invention is to provide a pollution reduction device for small-scale wastewater treatment facilities that improves filtration efficiency by filtering using compressed air used for aeration.

In order to achieve the above object, the pollution reduction device for a small-scale wastewater treatment facility of the present invention comprises: an air injection unit (10) provided between a collection tank in which polluted water filtered from introduced wastewater by a coarse screen is collected, and an aeration tank in which organic matter is purified by microorganisms; an air passage (21) formed at the upper portion thereof, which is provided at the lower portion of the air injection unit (10), is formed long from the upper portion to the lower portion, and is connected to the air injection unit (10) at the central portion thereof to allow air to pass therethrough; a contaminated water inflow pipe (22a) provided at the upper portion of the air passage (21) and into which polluted water collected from the collection tank is introduced; and a contaminated water receiving unit (22) formed in which polluted water supplied from the collection tank is received; A filter section (30) that vertically divides the air path (21) and the contaminated water receiving section (22) of the receiving tank (20) into long sections, and filters the contaminated water received in the contaminated water receiving section (22) of the receiving tank (20) and discharges it through the air path (21); an air and filtered water discharge section (40) provided at the lower portion of the air path (21) of the receiving tank (20) and discharges the air flowing through the air path (21) and the filtered water filtered by the filter section (30) to the aeration tank; It is characterized by including a compressed air supply unit (50) that supplies compressed air to the air injection unit (10) so that the contaminated water contained in the contaminated water receiving unit (22) of the receiving tank (20) can be filtered by the filter unit (30) and discharged through the air channel (21) by the pressure acting in the suction direction inward of the filter unit (30) due to the pressure difference between the pressure in the contaminated water receiving unit (22) of the receiving tank (20) and the pressure in the air channel (21).

In addition, it is characterized in that a contaminated water bypass pipe (22b) is provided on the upper side of the receiving tank (20) to discharge contaminated water above a certain level contained in the contaminated water receiving portion (22) of the receiving tank (20) to the collecting tank.

In addition, it is preferable that a return sludge supply pipe (60) be further provided on one side of the air and filtered water discharge unit (40) so that the return sludge returned through the aeration tank is supplied and discharged mixed with the discharged air and filtered water.

In addition, it is preferable that a flow rate control valve (22c) be further provided at the lower portion of the contaminated water receiving portion (22) of the receiving tank (20) to control the flow rate of the contaminated water received in the contaminated water receiving portion (22) and thereby control the filtering flow rate of the contaminated water filtered by the filter portion (30).

The pollution reduction device for small-scale wastewater treatment facilities of the present invention, having the above configuration, supplies filtered water together with air to an aeration tank, thereby reducing the concentration of high-concentration organic matter and suspended matter in the collection tank and stably supplying the microbial load of the aeration tank, thereby improving the treatment efficiency of small-scale wastewater treatment facilities.

In addition, the pollution reduction device for small-scale wastewater treatment facilities of the present invention can operate a biological reactor (aeration tank) normally even when there are fluctuations in the concentration and flow rate of influent water load, and removes high-concentration foreign substances, thereby protecting downstream equipment and enabling the downstream equipment to perform its function efficiently.

Figure 1 is a perspective view of the exterior of a pollution reduction device for a small-scale wastewater treatment facility of the present invention.
Figure 2 is a cross-sectional view showing the internal structure of a pollution reduction device for a small-scale wastewater treatment facility of the present invention.
Figure 3 is a drawing showing the filter structure of a pollution reduction device for a small-scale wastewater treatment facility of the present invention.

Hereinafter, the pollution reduction device for a small-scale wastewater treatment facility of the present invention will be described in detail with reference to the drawings.

FIG. 1 is a perspective view showing the exterior of a pollution reduction device for a small-scale sewage treatment facility of the present invention, FIG. 2 is a longitudinal cross-sectional view showing the internal structure of a pollution reduction device for a small-scale sewage treatment facility of the present invention, and FIG. 3 is a drawing showing the filter structure of a pollution reduction device for a small-scale sewage treatment facility of the present invention.

A pollution reduction device for a small-scale wastewater treatment facility according to the present invention is installed between a collection tank in which contaminated water is collected after foreign substances are filtered out of the introduced wastewater by a coarse screen, and an aeration tank in which organic substances are purified by microorganisms.

A pollution reduction device for a small-scale sewage treatment facility according to the present invention comprises an air injection unit (10); a receiving tank (20); a filter unit (30); an air and filtered water discharge unit (40); and a compressed air supply unit (50).

The above air injection part (10) is provided at the top and air is injected.

The injected air is discharged through the air and filtered water discharge unit (40).

As will be described later, when the air injected into the air injection unit (10) is discharged through the air and filtered water discharge unit (40), the pressure difference between the pressure within the contaminated water receiving unit (22) of the receiving tank (20) and the pressure within the air path (21) generates pressure that acts in the inward direction of the filter unit (30), and the generated pressure is used to suck in the contaminated water so that it is filtered through the filter unit (30), and the filtered filtered water and air are discharged together through the air and filtered water discharge unit (40).

The above-mentioned receiving tube (20) is provided at the lower portion of the air injection portion (10) and is formed long from the top to the bottom.

The above-mentioned receiving tank (20) consists of an air passage (21) and a contaminated water receiving portion (22).

The above air path (21) is connected to the air injection part (10) in the central portion, allowing air to pass through and forming a path through which air flows.

The above contaminated water receiving unit (22) is provided on the outside of the air passage (21).

On the upper side of the contaminated water receiving unit (22), a contaminated water inflow pipe (22a) is provided into which contaminated water collected from the collecting tank flows. Contaminated water flowing in from the contaminated water inflow pipe (22a) is received in the contaminated water receiving unit (22).

The above filter section (30) vertically divides the air path (21) of the receiving tank (20) and the contaminated water receiving portion (22), and serves to filter the contaminated water received in the contaminated water receiving portion (22) of the receiving tank (20) and discharge it through the air path (21).

The above air and filtered water discharge unit (40) is provided at the lower part of the air path (21) of the receiving tank (20) and serves to discharge the air flowing through the air path (21) and the filtered water filtered by the filter unit (30) into the aeration tank.

The compressed air supply unit (50) supplies compressed air to the air injection unit (10) so that the contaminated water contained in the contaminated water receiving unit (22) of the receiving tank (20) can be filtered by the filter unit (30) and discharged through the air channel (21) by applying pressure in the direction of suction toward the inside of the filter unit (30) due to the pressure difference between the pressure within the contaminated water receiving unit (22) of the receiving tank (20) and the pressure within the air channel (21). The compressed air is discharged through the air and filtered water discharge unit (40).

When compressed air is injected into the air injection unit (10) by the compressed air supply unit (50), the injected air flows into the air path (21) provided on the inside of the filter unit (30) and is discharged through the air and filtered water discharge unit (40). At this time, when the air is discharged through the air and filtered water discharge unit (40), the air path (21) located on the inside of the filter unit (30) generates pressure that acts in the suction direction, that is, in the inner direction of the filter unit (30), due to the pressure difference between the pressure in the contaminated water receiving unit (22) of the receiving tank (20) and the pressure in the air path (21), and the generated pressure sucks in the contaminated water received in the contaminated water receiving unit (22) provided on the outside of the filter unit (30), and the contaminated water is filtered through the filter unit (30). The filtered water is discharged together with the flowing air to the air and filtered water discharge unit (40).

The pollution reduction device for small-scale wastewater treatment facilities of the present invention, having the structure as described above, supplies filtered water together with air to an aeration tank, thereby reducing the concentration of high-concentration organic matter and suspended matter in the collection tank and stably supplying the microbial load of the aeration tank, thereby improving the treatment efficiency of small-scale wastewater treatment facilities.

In addition, the pollution reduction device for small-scale wastewater treatment facilities of the present invention can operate a biological reactor (aeration tank) normally even when there are fluctuations in the concentration and flow rate of influent water load, and removes high-concentration foreign substances, thereby protecting downstream equipment and enabling the downstream equipment to perform its function efficiently.

In addition, since air and filtered water are supplied to the aeration tank, the aeration efficiency can be increased by assisting the aeration device installed in the aeration tank.

It is preferable that the filter unit (30) used in the pollution reduction device for small-scale wastewater treatment facilities of the present invention be manufactured with multiple filters.

To this end, the filter unit (30) is composed of a plurality of unit filter modules (31) and a plurality of filter module fixing units (32).

The above unit filter module (31) is divided into a plurality of pieces and provided with a constant length in the longitudinal direction corresponding to the vertical length of the receiving container (20).

The above filter module fixing part (32) is arranged radially from the center of the unit filter module (31) and serves to fix the unit filter modules (31) to each other in a longitudinal direction.

Normally, the amount of filtering is greater in the lower part of the filter than in the upper part, so the filter life of the lower part is shorter than that of the upper part.

Accordingly, since replacing the entire filter increases the filtration cost, it is preferable that only a part of the filter (30) used in the pollution reduction device for small-scale wastewater treatment facilities of the present invention be replaced in order to reduce the filtration cost.

To this end, it is preferable that the unit filter module (31) of the filter section (30) be detachable from the filter module fixing section (32).

In this way, since only a portion of the filter can be replaced in a removable manner, maintenance and replacement are easy, and filtration costs can be reduced.

In addition, it is preferable that the filter part (30) of the present invention be provided according to diameter size so that the size of the air passage (21) can be adjusted.

To this end, the unit filter module (31) of the filter section (30) is provided with diameter sizes to enable adjustment of the cross-sectional size of the air passage (21).

In addition, the filter module fixing part (32) of the filter part (30) is provided with a plurality of unit filter module fixing insertion grooves (32a) that are provided in multiples from the inside to the outside so that the unit filter modules (31) can be fixed according to their diameter sizes.

In addition, the unit filter module (31) of the filter unit (30) of the present invention can have a diameter that gradually decreases from top to bottom.

In this way, when the diameter of the unit filter module (31) of the filter section (30) gradually decreases from the top to the bottom, a turbulent flow occurs when air moves through the air path (21), which has the effect of increasing the filtration efficiency and filtration speed by the unit filter module (31) of the filter section (30).

In addition, it is preferable that the present invention be provided with a contaminated water bypass pipe (22b) formed on the upper side of the receiving tank (20) and configured to discharge contaminated water above a certain level contained in the contaminated water receiving portion (22) of the receiving tank (20) to the collecting tank.

In addition, it is preferable that the present invention further includes a return sludge supply pipe (60) on one side of the air and filtered water discharge unit (40) so that the return sludge returned through the aeration tank is supplied and discharged mixed with the discharged air and filtered water.

In addition, it is preferable that the present invention further includes a flow rate control valve (22c) provided at the lower portion of the contaminated water receiving portion (22) of the receiving tank (20) to control the flow rate of contaminated water received in the contaminated water receiving portion (22) and thereby control the filtered flow rate of contaminated water filtered by the filter portion (30).

In this way, if a flow rate control valve (22c) is provided in the contaminated water receiving unit (22), the flow rate of the contaminated water received in the contaminated water receiving unit (22) can be controlled according to the amount of contaminated water filtered by the filter unit (30).

In addition, it is preferable that the filter holes of the unit filter module (31) of the filter section (30) become smaller from the outer periphery to the inner periphery.

The technical idea should not be interpreted limited to the above-described embodiments of the present invention. The scope of application is diverse, and various modifications can be implemented at the level of those skilled in the art without departing from the gist of the present invention claimed in the claims. Accordingly, such improvements and modifications fall within the scope of protection of the present invention as long as they are obvious to those skilled in the art.

10: Air inlet 20: Receiving tank
21: Air flow 22: Contaminated water receiving area
22a: Contaminated water inlet pipe 22b: Contaminated water bypass pipe
22c: Flow control valve 30: Filter section
31: Unit filter module 32: Filter module fixing part
32a: Unit filter module fixing insertion groove 40: Air and filtered water discharge section
50: Compressed air supply section 60: Return sludge supply pipe

Claims (4)

It is located between a collection tank where the inflowed wastewater is collected after foreign substances are filtered out by a coarse screen, and an aeration tank where organic substances are purified by microorganisms.
An air injection unit (10) into which air is injected at the top;
It is provided at the bottom of the above air injection part (10) and is formed long from top to bottom.
An air passage (21) is formed in the central part, communicating with the air injection part (10) and allowing air to pass through.
A receiving tank (20) provided on the outside of the air passage (21), having a contaminated water inflow pipe (22a) provided on the upper side for introducing contaminated water collected from the collecting tank, and a contaminated water receiving portion (22) formed for receiving contaminated water supplied from the collecting tank;
A filter unit (30) that vertically divides the air passage (21) and the contaminated water receiving portion (22) of the receiving container (20) into long sections, and filters the contaminated water received in the contaminated water receiving portion (22) of the receiving container (20) and discharges it through the air passage (21);
An air and filtered water discharge unit (40) provided at the lower part of the air passage (21) of the above-mentioned receiving tank (20) and configured to discharge air flowing through the air passage (21) and filtered water filtered by the above-mentioned filter unit (30) into the aeration tank;
A pollution reduction device for a small-scale wastewater treatment facility, characterized by including a compressed air supply unit (50) for supplying compressed air to the air injection unit (10) so that the contaminated water contained in the contaminated water containing unit (22) of the receiving tank (20) can be filtered by the filter unit (30) and discharged through the air channel (21) by a pressure difference between the pressure in the contaminated water containing unit (22) of the receiving tank (20) and the pressure in the air channel (21), thereby acting in an inward suction direction of the filter unit (30). In paragraph 1,
A pollution reduction device for a small-scale wastewater treatment facility, characterized in that it is provided with a contaminated water bypass pipe (22b) formed on the upper side of the receiving tank (20) and configured to discharge contaminated water above a certain level contained in the contaminated water receiving portion (22) of the receiving tank (20) to the collecting tank. In paragraph 1,
A pollution reduction device for a small-scale wastewater treatment facility, characterized in that a return sludge supply pipe (60) is further provided on one side of the air and filtered water discharge unit (40) so that the return sludge returned through the aeration tank is supplied and discharged mixed with the discharged air and filtered water. In paragraph 1,
A pollution reduction device for a small-scale wastewater treatment facility, characterized in that a flow rate control valve (22c) is further provided at the lower portion of the contaminated water receiving portion (22) of the above receiving tank (20) to control the flow rate of contaminated water received in the contaminated water receiving portion (22) and thereby control the filtered flow rate of contaminated water filtered by the filter portion (30).

Images