KR200276093Y1 - Highly concentrated waste water disposal system - Google Patents

Abstract

The present invention relates to a high concentration wastewater treatment system. In the present invention, a closed tank is installed on the upper surface of the base to provide a space for mixing wastewater and air, and the wastewater is purified by digestion of aerobic microorganisms inside the tank. The sprayer is installed at the top of the tank, and the air supplied from the main air supply pipe is mixed with the wastewater sprayed through the hole of the sprayer, and an inner cylinder is installed to form a circulation path inside the tank. The inner cylinder has a mixing chamber in which waste water and air are mixed, and below the inner cylinder, an atomization promoting plate is installed to guide the waste water and air discharged from the mixing chamber to circulate through the circulation path to the mixing chamber. In addition, a plurality of auxiliary air supply pipes are installed on the outer circumferential surface of the tank so as to supply air upward of the circulation path. Accordingly, the solubility of the air is improved as the waste water and air are mixed and sprayed, and then circulated, and the waste water is homogenized to greatly improve the purification efficiency of the waste water by aerobic microorganisms. In addition, the cost of the facility is not only reduced, but the management and operation of the system is performed practically and economically.

Description

High concentration wastewater treatment system {HIGHLY CONCENTRATED WASTE WATER DISPOSAL SYSTEM}

The present invention relates to a high concentration wastewater treatment system for purifying wastewater by digestion of aerobic microorganisms.

Water pollution caused by urban sewage, industrial wastewater, etc. in modern society not only destroys the ecosystem, but also causes serious depletion of industrial and agricultural water and drinking water. The causes of such water pollution include inorganic and organic matter, oil, and manure. Inorganic matter causes eutrophication and red tide, promotes the generation of harmful suspended organisms, and increases the chemical oxygen demand. In addition, organic matters hinder the self-cleaning action of water and reduce the amount of dissolved oxygen in the water system.

Wastewater containing these organic substances, for example, various sewage, manure, livestock wastewater, and other sludge treatment method uses the principle that underwater microorganisms ingest and digest organic matter as a nutrient source. Animals (protozoa), algae (bacteria), and (bacteria). Wastewater can be divided into low concentration wastewater and high concentration wastewater according to the concentration of organic matter in the water, and microorganisms are classified into anaerobic microorganisms and aerobic microorganisms according to the oxygen intake method. Anaerobic microbes breathe with their own oxygen in organic matter, and aerobic microbes breathe with dissolved oxygen in water.

Referring to the example of such a high concentration wastewater treatment system based on Figure 1, the wastewater is collected in a collecting tank (not shown) and then introduced into the aeration tank 10 by the drive of the pump via a settling tank, the aeration tank 10 in the air supply 12 is provided, the air supplier 12 has an injection pipe 14 for injecting air into the aeration tank 10. Therefore, when the air is injected into the wastewater by driving the air supply 12 while the wastewater is stored in the aeration tank 10, the wastewater is purified by digestion of the aerobic microorganisms that live in the aeration tank 10. Is processed.

However, in the conventional high concentration wastewater treatment system as described above, since the dissolution rate in which the air supplied by the air supply 12 is driven into the wastewater is relatively low, it impedes the growth of aerobic microorganisms and lowers the purification efficiency. There was. In addition, since the aeration tank 10 purifies the wastewater simply by the growth of the aerobic microorganisms, the aeration tank 10 is not suitable for the purification treatment of high concentration wastewater, hardly degradable wastewater, and toxic wastewater. There was. Furthermore, when the waste water is purified, a large amount of bubbles are generated in the water surface of the aeration tank 10 as the viscosity of the waste water increases, and the foam layer formed by the bubbles lowers the dissolution rate of dissolved oxygen, thereby greatly reducing the purification efficiency. do.

In addition, since the aeration tank 10 is equipped with a large-scale concrete structure, the construction period is not only long, there is a problem that the required area of the land and equipment costs are increased. In the case where the aeration tank 10 is a closed type, most of the open type is adopted since the dissolved rate of dissolved oxygen is lowered. If the aeration tank 10 is open, bad odor is generated, which acts as a factor of another environmental pollution, thereby limiting the installation site of the high concentration wastewater treatment system.

On the other hand, since the air supplied by the drive of the air supply 12 is mainly injected into the bottom of the aeration tank 10 through the air supply pipe 14 is supplied unevenly to the interior of the aeration tank 10 to provide a habitat environment for aerobic microorganisms. Not only are they unsatisfactory, but the growth of aerobic microorganisms in part leads to lower purification efficiency. Therefore, a separate stirrer is installed inside the aeration tank 10, and the waste water is agitated by driving the stirrer to increase the dissolution rate of air, and the waste water can be circulated up and down inside the aeration tank 10 in addition to the stirrer. I am using a circulation pump. However, there has been a problem in that equipment and maintenance costs are increased due to the use of an agitator or a circulation pump.

In addition, the aeration tank 10 has to maintain the aerobic microbial habitat environment, for example, a proper temperature, there is a problem that the aerobic microorganisms are killed when the temperature of the aeration tank 10 is not properly maintained. In particular, the operation and management of the aeration tank 10 is very difficult in a state where the temperature change is large and low, such as in winter, and a skilled worker is required for the operation and management of the aeration tank 10. In addition, when the air supply pipe 14, the stirrer, the circulation pump, and the like are installed inside the aeration tank 10, since corrosion occurs, their operation and management are required, and there is a problem in that practicality and economic efficiency are greatly reduced.

The present invention has been made to solve the conventional problems as described above, the object of the present invention is to provide a high concentration wastewater treatment system to improve the purification efficiency of wastewater.

Another object of the present invention is to provide a high concentration wastewater treatment system which allows the cost of equipment to be reduced.

Another object of the present invention is to provide a high concentration wastewater treatment system that allows management and operation to be carried out practically and economically.

1 is a cross-sectional view showing a conventional high concentration wastewater treatment system,

2 is a cross-sectional view showing a high concentration wastewater treatment system according to the present invention,

3 is a cross-sectional view taken along line II of FIG. 2;

Figure 4 is a cross-sectional view showing the operating state of the high concentration wastewater treatment system according to the present invention.

♣ Explanation of symbols for the main parts of the drawing ♣

20: base 22: discharge hole

30: tank 32: circuit

40: sprayer 50: wastewater inlet pipe

60: main air supply pipe 70: inner cylinder

72: mixing chamber 80: atomization promoting plate

84: collision part 90: auxiliary air supply pipe

A feature of the present invention for achieving the above object, the base and the discharge hole is formed; An airtight tank disposed on an upper surface of the base such that the discharge hole is located at the center thereof and providing a mixing space of wastewater and air; An atomizer installed at the top of the tank and having a hole for injecting wastewater into the tank; A main air supply pipe concentrically installed with the sprayer to supply air to the wastewater sprayed through the hole of the sprayer; It is installed vertically inside the tank so as to form a circulation path between the inner circumferential surface of the tank and its outer circumferential surface, and has a mixing chamber in which waste water and air are mixed, and the wastewater in the tank by the injection force of the waste water sprayed through the hole of the sprayer An inner cylinder disposed close to the hole of the sprayer so that the gas can flow into the mixing chamber; It is installed below the inner cylinder to block the upper side of the discharge hole and at the same time to guide the waste water and air discharged from the mixing chamber to the mixing chamber through the circulation path, and to direct the waste water and air from the center of the mixing chamber to the edge on the upper surface. An atomization promoting plate having a conical impact portion formed thereon; There is a high concentration wastewater treatment system composed of a plurality of auxiliary air supply pipes provided at an angle with respect to an arbitrary plane so that air can be supplied to the outer circumferential surface of the tank in an upward direction of the circulation path.

Hereinafter, a preferred embodiment of the high concentration wastewater treatment system according to the present invention will be described in detail with reference to the accompanying drawings.

2 to 4 is a view showing for explaining a high concentration wastewater treatment system according to the present invention.

As shown in FIG. 2, a discharge hole 22 is formed in one side of the base 20, and a closed tank 30 is installed on the upper surface of the base 20 so that the discharge hole 22 is located at the center thereof. The tank 30 has a substantially cylindrical upright structure to provide a space for mixing waste water and air. In the tank 30, wastewater is purified by digestion of aerobic microorganisms, and the tank 30 can be made of concrete or steel structure or made of resin.

In addition, a sprayer 40 is installed at an upper portion of the tank 30, a hole 42 is formed at a lower portion of the sprayer 40, and a wastewater inflow pipe 50 for supplying wastewater to one outer circumferential surface of the sprayer 40. It is connected, the wastewater inlet pipe 50 is preferably connected to the upper outer peripheral surface of the sprayer (40). The wastewater inlet pipe 50 is preferably connected to a pump of a sedimentation tank (not shown), and the sedimentation tank is used to precipitate and remove impurities from the wastewater flow supplied from the reservoir, and to remove scum. As such, the wastewater from which impurities and scums are removed from the settling tank is supplied to the sprayer 40 through the wastewater inlet pipe 50.

On the other hand, the main air supply pipe 60 is mounted concentrically in the center of the sprayer 40, the front end of the main air supply pipe 60 is preferably mounted so as to be close to the hole 42 of the sprayer 40. As the waste water is injected through the hole 42 of the sprayer 40, the main air supply pipe 60 is subjected to a negative pressure due to a venturi effect. As a result, external air is sucked through the main air supply pipe 60, and the waste water and Are mixed. Alternatively, the main air supply pipe 60 may be connected to a pneumatic source, for example, a compressor and an air blower, to forcibly supply compressed air.

Then, the inner cylinder 70 is installed along the longitudinal direction so that the circulation path 32 is formed in the center of the tank 30. That is, the inner cylinder 70 is installed vertically so that a predetermined distance is maintained from the inner circumferential surface of the tank 30, and a circulation path 32 is formed between the inner circumferential surface of the tank 30 and the outer circumferential surface of the inner cylinder 70. The inner cylinder 70 is formed of a hollow tube to have a mixing chamber 72 in which waste water and air are mixed, and the upper and lower outer peripheral surfaces of the inner cylinder 70 are fixed to the inner peripheral surface of the tank 30 by a support bar 74. . At this time, the upper part of the inner cylinder 70 is the sprayer 40 so that the waste water in the tank 30 can be introduced into the mixing chamber 72 by the injection force of the waste water and air injected from the hole 42 of the sprayer 40. It is installed in close proximity to the hole 42, the lower portion of the inner cylinder 70 is provided to maintain a predetermined distance away from the upper surface of the base 20.

Further, below the inner cylinder 70, an atomization promoting plate 80 for guiding the waste water and the air discharged from the mixing chamber 72 to be circulated to the mixing chamber 72 through the circulation path 32 is provided. The plate 80 is fixed to the inner peripheral surface of the tank 30 by the support bar 82. The upper surface of the atomization promoting plate 80 is formed with a substantially conical impact portion 84 to guide the wastewater and air from the center of the mixing chamber 72 to the edge, the impact portion 84 at its apex 84a It has a curved surface 84b that forms a gentle curve toward the edge. The outer diameter of the atomization promoting plate 80 is preferably formed to a size that can cover the discharge hole 22 of the base 20.

As shown in Fig. 2 and 3, a plurality of auxiliary air supply pipe 90 is provided in the center of the outer circumferential surface of the tank 30 so as to supply air above the circulation path 32, the auxiliary air supply pipe 90 It is provided at a predetermined angle so as to face upward of the circulation path 32 with respect to any plane. At this time, the angle of the auxiliary air supply pipe 90 is preferably installed to maintain about 20 to 45 degrees, and more preferably, it is installed to maintain about 30 degrees. The auxiliary air supply pipe 90 is connected to a pneumatic source, for example, a compressor and an air blower to forcibly supply compressed air. In the figure, the auxiliary air supply pipe (90) shows that four are installed at equal intervals on the outer circumferential surface of the tank (30), but the position and number of the auxiliary air supply pipe (90) can be appropriately changed as necessary.

The high concentration wastewater treatment system of the present invention can be installed continuously. That is, the wastewater inlet pipe 50 of the high concentration wastewater treatment system, which is subsequently installed in the discharge hole 22 of the high concentration wastewater treatment system for initially purifying the wastewater, may be continuously purified. At this time, it is preferable to install a pump (not shown) in the wastewater inlet pipe 50 of the subsequent purification treatment system. In addition, the purified water purified by the high concentration wastewater treatment system of the present invention may be naturally discharged, and may be supplied to a digestion tank for purifying by a subsequent process, for example, microorganisms, if necessary, to be purified or filtered again. have. In addition, it is possible to remove scum and the like by connecting to the precipitation tank. On the other hand, the high concentration wastewater treatment system of the present invention can be connected to the wastewater inlet pipe 50 to the discharge hole 22 of the base 20 to perform the purification while continuously circulating the wastewater. At this time, the pump is installed in the wastewater inlet pipe 50 is equipped with a valve device or the like to receive the wastewater from the sedimentation tank.

Referring to the operating state of the high concentration wastewater treatment system according to the present invention as described above are as follows.

As shown in FIG. 4, wastewater such as various sewage, manure and livestock, industrial wastewater, etc. are collected in a sump tank and supplied to a sedimentation tank by driving a pump, and in the sedimentation tank, impurities such as solid particles are precipitated and removed. And scum are removed. Then, the wastewater from which the impurities and scum are removed from the sedimentation tank is supplied to the sprayer 40 through the wastewater inlet pipe 22 by the driving of the pump, and the wastewater is supplied to the inner cylinder through the hole 42 of the sprayer 40. It is injected in the upper part of 70.

When the waste water is injected into the inner cylinder 70 through the hole 42 of the sprayer 40 as described above, negative pressure is applied to the main air supply pipe 60 by the venturi effect, so that the external air is supplied through the main air supply pipe 60. Air is inhaled. Since the front end of the main air supply pipe 60 is installed close to the hole 42 of the sprayer 40, air is supplied to the wastewater sprayed through the hole 42 of the sprayer 40 while being mixed and sprayed. That is, as the air sucked through the air supply pipe 42 is mixed with the wastewater injected through the hole 42 of the sprayer 40 and injected in the form of bubbles, the contact rate of the air is increased, thereby increasing the solubility of oxygen. It is possible to improve the treatment of high concentration wastewater, hardly degradable wastewater and toxic wastewater.

In addition, the waste water and air injected through the holes 42 of the sprayer 40 are discharged while being mixed in the mixing chamber 72 of the inner cylinder 70, the waste water and air discharged by mixing in the mixing chamber 72, That is, the mixed water is guided to the circulation path 32 by the atomization promoting plate 80, and the mixed water guided to the circulation path 32 flows back to the upper portion of the inner cylinder 70 along the circulation path 32.

Specifically, the wastewater and air injected by the predetermined injection force through the holes 42 of the sprayer 40 are mixed and discharged in the mixing chamber 72 of the inner cylinder 70, and the discharged mixed water is atomized. It is guided to the circulation path 32 while colliding with the promotion plate 80 and then is lifted to the upper portion of the circulation path 32 by hydraulic pressure. Then, the elevated wastewater is introduced into the mixing chamber 72 by the injection force of the wastewater and the air injected through the hole 42 of the sprayer 40 and circulated. In this process, the waste water and the air are uniformly mixed, which not only promotes the decomposition of the waste water but also makes active contact between the aerobic microorganism and the substrate. Then, the impact portion 84 of the atomization promoting plate 80 guides the mixed water from the apex 84a to the edge, and the curved surface 84b of the impact portion 84 keeps the flow of the mixed water smoothly. do.

On the other hand, in the process of circulating the mixed water along the circulation path 32, compressed air is forcibly supplied above the circulation path 32 through the auxiliary air supply pipe 90, thereby improving oxygen solubility and The circulation is maintained more smoothly.

As such, the mixed water mixed with wastewater and air circulates in and out of the inner cylinder 70 in the interior of the tank 30, so that the solubility of oxygen is greatly improved, thereby improving the growth environment of aerobic microorganisms, and decomposing wastewater. It is promoted, and the purification efficiency of wastewater by digestion of aerobic microorganisms is greatly improved.

In addition, the purified water is partially discharged through the discharge hole 22 of the base 20 in the process of circulating the mixed water. Such purified water can be purified by installing the high concentration wastewater treatment system of the present invention in a continuous manner, and can be supplied to the digester or sedimentation tank as needed. Purified water supplied to the digester or sedimentation tank has a high dissolved oxygen content and is uniformly decomposed by the circulation to be homogenized, thereby shortening the time required for the purification process and improving efficiency.

On the other hand, the high concentration wastewater treatment system of the present invention can reduce the size of the tank 30 to reduce the required area of land and equipment costs, and the tank 30 is sealed to prevent the occurrence of odors There is no restriction on the place of installation. In addition, since the driving device, for example, a pump, a motor, etc. are not installed inside the tank 30, it is easy to operate and manage, and the aerobic microorganism habitat environment, for example, the temperature can be properly maintained. Practicality and economics are greatly improved.

The above-described embodiments are merely illustrative of preferred embodiments of the present invention, and the scope of application of the present invention is not limited thereto, and may be appropriately changed within the scope of the same idea. For example, the shape and structure of each component shown in the embodiment of the present invention can be modified.

As described above, according to the high-concentration wastewater treatment system according to the present invention, the solubility of the air is improved as the wastewater and the air are mixed and injected, and circulated, and the wastewater is homogenized, thereby greatly improving the purification efficiency of the wastewater by aerobic microorganisms. will be. In addition, the cost of the facility is not only reduced, but the management and operation of the system is performed practically and economically.

Claims (1)

A base having a discharge hole formed therein; A closed tank installed on the upper surface of the base such that the discharge hole is located at the center thereof and providing a mixing space of waste water and air; An atomizer installed at an upper portion of the tank and having a hole for injecting wastewater into the tank; A main air supply pipe concentrically installed with the sprayer to supply air to the wastewater sprayed through the hole of the sprayer; It is installed vertically inside the tank to form a circulation path between the inner circumferential surface of the tank and its outer circumferential surface, and has a mixing chamber in which waste water and air are mixed, the upper part of which is injected through the hole of the sprayer and air jetting force An inner cylinder disposed close to the hole of the sprayer to allow the wastewater in the tank to flow into the mixing chamber by It is installed below the inner cylinder to block the upper portion of the discharge hole and at the same time guide the waste water and air discharged from the mixing chamber to be circulated to the mixing chamber through the circulation path, the upper surface from the center of the mixing chamber to the edge An atomization promoting plate having a conical impact portion formed to guide the wastewater and the air; And a plurality of auxiliary air supply pipes disposed at a predetermined angle with respect to an arbitrary plane to supply air to the outer circumferential surface of the tank in an upward direction of the circulation path.