KR101109763B1 - underwater mixer/stirrer apparatus for treatment of wasted-water - Google Patents

Abstract

The present invention relates to a wastewater mixing / stirring device for mixing / stirring wastewater and sludge in the reaction tank by being installed / installed at the bottom of the surface of a reactor provided for wastewater treatment.

For the treatment of sewage and wastewater, we use the A2 / O process, the Badenen process, the University of Cape Town (UCT) process, the Virgin Initiative Plant (VIP) process, etc. The present invention relates to a wastewater mixing / stirring device for mixing bottom wastewater, top wastewater, and sludge in an operating tank, and pumping down the drainage pipe after suction of the bottom wastewater by an underwater pump provided at the bottom of an anaerobic reactor or anoxic reactor. It has a structure that is conveyed to the mixing vessel, the upper waste water is conveyed to the mixing vessel through the suction pipe provided below the water surface to mix the upper and lower waste water in the mixing vessel and has a structure that is discharged to the discharge pipe of the horizontal or vertical structure It relates to an upper wastewater and a lower wastewater and a mixing / stirring device.

The mixing / stirring structure provided in the mixing cylinder provided herein is provided with a reducer or ejector having a different diameter, and the lower waste water pumped by the pump is pumped to the driving fluid, and the upper waste water flowing into the mixing tank side is transferred to the conveying fluid. The present invention relates to an underwater mixing / stirring apparatus having a configuration in which mixing / stirring with the lower wastewater in the mixing vessel and discharged to the discharge tube.

Anaerobic tank, anaerobic tank, upper wastewater, lower wastewater, mixing / stirring device

Description

Underwater mixing / stirrer apparatus for treatment of wasted-water

The present invention relates to a waste water mixing / stirring device for mixing / stirring waste water and sludge in the reaction tank by being installed / installed at the bottom of the surface of a reactor provided for waste water treatment.

With the development of the industrial society, water quality problems are seriously recognized due to eutrophication of lakes, reservoirs, and rivers, which have been used as water sources in recent years, and nitrogen and phosphorus, which are the causes of eutrophication, have to be sufficiently removed in the sewage treatment Most of the conventional sewage treatment plants operate only the activated sludge process, which is the secondary treatment, so that the nitrogen and phosphorus in question are discharged to the rivers as they are almost untreated or flowed into lakes and reservoirs.

Therefore, the discharge water quality limits of nitrogen and phosphorus in wastewater treatment facilities have been greatly strengthened since January 1, 1999, and various types of treatment methods have been proposed and developed to meet these enhanced water quality standards. There is no way.

In the meantime, the red tide phenomenon, which is repeated every year, such as the death of fish on the shore, lakes, and farms, turns out to be one of the causes of nutrients, ie, nitrogen and phosphorus in wastewater and wastewater, and the elimination problem is urgent. In addition, green algae problems occur every year in the golf course Pond, fishing grounds, and Paldang, a water supply area, which are raised as social problems.

Meanwhile, O, been in the application development such as waste water treatment process, nitrogen, to remove a typical method A ₂ O method or Bacillus method, oxidation ball method in. However, the A ₂ O process mainly being used most often in the wastewater treatment in these processes In this process, anaerobic and anaerobic tanks are installed and applied during the treatment process. However, anaerobic and anaerobic tanks should not be supplied with oxygen. in doemeuro anaerobic or anoxic tank can not be due to corruption by needle cheonmul is deposited the water quality is getting worse, and is generated by odor problems, because of the CH ₄ gas, H ₂ S gas or the like generated in this complaints work area There is a case that a human resource accident occurs when the lid is closed in the summer.

However, in the anaerobic tank or anoxic tank in the field of water treatment, it is necessary to lower the quality of the effluent by reducing the nitrogen by performing the denitrification reaction. Therefore, the need for an underwater stirrer was created to prevent the deposition of various sediments in the anaerobic tank and the anoxic tank.

It is possible to eutrophicate the environmental water by phosphorus and nitrogen contained in not only livestock waste or food waste water, but also human waste, food waste discharged from kitchen to sewage, and concentrated inorganic phosphate compounds used in various household detergents. In addition, there has been a problem of promoting the proliferation of aquatic plants.

The removal principle of treating nitrogen and phosphorus at the same time by the biological method for wastewater and wastewater is briefly described. The principle of removal of nitrogen and phosphorus is independent of each other, and it is important to apply it properly in the treatment process. By using phosphorus release and intake in anaerobic and aerobic processes, suspended solids are removed from the initial settling tank and organic matter is ingested by the weight of microorganisms returned by the excess sludge return pump in anaerobic condition. In addition, the phosphorus release begins at the same time as it is stored, and the phosphorus is removed by accumulating the polyphosphoric acid in the microorganism body together with the growth of the microorganism in the aerobic state of the subsequent process.

That is, ortho-P is released from the poly-P stored in the cell in the anaerobic process, and the polyphosphate accumulated in the cell is a linear bond of the regular phosphoric acid, and this binding ring becomes an energy source. Hydrolysis of polyphosphoric acid leads to the release of PO4 + into the liquid. This phenomenon is called phosphorus release.

At this time, the extracellular organic matter is transferred into the cell by energy, which is called active transport, and the absorbed organic matter is stored as PHB (poly-B-hydroxy buthylate) and then stored in the cell when it is aerobic. PHB is broken down to synthesize ATP, and this energy is absorbed and stored as polyphosphoric acid in cells. At this time, the phenomenon of synthesizing inorganic phosphate by ingesting excess phosphoric acid from the solution is called `` lusuary uptake '' of phosphorus. Is done.

In addition, when looking at the nitrogen removal reaction, the nitrogen components in the waste water are classified into organic nitrogen (organic-N), ammonia nitrogen (NH 4 -N), nitrite nitrogen (NO 2 -N) and nitrate nitrogen (NO 3 -N). In order to remove such nitrogen, a two-stage process, which is a nitrification process and a denitrification process, is required. In the nitrification process, the nitrate is converted into the form of nitrate under aerobic conditions. In this case, an organic carbon source is required to supply the hydrogen donor and carbon for biological synthesis to induce the denitrification process.

In other words, by using an open pure oxygen activated sludge treatment process that is treated by microorganisms in aerobic state, nitrification of nitrogen is carried out and the nitrified mixture is returned to the anoxic reactor in large quantities. It may be explained that nitrogen is removed by causing a denitrification reaction while being reduced by the microorganism.

As described above, the biological treatment process (hereinafter referred to as the advanced treatment process) for appropriately mixing and removing nitrogen and phosphorus removal principles simultaneously includes the A2 / O process, the Bandenpho process, and the UCT (University of Cape Town) process. , VIP (Virginia Initiative Plant) process, and the like, and the outline of these methods are disclosed in detail with the process flow chart in Patent Registration No. 10-0325005 will be omitted a detailed description.

Providing a wastewater mixing / stirring device for maintaining the water quality evenly by preventing sedimentation or deposition of various floats in the water in the reactor having anaerobic or anoxic conditions during the biological treatment process provided for the wastewater treatment of the present application. It is an invention started with a problem and a purpose.

More specifically, the present application is a structure in which the lower wastewater is sucked by the submersible pump provided at the bottom of the reactor in an anaerobic or anoxic condition, and then transferred to the mixing tank provided at the mid-depth position of the reactor through the water pipe. The upper wastewater is sucked into the upper wastewater through a suction pipe installed / prepared below the surface of the water, and is transferred to the mixing container so that the upper and lower wastewater are mixed / stirred in the mixing container and discharged to the discharge tube. The lower waste water, which is pumped at high pressure by the submersible pump, becomes a working fluid, and a reducer or ejector with a different diameter is provided, and the upper waste water that flows into the mixing cylinder side when the lower waste water, which is pumped at high pressure by the pump, is pumped / transferred into the driving fluid. Is a transport fluid that is mixed / stirred with the lower wastewater in the mixing vessel and discharged to the discharge pipe It is an object of the present invention to provide a mixing / stirring device.

Wastewater for preventing sediment deposition by mixing / stirring upper and lower wastewater and sludge in a reactor with anaerobic or anoxic conditions during the biological treatment process provided for the wastewater treatment of the present application The present invention provides a mixing / stirring device, and as a means for solving the above problem, in a reaction tank having anaerobic or anoxic conditions, the lower waste water is sucked by a submersible pump provided at the bottom of the reaction tank, and then, It has a structure to be transferred to the mixing vessel provided in the mid-depth position of the reaction tank, the upper waste water is sucked into the upper waste water through the suction pipe installed / finished below the water surface and transferred to the mixing vessel, the upper and lower waste water is mixed / stirred in the mixing vessel To be discharged to the discharge pipe, but the inside of the mixing cylinder is pumped at a high pressure by an underwater pump When the lower wastewater becomes a driving fluid and a reducer or ejector having a different diameter is provided and the lower wastewater pumped by the pump is pumped into the driving fluid, the upper wastewater flowing into the mixing cylinder side is a conveying fluid and mixed with the lower wastewater inside the mixing tank. It is an invention having a technical idea to solve the problem of the present application through the configuration of the stirring / discharge to the discharge tube.

The technical idea of the present application is that the pipe is connected to one side of the pumping pipe through which the lower waste water flows in the mixing / stirring device for wastewater treatment, and a pressure gauge is attached to the end of the pipe to easily check the pressure of the discharge pumping water by the pressure gauge. It can be provided for operation, the mixing cylinder has a cylindrical outer cylinder inside the body having a hole (hole) for receiving the upper waste water in a portion of the outer cylinder, the inside of the cylindrical outer cylinder has two different diameter reducer The reducer includes a technical idea that accommodates a reducer, but a small reducer may be provided in a nozzle shape and a large reducer may be provided in a nozzle cap shape and fixed to a main surface of the outer cylinder.

In addition, the underwater mixing / stirring apparatus provided herein, for example, when the suction pipe receiving the upper wastewater extends to the upper surface and is connected to the atmosphere, the external air is introduced into the conveying fluid and mixed instead of sucking the wastewater. It may be provided as an underwater mixing / stirring apparatus which functions to be transported into the barrel and mixed / stirred with the lower waste water to be discharged into the discharge tube to act as an aerator.

In the conventional wastewater treatment, a process of lowering the quality of effluent water by reducing nitrogen by performing denitrification in an anaerobic tank or an anaerobic tank was used, but various sediment deposits in the anaerobic tank or an anoxic tank hardened or formed a thick scum layer at the top. However, the water mixing / stirring apparatus provided herein is installed in a reaction tank having an anaerobic tank or anoxic conditions, thereby providing an effect of maintaining the water quality evenly by preventing precipitation or deposition of various suspended substances in the water.

In addition, the underwater mixing / stirring device provided herein functions as a mixing / stirring device when the suction pipe is in the water, and when the suction pipe is provided in a configuration in which the suction pipe is extended to the upper surface and connected to the atmosphere, instead of sucking the waste water, It can be used as a dual purpose that can act as an aquatic aerator by inflow to it.

Prior to describing the embodiments of the invention for realizing the technical idea of the present application by the drawings, the terms or words used in the specification or claims of the present application should not be construed as being limited to the ordinary or dictionary meanings, The scope of protection of the present application should be construed as meanings and concepts corresponding to the technical spirit of the present invention, the use examples presented in the present specification or drawings are merely one of the most preferred embodiments of the present invention and represent all the technical ideas of the present application. It is to be understood that there may be various equivalents and variations in place of them at the time of the present application.

In addition, the embodiments described below in the technical idea of the present application provides an application example for implementing the technical idea of the present application, and in addition to the apparatus used in the existing wastewater treatment apparatus or a control system, Of course, it can be applied.

Hereinafter, a detailed description of a preferred embodiment of the present invention will be described with reference to the accompanying drawings.

1 shows a horizontal spray type underwater mixing / stirring apparatus 100 provided by the technical idea of the present application, and is a system that can be applied at a low depth of about 3 to 5 meters or less, and the water pump 10 is the bottom of the reactor. It is seated on the surface, the lower waste water (S1) is sucked from the suction portion 12 by the rotation of the impeller in the transfer blade portion 11 of the submersible pump and sent to the mixing tank 30 through the pump pipe 13, The upper waste water (S2) is sent to the mixing tank 30 through the inlet portion 21 and the valve 22 for adjusting the waste water inflow amount is provided in the bottom of the water is mixed with the lower waste water (S1), the mixing tank ( 30 shows that the upper wastewater S2 and the lower wastewater S1 meet and are mixed / stirred to provide a configuration for ejecting the mixed wastewater S3 to the outlet 31.

Figure 2 is intended to show an application that the horizontal spraying water mixing / agitating device of the present application can be ejected to both sides in the mixing tank, Figure 2a shows an application example in which the horizontal spraying water mixing / stirring device is ejected to both sides It is an external configuration, Figure 2b shows a coupling relationship of the reducer constituting the internal structure of the underwater mixing / stirring apparatus mixing tank, Figure 2c shows an exploded perspective view of the reducer of Figure 2b.

In the underwater mixing / stirring apparatus shown in FIG. 2A, the lower waste water S1 is sucked from the suction part 12 by the rotation of the impeller in the transfer blade part 11 of the submersible pump 10, and then through the pump pipe 13. It is sent to the mixing tank 30, the upper waste water (S2) is sent to the mixing tank 30 through the inlet portion 21 and the valve 22 for adjusting the waste water inflow rate is provided in the water surface is the configuration shown in FIG. The same but the mixing tank is divided into two and divided into the mixing tank A (30a) and mixing tank B (30b) to show that the discharge port having a discharge port (31a, 31b) on both sides can be provided, the lower waste water S1 is sucked by the suction part 12 of the submersible pump 10 and sent to the mixing tank 30a through the pumping pipe 13-1 branched from the pumping pipe 13, and the upper wastewater S2 is The upper wastewater (S2) and the lower portion is sent to the mixing tank (30a) through the distribution tank (23) via the water inlet (21) provided at the bottom of the water and the valve (22) for adjusting the wastewater inflow rate Number (S1) may be provided to the configuration of ejecting the mixing chamber (30a) is met, or in the mixing chamber (30b) stirring / mixing the waste water outlet (S3) in (31a, 31b).

Figure 2b shows the coupling relationship of the reducer constituting the internal structure of the mixing tank A (30a) and Figure 2c shows an exploded perspective view of the reducer, using two reducers of different diameter and the middle portion of the two reducers According to the principle of the venturimeter, the upper wastewater flowing into the side of the mixing tank acts as a conveying fluid when the lower wastewater is increased in high pressure and pumped to the driving fluid. Mixing tank for forming a discharge to the tube cylindrical outer cylinder 32 is provided with a hole (hole) for receiving the upper waste water in one side, the inner cylinder 32 is accommodated two different diameter reducer is accommodated , Small diameter reducer 33 is provided to have a nozzle (33a) structure, the large diameter reducer 34 is a mixing cap A in a configuration that is fixed / installed on the inner circumferential surface of the outer cylinder 32 in the form of a nozzle cap (34a) (3 0a), the lower waste water (S1) is sent to the mixing tank (30a) through the pumping pipe (13-1) of the pumping pipe and the upper wastewater (S2) through the distribution branch pipe (24) in the distribution tank (23) The lower wastewater (S1) and the upper wastewater (S2) are mixed / stirred to be discharged to the discharge tube by being sent to the hole of the mixing tank outer cylinder.

3 is a vertical jet water mixing / stirring apparatus 110 provided by the technical idea of the present application, which can be applied at a deep depth of about 5 to 10 meters, and FIG. Figure 3b is an external configuration showing an application that is vertically ejected toward the, Figure 3b shows the internal structure of the mixing tank in the underwater mixing / stirring apparatus, the submersible pump 10 is seated on the bottom surface of the reaction tank, The lower wing water S1 is sucked from the suction part 12 by the rotation of the impeller in the transfer wing 11, and is sent to the mixing tank 30 through the pump pipe 13, and the upper waste water S2 is the bottom of the water surface. Inflow to the inlet portion 21 is provided in the configuration to be sent to the mixing tank 30, in the mixing tank 30, the upper waste water (S2) and the lower waste water (S1) meet and mix / stir to the outlet 31 The configuration for ejecting the mixed wastewater (S3) is not significantly different from the system of FIG. However, in the vertical jet water mixing / stirring apparatus 110 of FIG. 3A, the outlet 31 is vertically upward in order to increase the mixing / stirring effect of the lower wastewater S1 and the upper wastewater S2 at a depth of deep water. It can be ejected toward.

3B illustrates the internal structure of the mixing tank in the underwater mixing / stirring apparatus. When the lower wastewater S1 is transferred to the mixing tank 30 through the pump pipe 13, the discharge part of the pump pipe has a small diameter nozzle structure ( 14), the bottom of the discharge port 31 has a large diameter ejector 15 structure and is wrapped around the nozzle structure 14 of the discharge pipe discharge portion and discharged when the lower waste water (S1) is pumped into the driving fluid 30 The upper wastewater (S2) flowing into the side of the vessel functions as a conveying fluid and indicates that the lower wastewater (S1) and the upper wastewater (S2) are mixed / stirred and discharged to the discharge pipe in the mixing vessel. The paper tube is connected to one side of the pump pipe 13 through which the S1 flows, and the paper tube 16 is connected, and a pressure gauge 17 is attached to the end of the paper tube so that the pressure of the discharge pumping water can be confirmed from the outside by the pressure gauge. It is shown.

In addition, when the water mixing / stirring apparatus of the present application wants to operate as an aquatic aerator, the air that sucks the outside air when raising the pipe of the inlet portion 21 in FIG. When it is replaced by a suction pipe, the external air may be introduced into the conveying fluid instead of the upper wastewater, and the lower wastewater and air may be mixed / stirred inside the mixing vessel to be used as an underwater aerator device.

The technical idea of the present application is to prevent various deposits in the anaerobic tank or anoxic tank by mixing the upper wastewater and the lower wastewater by using the mixing / stirring apparatus of the present application in a reaction tank having anaerobic or anoxic conditions, or In the aerobic reactor, it can be used as an aerator due to the piping of the water inlet 21 of the mixing / stirring apparatus of the present application to the atmosphere, and the drawing shown here shows only one or two outlets, It is possible to increase the mixing and stirring effect by providing branch pipes in four directions and discharging them in various directions.

1 is a block diagram of a horizontal spray type underwater mixing / stirring apparatus provided herein

Figure 2a: Application example of the underwater mixing / stirring apparatus provided herein.

Figure 2b: Application example of the internal structure of the horizontal mixing / stirring device mixing tank.

Figure 2c is an exploded perspective view of the internal structure of the mixing tank of Figure 2b.

Figure 3a: Application example of the vertical spray underwater mixing / stirring apparatus provided herein.

Figure 3b: Application example of the internal structure of the vertical mixing / stirring device mixing tank.

DESCRIPTION OF REFERENCE NUMERALS

10: submersible pump 11: transfer blade

12: lower waste water suction portion 13: pumping pipe

14: small diameter nozzle structure 15: large diameter ejector

16: branch pipe (piping) 17: pressure gauge

20: upper wastewater pipe 21: inlet

22: valve 23: distribution tank

24: distribution pipe 30: mixing tank

31: outlet 32: outer cylinder

33: Small caliber reducer 34: Large caliber reducer

100: horizontal spray type underwater mixing / stirring device

110: vertical spray underwater mixing / stirring device

Claims (4)

A submersible pump installed in the water of the wastewater reaction tank sucks the lower wastewater and transfers it to the mixing tank through the pumping pipe, and the upper wastewater is transferred to the mixing tank through the suction pipe provided at the bottom of the water surface, and the upper and lower wastewater is mixed with the mixing tank. In the wastewater mixing / stirring apparatus having a structure that is mixed in the discharge pipe to the discharge pipe, The mixing tank consists of a cylindrical outer cylinder 32 and two different reducers are inserted into the cylindrical outer cylinder both ends interlocked, the central one side of the cylindrical outer cylinder 32 to receive the upper wastewater (hole) ), One end of the cylindrical outer cylinder is interpolated with a large diameter reducer 34 having a nozzle cap 34a, and the other end of the cylindrical outer cylinder has a small diameter reducer 33 having a nozzle 33a structure with an outer cylinder ( 32) According to the venturimeter principle, the upper wastewater flowing into the mixing tank through the hole of the outer cylinder functions as a conveying fluid when the lower wastewater is pumped to the high-pressure driving fluid according to the Venturimeter principle. Waste water mixing / stirring device, characterized in that the mixing / stirring in the discharge pipe to form a configuration. delete delete delete

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