KR20010111996A - Hydraulic mixing and circulating system in water treatment - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a mixing and circulating device for water treatment. To improve the mixing performance and energy efficiency of a typical mixer using turbulence generated by rotating an impeller, a water tank (1), a tank or A circulation cylinder (2) is provided to circulate and mix the supernatant and the lower fluid of the fluid in the appeal, and the centrifugal impeller (3) at the bottom of the circulation cylinder (2) and the submersible motor (6) for driving the same. Water treatment mixing and circulators (or general motors at the top of the water surface) provide liquid-gas, waste water-drugs, air-based systems in fish farms, lakes, digestive tanks or wastewater treatment plants with minimal power. It has the effect of enabling uniform and efficient mixing between activated sludge or nutrient-living organisms, and also the amount of dissolved oxygen required for organic matter decomposition by fluid circulation. There is an excellent effect that can be increased.

Description

Hybrid mixing and circulating system in water treatment

The present invention relates to a mixing and circulating apparatus for water treatment, and more particularly, to enable uniform and efficient mixing between liquid-gas, wastewater-drug, air-activated sludge or nutrient-living organisms, and to reduce the amount of dissolved oxygen required for organic matter decomposition. In the mixing and circulating device for water treatment provided with a circulation cylinder for mixing the upper and lower liquid of the fluid in the water tank for the purpose of increase, the centrifugal impeller and the submersible motor for driving the same in the bottom of the circulation cylinder It is about.

Mixing is a very important unit operation in the water treatment field. Generally, various components have to be completely mixed with different components, and an impeller is commonly used as a typical mixing means. As the impeller rotates in the fluid, turbulence occurs around it and the turbulence causes the mixing of the fluid. In addition, turbulence may be caused by diffusion aeration or jet-lift pumps.

When the impeller is used for mixing, the mixing takes place only around the surface where the impeller comes into contact with the fluid. In order to prevent this, when rotating at a low speed using a large impeller, the boundary layer is increased due to the slow motion of the impeller, and the fluid flows to a long distance.In this case, the laminar flow reduces the turbulence and reduces the mixing effect. It takes On the other hand, the use of a high speed impeller increases the turbulence intensity and shortens the mixing time, but the boundary layer is further reduced so that the flow is limited to only the periphery of the impeller, resulting in more local mixing. .

In addition, when the impeller is used, the vortex or mass-swirling of the fluid occurs due to the rotation of the impeller, and the difference between the fluid speed and the impeller speed is reduced, resulting in a significant reduction in the mixing effect and energy loss. Done. In order to prevent this, additional measures such as installing the impeller on one side or installing a baffle plate are necessary, and thus energy loss is further increased.

The most common use of liquid-gas mixtures in water treatment is oxygen transfer in biological water treatment. Due to the low solubility of oxygen, sufficient oxygen for aerobic water treatment cannot be transferred to the water through normal water-air interfaces. Therefore, it can supply by introducing air or pure oxygen bubbles into water in order to deliver the required oxygen in water. Among them, submerged-bubble aeration, jet-lift pump, diffuser, surface aerator and the like are most frequently used.

Accordingly, an object of the present invention is to provide a mixing and circulating device for water treatment that can uniformly mix fluids efficiently and improve oxygen transfer while using minimal energy to solve the above problems.

Hereinafter, the specific configuration and operation of the present invention.

1 is a perspective view showing the basic form of the mixing and circulator for water treatment, the movement of the fluid and the principle thereof according to a preferred embodiment of the present invention (the flow direction of the fluid is indicated by an arrow),

Figure 2 is an example of a preferred embodiment according to the present invention, a perspective view showing the mixing and circulation device for water treatment additionally equipped with an auxiliary impeller extending the drive shaft of the impeller,

3 is a perspective view showing another embodiment of the mixing and circulating device for water treatment provided with an injection tube and an injection device according to another embodiment of the present invention;

4 is a perspective view showing a mixing and circulating apparatus for water treatment of a reversed phase structure having a secondary impeller, as another example of a preferred embodiment according to the present invention;

5 is a perspective view showing a mixing and circulation device for water treatment driven by a general motor on the top of the water as another example of a preferred embodiment according to the present invention.

<Description of the symbols for the main parts of the drawings>

1: Tank (tank or appeal) 2: Circulation cylinder

3: impeller 4: auxiliary impeller

5: inhalation prevention plate 6: submersible motor

7: drive shaft 8: pedestal

9: injection pipe (or air hose) 10: injection device (drug mixing device or aeration device)

11: support 12: general motor

In order to achieve the above object, the present invention is provided with a circulating cylinder for mixing the supernatant and the lower layer of the fluid in the water tank (tank or appeal), the centrifugal-impeller at the bottom of the circulating cylinder And a mixing and circulating device for water treatment equipped with an underwater motor or a general motor for driving the same.

As the centrifugal-impeller rotates, the fluid in the circulating cylinder is discharged out of the circulating cylinder which is the impeller centrifugal direction, and the negative pressure is circulated in the upper and lower directions while the fluid is sucked into the circulating cylinder in the upper part of the circulating cylinder. In addition, the circulation cylinder acts as a flow induction (shroud) by inducing the flow direction of the fluid smoothly toward the impeller in the same direction as the drive shaft of the impeller, so that the direction of movement of the impeller and the direction of the fluid perpendicular to the impeller due to the rotation of the impeller Turbulence will occur. Accordingly, the supernatant and the lower layer of the bath are mixed around the impeller, and the mixed fluid diffuses in the radial direction by the rotation of the impeller.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings, but the scope of the present invention is not limited only to the following examples.

1 is a perspective view showing the basic form of the mixing and circulation device for water treatment, the movement of the fluid and its principle according to a preferred embodiment of the present invention. Mixing and circulating device for water treatment according to the present invention is provided with a circulation cylinder (2) so that the upper and lower liquid of the fluid in the water tank (1), the centrifugal-impeller at the bottom of the circulation cylinder (2) (3) is mounted. The impeller 3 is connected to the drive shaft 7 and is driven by the submersible motor 6 installed at the lower end of the impeller 3. Inhalation preventing plate (5) for preventing or adjusting the suction of the fluid in the lower part of the impeller (3) is installed between the impeller (3) and the underwater motor (6) according to the size of the suction preventing plate (5) Prevents or controls fluid intake at the bottom. A support 11 is installed between the circulation cylinder 2 and the suction prevention plate 5 to protect the impeller 3 while supporting the circulation cylinder 2. In addition, a pedestal 8 is installed at the bottom of the submersible motor 6 to support the entire apparatus.

Inside the circulation cylinder 2, the fluid flows toward the impeller 3 parallel to the drive shaft 7 of the impeller 3, and the impeller 3 discharges the fluid in its radial direction (perpendicular to the drive shaft), so that the vortex or eddy The phenomenon does not occur. In addition, the moving direction of the fluid and the direction of movement of the impeller (3) is vertical, the relative speed is the maximum to increase the turbulent flow turbulence increases, the mixed fluid is transferred to the entire tank (1) by circulation The fluid in the water tank 1 becomes uniform.

On the other hand, the required power P required for driving the impeller is as shown in the following formula [1] or [2] according to the laminar or turbulent flow.

In laminar flow: P = kμ n ² D ³ ----------------- [1]

In turbulence: P = kp n ³ D ⁵ ----------------- [2]

Where P = required power, k = impeller specific constant, μ = fluid viscosity,

ρ = fluid mass density, n = rotational speed, D = impeller diameter

As can be seen from the above equation, the required power for driving the impeller is proportional to the third power of the impeller diameter in the case of laminar flow, and the fifth power of the impeller diameter in the case of turbulence. Therefore, as the impeller diameter increases, the required power increases exponentially, so it is desirable to reduce the diameter of the impeller as small as possible in terms of energy efficiency. The circulation cylinder 2 of the mixing and circulating device for water treatment according to the present invention has a relatively small size and a small size of the impeller 3 as compared with the water tank 1, so that the equation [1] or [2] The power required can be reduced by that much. In addition, in the fluid circulation, the circulation cylinder 2 acts as a flow inducing (shrouding) of the impeller 3 to guide the flow of the fluid smoothly to guide the fluid mixed by the impeller 3 in all parts of the water tank 1 Uniformly, the energy consumption is reduced and everything is very uniform in the tank.

FIG. 2 is a perspective view illustrating a water treatment mixing and circulation device in which an auxiliary impeller is additionally installed by extending the drive shaft of the impeller as an example of a preferred embodiment according to the present invention. By additionally mounting the auxiliary impeller 4 by extension it is possible to reinforce the function of the mixing and circulation device for water treatment according to the present invention. If there is a lot of suspended matter in the water tank (1), the drive shaft (7) of the impeller (3) can be extended to install an auxiliary axial impeller (axial propeller) (4) near the upper inlet of the circulation cylinder (2). Since the suction and the fluid circulation are made more smooth, the mixing and circulation effects are further improved. In addition, since the auxiliary impeller 4 is located close to the liquid-gas interface, if the rotational speed is a certain degree or more, the aeration function is performed, so that the air in the upper part of the fluid is sucked into the flowing liquid, and thus, aeration The performance is even better.

3 is a perspective view showing a mixing and circulating device for water treatment provided with an injection tube and an injection device as another example of a preferred embodiment according to the present invention, and an impeller (3) for injecting air, pure oxygen, ozone or chemicals, etc. If the injection pipe 9 (or air hose) and the injection device 10 (chemical mixing device or aeration device) are provided in the vicinity of the injection hole, the injection pipe 9 or the negative pressure generated when the impeller 3 rotates is provided. Since the suction of gas or drugs is promoted to the vicinity of the impeller 3 through the air supply hose, it is possible to effectively perform drug mixing or abandonment.

Figure 4 is a perspective view showing a mixing and circulation device for the water treatment of the reverse phase structure having a secondary impeller as another example of a preferred embodiment according to the present invention, when the apparatus of the present invention is manufactured in the reverse phase structure the fluid circulation direction is reversed The fluid in the lower layer may be sucked into the upper layer and mixed. When there is a large amount of sediment in the water tank 1, the centrifugal-impeller 3 located at the top of the circulation cylinder 2 by the present invention of the reversed phase structure passes the fluid and sediment at the bottom of the water tank 1 through the circulation cylinder 2. Since the suction in the upper layer direction is mixed with the fluid of the upper portion of the water tank 1, it is diffused as a whole. In addition, by installing the auxiliary impeller 4 to the lower end of the circulation cylinder 2 by extending the drive shaft 7 of the impeller 3, it is possible to more effectively improve the suction and fluid circulation of the precipitate.

5 is a perspective view illustrating a mixing and circulating device for water treatment driven by a general motor on the upper surface of the water, as another example of a preferred embodiment according to the present invention, and a driving shaft of the impeller 3 in place of the underwater motor 6. The general motor 12 can be mounted by extending (7) to the atmosphere at the top of the water surface.

Therefore, the use of the water treatment mixing and circulation device according to the present invention not only allows the fluid to be more uniformly and efficiently mixed with minimal energy, but also promotes dissolution of air from the atmosphere by fluid circulation, thereby increasing the amount of dissolved oxygen. There is an advantage to this.

As described above in detail with reference to the preferred configuration of the present invention, the present invention is a liquid-gas, waste water-chemical, air- in a fish farm, appeal, digestion tank or wastewater treatment plant with minimal power. It is effective to enable uniform and efficient mixing between activated sludge or nutrient-microorganisms, and also has an excellent effect of increasing the amount of dissolved oxygen required for decomposition of organic matter by fluid circulation, which is a very useful invention for the environmental industry.

Claims (4)

A circulation cylinder (2) is provided to mix the supernatant and the lower fluid of the fluid in the water tank (1), the tank or the arc, and a radial impeller (3) is mounted at the bottom of the circulation cylinder (2), The impeller (3) is connected to the drive shaft (7) is a mixing and circulation device for water treatment, characterized in that driven by a submersible motor (6) installed in the lower end of the impeller (3) or a general motor installed on the water surface. 2. The mixing and circulating device for water treatment according to claim 1, wherein an auxiliary impeller is additionally mounted by extending the drive shaft of the impeller. 3. The mixing and circulating device for water treatment according to claim 1, wherein an injection pipe (9) or a blower hose is installed near the impeller (3), and an injection device (10), a chemical mixing device, or an aeration device is provided. 4. Mixing and circulating device for water treatment according to any one of claims 1 to 3, characterized in that the device comprising the circulation cylinder (2) and the impeller (3) has a reversed phase structure.