KR101094188B1 - Water treatment system using dissolved air flotation - Google Patents

Abstract

PURPOSE: A water treating apparatus using a dissolved air floating method is provided to improve the entire water treating efficiency of the apparatus and to reduce the surface load rate of the apparatus. CONSTITUTION: A water treating apparatus includes a pressurizing and floating bath, a raw water introducing pipe, a pressurizing tank, a pressurizing pump, an air compressor, and a pressurized water spraying unit. The pressurizing tank stores pressured water which is obtained by mixing raw water and air. The pressurizing pump supplies the raw water or treated water to the pressurizing tank through the raw water introducing pipe. The air compressor compresses air and supplies the pressurizing tank. The pressurized water spraying unit sprays pressurized water to form bubbles. A treated water discharging bottom plate(100) is further arranged at the lower side of the pressurizing and floating bath. A plurality of through holes(110) in wedge forms is formed on the treated water discharging bottom plate.

Description

Water Treatment System Using Dissolved Air Flotation

The present invention relates to a water treatment apparatus using the dissolved air flotation method, and more particularly, a bottom plate having a wedge-shaped through hole is formed at the bottom of the pressurized floatation tank for uniform collection of treated water, and a wedge-shaped through hole formed at the bottom plate. Alternatively, the structure of the wedge-shaped screen is formed in such a way that the cross-sectional area increases toward the bottom, thereby significantly reducing the adhesion of particles remaining in the treated water and the blockage of the bottom plate due to this, and the front of the bottom is the bottom for collecting the treated water. The present invention relates to a water treatment apparatus using a dissolved air flotation method that can be used as a plate to lower the surface load rate.

Recently, the use of dissolved air flotation (DAF) is increasing in water treatment and wastewater treatment.

Dissolved air flotation method removes suspended suspended solids that are lighter than wastewater or raw water, and generates a large amount of microbubbles in the water so that they float and adsorb suspended suspended solids on the bubble surface when they float. , How to remove with skimmer. In addition, the dissolved air flotation method is known as a physicochemical water treatment method which is more efficient than the conventional sedimentation method in terms of removing contaminants such as suspended solids, oil components, green algae, and red algae with low specific gravity.

In addition, the dissolved air flotation method has the advantages of simpler facilities and less site area than the sedimentation method, and it is possible to improve the treatment water quality significantly because it is possible to improve the efficiency of removing suspended solids by reducing the particle size of bubbles. In recent years, the use is increasing because of the simple facility and the fully automatic operation.

Korean Utility Model Registration No. 20-0212210 discloses an example of a water treatment apparatus using the dissolved air flotation method. This water treatment device compresses air with raw water inlet pipe for supplying raw water to pressurized floatation tank, pressurized pump for supplying raw water or treated water to pressurized tank, chemical tank for storing flocculating chemical, chemical pump for supplying flocculant, and pressurized tank. Air compressor to supply, pressurized tank for preparing and storing pressurized water by mixing some of raw water or treated water supplied by pressurized pump with air supplied from air compressor, pressurized water is sprayed from the lower part of pressurized tank inlet It comprises a nozzle to form, a floc collecting device for collecting the contaminants (suspendable suspended solids) floating in the pressure flotation tank and a floc storage tank.

However, in the conventional water treatment apparatus as described above, the treated water is usually discharged through the treated water discharge pipe having a plurality of through holes, such a treated water discharge device is not made uniform collection of the treated water, pressurized injured floor area In contrast, there is a problem in that the treatment flow rate, that is, the surface load ratio is too high to lower the overall water treatment efficiency. In addition, contaminants entering the treated water discharge pipe together with the treated water block the treated water discharge pipe, thereby lowering the discharge efficiency.

An object of the present invention is to solve the above problems, by lowering the surface load rate through the uniform collection of the treated water instead of the treated water discharge pipe to provide a water treatment device to increase the overall water treatment efficiency by reducing the mixing and blockage of contaminants. I will.

The water treatment apparatus using the dissolved air flotation method according to an embodiment of the present invention is a pressurized floatation tank having a space for processing raw water therein, a raw water inflow pipe for supplying raw water containing contaminants to the pressurized floatation tank, and raw water Or a pressurized tank for storing pressurized water produced by mixing treated water and air, a pressurized pump for supplying raw water or treated water to the pressurized tank through a raw water supply pipe, a chemical tank for storing agglomerated drugs, and agglomerated chemicals The chemical pump, the air compressor for compressing and supplying the air to the pressurized tank, the pressurized water injector for spraying the pressurized water from the lower end of the inlet of the pressurization tank to form bubbles, the contaminants (suspendable suspended solids floating in the pressurization tank) Floc collection device and floc storage tank for collecting the It comprises a bottom plate for treated water discharge, in which a plurality of wedge-shaped through holes or wedge-shaped screens are gradually formed.

According to the water treatment apparatus using the dissolved air flotation method according to an embodiment of the present invention, by forming a plurality of through-holes formed in the bottom plate for treatment water discharge in a wedge shape in which the cross-sectional area increases along the moving direction of the treatment water, Discharge bottom plates are significantly less likely to be blocked by contaminants that may remain in the treated water.

Furthermore, according to the water treatment apparatus using the dissolved air flotation method according to the embodiment of the present invention, by installing the bottom plate for treatment water discharge on the lower surface of the pressure levitation tank, since the surface load ratio can be significantly lowered than the prior art, the overall water treatment efficiency is improved. Significantly improved.

1 is a block diagram showing a water treatment apparatus using a dissolved air flotation method according to an embodiment of the present invention.
2 is a perspective view showing an example of the treated water discharge bottom plate in the water treatment apparatus using the dissolved air flotation method according to an embodiment of the present invention.
3 is a cross-sectional view showing an example of the treated water discharge bottom plate in the water treatment apparatus using the dissolved air flotation method according to an embodiment of the present invention.
4 is a perspective view showing another example of the treated water discharge bottom plate in the water treatment apparatus using the dissolved air flotation method according to an embodiment of the present invention.

Next, a preferred embodiment of the water treatment apparatus using the dissolved air flotation method according to the present invention will be described in detail with reference to the drawings.

First, the water treatment apparatus using the dissolved air flotation method according to an embodiment of the present invention includes a pressurized floatation tank 12 and a pressurized tank 23, as shown in FIG.

The pressurization tank 12 is provided with a space for processing raw water therein.

Raw water containing contaminants is introduced into the rapid mixing tank 32 through the raw water inlet pipe 11, through the chemical pump 31 from the chemical tank 30 storing the aggregated chemicals and rapidly mixed with the aggregated chemicals and raw water Rapid mixing in the tank 32, and then contaminants contained in the raw water in the slow mixing tank (33, 34) will form agglomeration. Raw water in which the agglomeration is formed is then moved to the pressure flotation tank 12.

The rectifying plate 13 is installed on the side into which the raw water of the pressurizing tank 12 is introduced so that the raw water smoothly moves toward the pressurized water injection device 26 and reacts well with the pressurized water to be mixed.

As the rectifying plate 13 is installed in the above, the raw water flowing into the pressurizing floatation tank 12 forms a “U” -shaped flow, and the pressurized water injection device 26 is provided at the end of the rectifying plate 13. Installed, the pressurized water reacts well with the raw water and is mixed.

The pressurized water injection device 26 is installed on the side into which the raw water of the pressurized floatation tank 12 is introduced, and is connected through the pressurized tank 23 and the pressurized water supply pipe 25.

The pressure tank 23 is connected to the pressure pump 21 for supplying raw water or treated water through the water supply pipe 24.

In addition, the pressurized tank 23 is connected to an air compressor 22 for compressing and supplying air.

The pressurized tank 23 stores pressurized water prepared by mixing raw water supplied through the pressurizing pump 21 and air supplied through the air compressor 22.

In addition, the air supplied through the pressure pump 21 is mixed with raw water or treated water in the pressure tank 23 and stored as pressurized water.

Therefore, the pressurized water mixed with air through the pressurized water supply pipe 25 is supplied to the pressurized water injector 26, and the raw water passed through the rectifying plate 13 through the pressurized water injector 26. Pressurized water mixed with air is injected.

A floc collecting device 41 is installed at an upper portion of the pressurizing tank 12 to collect contaminants (flocs) that float by attaching to surfaces of bubbles included in the pressurized water. As shown in FIG. 1, the floc collecting device may be configured to collect flocs on the surface while rotating and forming a plurality of wings, or may be formed to collect and collect flocs on the surface by vacuum or the like.

In addition, a floc storage tank 42 for storing the pollutants collected through the floc collecting device 41 is installed outside the pressurizing tank 12.

The floc stored in the floc storage tank 42 is dehydrated while passing through a dewatering device such as a filter press, and the dewatered sludge is moved to the sludge storage tank, and the water from which the floating material is removed is supplied to the pressure flotation tank 12 again. And then reprocessed.

On the part where the pressurized water injection device 26 is installed, floc-shaped guide plates 14 and 15 are installed in the inclined direction in front and rear of the moving direction of the raw water, respectively, on the surface of the flock formed by the pressurized water injection. Contaminants attached to the surface so that you can rise well.

Through the process described above, the treated water from which the contaminants floating to the upper portion of the pressure injured tank 12 is removed and passes through the bottom plate 100 for treating water discharged at the bottom of the pressure injured tank 12. It is discharged to the outside through the treated water discharge portion 45 connected to the pressure floatation tank (12).

Since the treated water discharge bottom plate 100 is installed almost at the bottom of the pressure injured tank, unlike the tubular discharge pipe in which a conventional through hole is formed, many treated water can be efficiently discharged, as well as the floc is removed. It also functions to improve the water treatment efficiency by preventing the discharge of pollutants remaining in the treated water.

As shown in FIGS. 2 and 3, the treated water discharge bottom plate 100 includes a plurality of through-holes 110 having a cross-sectional area gradually increasing in a direction in which the treated water moves.

The treated water discharge bottom plate 100 is not particularly limited in material, and may be formed of various materials such as metal and synthetic resin.

As shown in FIG. 2, the through hole 110 may be formed in a slit shape to form a wedge-shaped screen, or may be formed in a star shape as illustrated in FIG. 4. In addition, the through hole 110 may be formed in various shapes such as a circle, an oval or a triangle, and a polygon.

The through-holes 110 may be formed to pass through the same cross-sectional shape as a whole (however, the cross-sectional area of each through-hole is gradually increased in the direction of water flow), and changes from the upper surface to the lower surface (for example, the upper surface It is also possible to form a rectangular cross section and the lower surface is formed in a circular shape). However, the through hole 110 is formed in a shape in which the cross-sectional area increases toward the flow direction of the water.

The bottom plate 100 for treatment water discharge having the above-mentioned openings may be configured in one layer, or may be configured in two or more layers as necessary. In the case where the treated water discharge bottom plate 100 is composed of two or more layers, it is preferable to provide a predetermined interval between the plate 100 and the plate. In the case where the treated water discharge bottom plate 100 is formed in two or more layers, the cross-sectional area of the upper surface side of the through hole 110 formed in the treated water discharge bottom plate 100 installed at the upper end is large, The cross-sectional area of the upper surface side of the through hole 110 formed in the bottom plate 100 for discharging the treated water installed at the lower end may be relatively small, which may increase treatment efficiency.

When the cleaning needs to be increased due to a large amount of contaminants having a large specific gravity on the upper surface of the bottom plate 100 for discharging water, the operation is stopped, and a blower (not shown) is used on one side to the opposite side. It may be configured to be discharged by blowing or to suck and discharge by installing a vacuum inhaler on the side. Adding such a configuration will be apparent to those skilled in the art to which the present invention pertains, and thus detailed description thereof will be omitted.

In the water treatment apparatus using the dissolved air flotation method according to an embodiment of the present invention configured as described above, the cross-sectional area of the through-hole 110 formed in the bottom plate 100 for treatment water discharge increases along the moving direction of the treatment water. Since it is formed in the shape, the contaminant once passed through the upper surface of the through hole 110 naturally passes completely through the through hole 110, the middle portion of the through hole 110 is not blocked by the contaminants.

In the above, a preferred embodiment of a water treatment apparatus using a dissolved air flotation method according to the present invention has been described, but the present invention is not limited thereto, and various modifications are made within the scope of the claims and the specification and the accompanying drawings. It is possible and this also belongs to the scope of the present invention.

11-raw water inlet pipe, 12-pressurized tank
13-rectifying plate, 14-flotation guide plate,
15-floc float guide plate, 21-pressurized pump,
22-air compressor, 23-pressurized tank,
24-water supply pipe, 25-pressurized water supply pipe,
26-pressurized water sprayer, 30-chemical tank,
31-chemical pump, 32-rapid mixing tank,
33, 34-slow mixing tank, 41-floc collection unit,
42-floc reservoir, 45-treated water outlet,
100-bottom plate for treatment water discharge,
110-through.

Claims (4)

Compressed air by pressurized floatation tank, raw water inlet pipe, pressurized tank for storing pressurized water produced by mixing raw water and air, pressurized pump for supplying raw water or treated water to pressurized tank through raw water supply pipe, In the water treatment apparatus using the dissolved air flotation method comprising an air compressor for supplying a pressurized water and a pressurized water injector for spraying pressurized water from the lower end of the inlet pressure inlet pressure to form bubbles,
In addition, the bottom surface of the pressurization tank further includes a bottom plate for processing water discharge, in which a plurality of wedge-shaped holes are formed in the pressurization tank and a plurality of wedge-shaped holes are formed in the direction in which the treated water moves. Water treatment device using the dissolved air flotation method lowered.
The method according to claim 1,
The through-hole of the treated water discharge bottom plate is a water treatment apparatus using a dissolved air flotation method to form a cross-sectional shape selected from the shape of a circle, oval, triangle, square, pentagonal or more polygons, stars, slits.
The method according to claim 2,
The through-hole is formed to penetrate through the same cross-sectional shape as a whole or the water treatment apparatus using the dissolved air flotation method to form a shape in which the cross-sectional shape changes from the upper surface to the lower surface.
The method according to claim 1,
The bottom plate 100 for treating the water discharged to form the through hole is composed of two or more layers, the water treatment apparatus using a dissolved air flotation method, characterized in that a predetermined interval between the plate 100 and the plate.

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