KR200249066Y1 - Micro Dissolved Oxygen Flotation System - Google Patents

Abstract

The present invention relates to a water purification system for treating contaminated water such as contaminated river water, lake water, drinking water, and wastewater, and a flocculation reactor, a flotation separation tank for purifying the wastewater flowing from the flocculation reaction tank, and the flotation separation. And a ozone generator for supplying ozone to the micro ozone bubble generator, and the ozone generator for supplying micro ozone bubbles to the tank. Oxygen (O ₂ ) is converted into ozone (O ₃ ) by an electrical reaction, the fine ozone bubble generator is directly connected to the air inlet pipe and the ozone generator, sucks ozone and air, and contaminated water flowing into the device Powerful rotational force, dispersion and agitation of the impeller mounted on the rotary drive shaft at a constant high pressure with ozone and air drawn into the It is composed of a fine dissolved bubble generator that generates a large amount of fine dissolved ozone bubbles having a particle diameter of 20㎛ ~ 30㎛ by dissolution, the flotation separation tank is introduced through the flocculation reaction tank to further increase the efficiency of removing contaminants in the flotation separation tank. The fine-dissolved ozone flotation separation system, characterized in that consisting of a stirring injector to bring the effect of increasing the contact agitation frequency of the contaminated water is formed and the fine dissolved ozone bubbles generated by the fine ozone bubble generator.

Description

Micro Dissolved Oxygen Flotation System

The present invention relates to a water purification system for treating contaminated water, such as contaminated river water, lake water, drinking water, and wastewater, and in particular, fine ozone generated from a fine ozone bubble generator in contaminated water having a floc formed through an agglomeration reactor. By infusing air bubbles to float and remove floating contaminants in contaminated water, and oxidizing and removing dissolved contaminants, it is also possible to discolor, deodorize and sterilize contaminated water, greatly reducing the number of devices and equipment. The present invention relates to a flotation separation system using finely dissolved ozone bubbles, which greatly reduce facility costs and exhibit an improvement effect for easy operation and maintenance.

In connection with such a floatation separation water treatment system of contaminated water, conventionally, in order to treat contaminants in the contaminated water, an air compressor 501, a pressurized stirring tank 502, a circulating water pump 503, and pressurized water together with an agglomeration reaction tank 100 and a flotation separation tank 200 are used. Dissolved air flotation equipment was used to create and remove fine bubbles by floating the contaminants in the contaminated water by using the micro bubble generating equipment composed of a plurality of mechanical devices such as the injection device 504. The contaminated water flowing into the flocculation reaction tank 100 flows into the floating separation tank 200 through the pressurized water injection device. At this time, the compressed air accumulated in the pressurized water agitating tank 502 through the air compressor 501 generates bubbles in the contaminated water. The contaminated water and fine bubbles introduced into the flotation tank 200 through the 504 and introduced into the flotation tank 200 are While forming a reaction time of about 30 minutes, the floating contaminants in the contaminated water are floated and removed by contact with the microbubbles. Such a conventional air flotation system is composed of a plurality of related mechanical devices, and thus the equipment size is increased. It has become larger, the site and facility costs have increased, there was an uneconomic problem.

In addition, it is difficult to maintain and manage due to the difficult operation of the associated machinery, and the pressure of compressed air in the pressurized agitation tank is so severe that the amount of air dissolved in the contaminated water cannot be kept constant.

In addition, the particle size of the fine bubbles generated in the flotation separation tank is formed to have a large diameter of 50㎛ ~ 100㎛ has a problem that it is difficult to remove the contaminants stable because the adsorption power to the pollutants is difficult.

In addition, the existing dissolved air flotation system removes only the floating contaminants in the contaminated water. Therefore, the dissolved air contaminants in the contaminated water cannot be removed. Ozone treatment system, etc. must have a problem in parallel.

The present invention has been devised to solve various problems of the conventional dissolved air flotation separation system as described above, and known fine bubbles composed of a plurality of devices used for generating fine bubbles in the dissolved air flotation separation system. It does not use generating equipment so that the system can be easily installed.

Another object of the present invention is to minimize the particle size of the microbubble to about 20㎛ ~ 30㎛ to increase the surface area of the bubble to improve the floating capacity of the contaminants.

Another object of the present invention is to dissolve ozone (O ₃ ) in the contaminated water in the flotation tank to inject fine ozone bubbles to exert the effect of discoloring, deodorizing, sterilizing the contaminated water.

The present invention for achieving the above object is an agglomeration reaction tank, a flotation separation tank for purifying wastewater flowing from the flocculation reaction tank, a fine ozone bubble generator for supplying fine ozone bubbles to the flotation separation tank, and generating the fine ozone bubble And an ozone generator for supplying ozone to the apparatus, wherein the ozone generator converts oxygen (O ₂ ) in the air introduced through the air inlet pipe through which air in the atmosphere is introduced into ozone (O ₃ ) by an electrical reaction. The micro ozone bubble generator is directly connected to the air inlet pipe and the ozone generator, and absorbs ozone and air, and the strong force of the impeller mounted on the rotary drive shaft at a constant high pressure to absorb ozone and air into the contaminated water flowing into the apparatus. By dissolving with rotational force, dispersion and stirring force, a large amount of fine dissolved ozone bubbles having a particle size of 20 to 30 It is composed of a micro-dissolved bubble generator to generate, the flotation separation tank is a fine water generated in the contaminated water and the micro-dissolved bubble generating device with a floc formed through the flocculation reaction tank to further increase the removal efficiency of contaminants in the flotation separation tank Characterized in that it consists of a stirring injector to bring the effect of increasing the contact stirring frequency of dissolved ozone bubbles.

1 is a process diagram of a conventional dissolved air flotation system.

Figure 2 is a schematic diagram of a fine dissolved ozone flotation system of the present invention.

Figure 3 is a detailed view of the fine ozone bubble generator of the present invention.

Figure 4 is a schematic view of the stirring injector of the present invention.

Figure 5 is a detailed view of the fine dissolved bubble generator used in the present invention.

Hereinafter, an embodiment of the present invention will be described with reference to the accompanying drawings.

FIG. 2 is a schematic conceptual view of a microdissolved ozone flotation separation system according to the present invention, FIG. 3 is a detailed view of a micro ozone bubble generator according to the present invention, and FIG. 4 is a block diagram of a stirring injector according to the present invention.

In the present invention, the finely dissolved ozone flotation system introduces contaminant into the contaminated water, injects a flocculant, and then contacts and reacts the flocculated reaction tank 100 to form a contaminant floc by the stirring device and the contaminated water in which the floc is formed. Floating separation tank 200 to lift and remove contaminants on the surface of the water and air inlet pipe 301 through which air is introduced into the air is installed, and oxygen (O ₂ ) in the air is passed through the electrical reaction of the discharge tube while passing the introduced air. A discharge type ozone generator 302 for generating ozone (O ₃ ), and ozone and air sucked under high pressure by introducing treated water into a device directly connected to the driving motor 304 and the rotating shaft of the driving motor while the ozone generator is mounted. Specialized to dissolve large amounts of ozone and air and create bubbles of fine particle size by forming efficient stirring, dispersion, and contact action Micro ozone bubble generator 300 composed of fine dissolved bubble generator 303 having a casing 306 of the shape and located in front of the floating separation tank, which is a post process, are generated in the contaminated water and the fine ozone bubble generator 300 in which the floc is formed in the flocculation reaction tank. In order to further increase the efficiency of removing contaminants in the flotation separation tank by mixing and stirring the finely dissolved ozone bubbles, the stirred injector 400 having a slow stirrer such as a screw type is mounted on the pipe. It is composed.

Contaminated water is introduced into the first condensation reaction tank 100 is configured as described above, and mixed with the flocculation chemicals introduced into the flocculation reaction tank 100 by a chemical injection pump not shown by the rapid and slow stirrer to form a floe of a constant size, The contaminated water in which the floc is formed flows into the agitated injector 400 shown in FIG. 3 as a natural oil, and is mixed with the fine dissolved ozone bubbles generated in the micro ozone bubble generator 300 in the course of transferring the contaminated water to the agitated injector. In the stirring injector 400, a slow stirring machine 401, such as a screw or a wing, is mounted on a pipe, and the contact frequency with the fine dissolved ozone bubbles is not broken without breaking the flocks formed in the contaminated water. By further increasing, the effect of further increasing the flotation separation efficiency in the flotation vessel at the rear end is obtained. The.

In the fine ozone bubble generator 300, the impeller 305 directly connected to the rotating shaft of the driving motor of the fine dissolved bubble generator 303 rotates at a high speed, and a portion of the treated water from which the contaminants in the contaminated water are removed from the flotation tank 200 at the rear is introduced. At this time, a strong negative pressure vacuum is formed by the rapid transfer of the fluid on the micro-dissolved bubble generator and the pipe, the air is introduced into the air through the air inlet pipe 301 attached to the micro-dissolved bubble generator by the vacuum formed in this way In the process, the discharge ozone generator 302 converts oxygen (O ₂ ) in the air into ozone (O ₃ ) and is automatically sucked into the fine dissolved bubble generator.

As described above, the treated water, ozone, and air introduced into and drawn into the fine ozone bubble generator 300 are formed of the impeller 305 and the casing 306 under constant high pressure (approximately 4 kg / cm 2), such as strong rotational force and dispersion / stirring force. As a result of the physical action, a large amount of ozone and air are dissolved into the treated water to generate fine dissolved ozone bubbles 307 having a fine particle diameter of 20 to 30 μm, which is shown in FIG. 5. In the state supplied to the air storage room 308 is a small specific gravity in the state inflow into the waste water is present in the air bubbles at this time to form a large bubble but mechanically under high pressure in the process of being discharged by the impeller 305 as the back plate 309 rotates Through the action of rotational force, dispersion force, stirring force, etc., it passes through the minute space with the main plate 310 The size of the bubbles is referred to as being finely crushed this time becomes crushed by the impact during the bubble and the impeller encountered, it will busyeojyeo reduced by the gap between the impeller and the main plate which is finely crushed to less than 20~30㎛.

The micro ozone bubble generator according to the present invention does not require a number of devices such as an air compressor, a pressure stirring tank, a circulating water pump, and a pressurized water injection device, which are essentially used in the existing air separation system. It shows the effect of reducing the cost of the facility, the ease of operation and maintenance, and produces a much larger amount of dissolved ozone bubbles, which will greatly improve the efficiency of removing pollutants.

The fine dissolved ozone bubbles generated by the fine ozone bubble generator are transported into the stirring injector 400 as described above, and then mixed and stirred with the contaminated water in which the flocs are formed, and are introduced into the floating separation tank 200 at the rear stage.

The contaminated water and fine ozone bubbles introduced into the flotation tank 200 through the above-described process form a reaction time of about 15 to 30 minutes, while the floating contaminants in the contaminated water are brought to the surface by contact with the micro bubbles. The floating pollutants which are floated and removed, and which are not treated in the existing dissolved air flotation separation system are decomposed and removed by the strong oxidizing power of ozone, and are simultaneously decolorized, deodorized and sterilized in the contaminated water.

As described above, according to the present invention, by using a simple structure, it is possible to reduce the size of the facility and reduce the installation cost, and to easily operate and maintain the maintenance cost and to reduce the management cost. ㎏ / ㎠) and the amount of ozone and air dissolved by the rotating force of the powerful rotating impeller and mechanical and physical forces such as dispersion and stirring force, generating finer bubble particles of 20㎛ ~ 30㎛ particle size So that the contaminants can increase the floating separation effect significantly, and it is possible to generate ozone (O3) by using oxygen (O2) in the atmosphere in the reactor, and to be dissolved in the contaminated water, so that the existing method cannot be dissolved. Removal of contaminants, as well as the effect of discoloration, deodorization and sterilization easily occurs.

Claims (6)

An agglomeration reactor for receiving contaminated water to form a contaminant floc; A discharge ozone generator mounted with an air inlet pipe for sucking air in the atmosphere and converting oxygen in the air into ozone; A fine ozone bubble generator equipped with a fine dissolved bubble generator for generating fine dissolved ozone bubbles by sucking ozone and air and contaminated water introduced from the ozone generator; A stirring injecting device for contacting and stirring the contaminated water and the fine ozone bubble in which the floc is formed; And a flotation separation tank configured to receive the floc formed contaminated water and fine dissolved ozone bubbles to float and remove contaminants in the contaminated water to discharge the treated water. The method according to claim 1 The fine ozone bubble generator is a fine dissolved ozone flotation system comprising an air inlet pipe, ozone generator and the fine dissolved bubble generator is configured to be directly connected in the form of one connecting tube. The method according to claim 1 or 2, The fine ozone bubble generator is a fine dissolved ozone floating separation system comprising a casing for inducing the dispersing and stirring action of the received fluid while the impeller of the single stage is directly connected to the rotation axis of the drive motor. The method according to claim 1 or 2, The fine ozone bubble generator is a fine dissolved ozone flotation system comprising a casing for inducing the dispersing and stirring action of the fluid received while two or more multi-stage impeller is directly connected to the rotation axis of the drive motor. The method according to claim 1 or 2, The stirring injector is fine dissolved ozone flotation system comprising a screw type stirrer attached to induce the stirring and contact action of the fluid transported on the pipeline. The method according to claim 1 or 2, The stirring injector is fine dissolved ozone flotation system comprising a stirrer, such as a propeller type to induce the stirring and contact action of the fluid transported on the pipeline.