KR101792157B1 - Gas soluble device for enhancing gas disovled and generating microbubble - Google Patents

Abstract

An embodiment of the present invention relates to a gas dissolution apparatus installed in treated water inside a reactor, which comprises: a hemispheric outer container; an inner container installed inside the outer container to have a through-hole inside; at least one gas discharge pipe formed to extend from the top surface of the outer container to the lower part thereof and through which gas inside the outer container is discharged, wherein gas-dissolved bubbles are introduced inside the inner container. The gas dissolution apparatus of the present invention is installed in the treated water inside a reactor to increase a dissolution rate of gas in the treated water and additionally generate gas-contained microbubbles, wherein the microbubbles have reduced buoyancy and longer underwater retention time, and are agitated even in small water stream, so that it will take longer time that the microbubbles including soluble materials come in contact with contact materials, thereby enabling an increase in an underwater dissolution rate and an oxidization rate of gaseous materials included in the microbubbles.

Description

TECHNICAL FIELD [0001] The present invention relates to a gas dissolving apparatus capable of increasing gas dissolution rate and generating ultra-

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a gas dissolving apparatus, and more particularly to a gas dissolving apparatus capable of increasing a dissolved amount of a gas in treatment water and capable of generating a super-strength spray.

Oxidation, Reduction, Oxygen supply to microorganisms by treating and dissolving various gases when treating treated water such as water, wastewater, industrial water, ground water, etc. Precipitation, Disinfection and so on. The types of gases used include ozone, oxygen, air, carbon dioxide, chlorine, and nitrogen gas.

In the conventional gas dissolution technique in which the gas relative to the liquid (water etc.) has a mixing ratio of less than 20% at a water depth of 2500 mm with an air diffuser, the dissolved amount of the gas to be mixed with the fine gas is about 14% And thus the unmixed gas is discharged onto the surface of the water. Therefore, there is a need for a technique of an auxiliary device for minimizing the release of gas not dissolved in water.

In order to solve the problems of the prior art as described above, the present invention proposes a gas dissolving apparatus capable of increasing the dissolution rate of the gas in the treated water and generating ultra-fine grains mixed with the gas.

Other objects of the invention will be apparent to those skilled in the art from the following examples.

In order to achieve the above object, according to a preferred embodiment of the present invention, there is provided a gas dissolving apparatus installed on a water surface of treated water in a reaction tank, comprising: a hemispherical outer tube; An inner cylinder provided inside the outer cylinder and passing through the inner cylinder; And at least one gas discharge pipe extending from an upper surface of the outer cylinder in a downward direction and through which gas in the outer cylinder is discharged, and air bubbles in which gas is dissolved are introduced into the inner tube. do.

The gas discharge pipe may be formed so that an end of the gas discharge pipe is located on a higher surface than the upper surface or the upper surface of the inner cylinder.

The end of the outer tube may be located below the upper surface of the inner tube.

The level of the treated water inside the outer cylinder can be maintained at a height of the surface where the end of the gas discharge pipe is located by the gas discharged through the gas discharge pipe.

As the treated water and the gas in the inner tube are introduced and discharged together through the gas discharge pipe, the gas bubbles in the gas discharge pipe are discharged in the form of a super strong force due to the pressure difference inside the gas discharge pipe and the pressure difference outside the outer pipe .

The outer surface of the inner tube and the inner surface of the outer tube may be connected through at least one connecting bar.

The gas dissolving apparatus according to the present invention is installed on the water of the treated water in the reaction tank to increase the dissolution rate of the gas on the treated water and additionally generates the ultra-fine strength gas containing the gas, The long residence time in the water and the fluctuation in the small water stream makes it possible to contact with the contact material in the water because the ultra-high strength foam mixed with the dissolved substance becomes more and more time, so that the gaseous substance mixed in the ultra- .

1 is a cross-sectional view of a reactor including a gas-dissolved device according to an embodiment of the present invention.
2 is a perspective view of a gas dissolving apparatus according to an embodiment of the present invention.
3 is a rear view of a gas dissolving apparatus according to an embodiment of the present invention.

The details of other embodiments are included in the detailed description and drawings.

BRIEF DESCRIPTION OF THE DRAWINGS The advantages and features of the present invention and the manner of achieving them will become apparent with reference to the embodiments described in detail below with reference to the accompanying drawings. However, the present invention is not limited to the embodiments described below, but may be embodied in various forms. In the following description, it is assumed that a part is connected to another part, But also includes a case in which other elements are electrically connected to each other in the middle thereof. In the drawings, parts not relating to the present invention are omitted for clarity of description, and like parts are denoted by the same reference numerals throughout the specification.

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

1 is a cross-sectional view of a reactor including a gas-dissolved device according to an embodiment of the present invention. 2 is a perspective view of a gas dissolving apparatus according to an embodiment of the present invention. 3 is a rear view of a gas dissolving apparatus according to an embodiment of the present invention.

1 to 3, the treated water flows into the reaction tank 1 through the inlet 5 of the reaction tank 1 through the pump 30.

The reaction tank 1 is provided with an inlet 5 and an outlet 7. The treated water flowing into the reaction tank 1 through the inlet 5 is discharged through the outlet 7 after reacting with gas containing bubbles .

The pump 30 may be a pump which mixes the liquid and the gas together and supplies them to the inlet 5 of the reaction tank 1. [ For example, a mixer driven by a motor M including an impeller, a liquid inlet L and a gas inlet G, and a line mixer connected to the mixing pump. That is, when the liquid flows into the pump 30 and the gas is injected, mixing is performed by the mixing pump and the line mixer, whereby the gas is decomposed into the mist-like fine particles. Accordingly, the contact efficiency between the gas and the liquid decomposed into the mist state can be maximized, and the gas can be dissolved in the treated water. In addition, processing water in which gas is dissolved can be introduced into the reaction tank 1 through a mechanical stirring system, a diffuser system, a gas indirect injection system, or the like.

Here, various kinds of gases such as ozone, oxygen, air, carbon dioxide, chlorine, and nitrogen may be present as the types of gases dissolved in the treated water.

Hereinafter, for convenience of description of the invention, it is assumed that the gas dissolved in the treatment water is ozone, but the present invention is not limited thereto.

On the water surface of the treated water in the reaction tank 1 is formed an outer tube 11 of hollow hemispherical shape and an inner tube 15 provided inside the outer tube 11 and penetrating the inner tube 15 and extending downward from the upper surface of the outer tube 11 , And a gas dissolving apparatus (10) including at least one gas discharge pipe (13) through which the gas in the outer cylinder (11) is discharged.

The gas dissolving apparatus 10 is a device for grinding a micro bubble introduced into the gas dissolving apparatus 10 to produce a super strength micro bubble to further increase the residence time in water and to induce dissolved magnetic pressure Is a device

At this time, the end of the gas discharge pipe 13 is formed so as to be located on the upper surface of the inner tube 15 or on the upper surface of the upper surface, and the end of the outer tube 11 is positioned below the upper surface of the inner tube 15 can do.

The outer surface of the inner tube 15 and the inner surface of the outer tube 11 may be connected through at least one connecting bar 17. Further, the gas dissolving apparatus 10 can be fixed inside the reaction tank 1 through the fixing bar 19.

The gas introduction inflow pipe 13 extends into the inner cylinder and the bubbles into which the ozone is introduced through the fine bubble generator 50 rise inside the inner cylinder 15 and flow into the outer cylinder 11. [

The water level of the treated water in the outer cylinder 11 is lowered to the end of the gas discharge pipe 13 by the pressure of ozone discharged from the treated water in the inner cylinder 15 and accumulated in the outer cylinder 11. [

Thereafter, the ozone in the outer cylinder 11 is discharged together with the treated water through the gas discharge pipe 13, so that the level of the treated water maintains the height of the surface where the end of the gas discharge pipe 13 is located. The treated water in the inner tube 15 is also discharged along the space between the inner tube 15 and the outer tube 11. [

At this time, since the ozone is filled in the outer cylinder 11 and the internal pressure is increased, the ozone discharged to the outside of the treated water in the inner cylinder is used for the treated water in the inner cylinder 15. That is, the dissolution rate of ozone into the treated water can be increased.

The ozone bubbles in the gas discharge pipe 13 are mixed with the pressure inside the gas discharge pipe 13 and the pressure difference between the outside of the gas discharge pipe 13 It is discharged in the form of ultra-fine grains. That is, since the pressure outside the outer tube 11 is larger than the pressure inside the gas discharge tube 13, the pressure exerted from the outside of the outer tube 11 is greater than the pressure received by the ozone bubbles in the gas discharge tube 13, Will be released in the form of ultra-fine grains.

The efficiency of oxidation of the treated water can be further improved by the ultra-high strength foam containing ozone. In other words, ozone in ultra-high-strength bubbles has a large surface area, so that the time remaining in the water is long and the bubbles become small due to the process of being dissolved. The smaller ultrahigh-intensity cells are polarized by cathodic polarization or polarization and bind to oxidized substances in water. Ultrathin bands combined with oxidizing substances in water dissolve organic substances, inorganic substances and oxidizing substances in water while rupturing by oxidation reaction or magnetic pressure. Ultrasonic centrifugal bubbles continuously generate ultrasound bursts of 500Km or more per hour with a high temperature of more than 5500 ° C on the bubbles when ruptured and sterilize by causing damage to the cell membrane of pathogenic microorganisms by releasing OH radicals. Thereby performing a decomposition oxidation process.

That is, the gas dissolving apparatus according to the present invention is installed on the water of the treated water in the reaction tank 1 to increase the dissolution rate of the gas on the treated water, and additionally generates the ultra- The oxidation efficiency can be increased.

In the above description, the gas is assumed to be ozone for convenience of explanation, but it goes without saying that the gas dissolving apparatus of the present invention can be applied to various gases.

As described above, the present invention has been described with reference to particular embodiments, such as specific elements, and specific embodiments and drawings. However, it should be understood that the present invention is not limited to the above- And various modifications and changes may be made thereto by those skilled in the art to which the present invention pertains. Accordingly, the spirit of the present invention should not be construed as being limited to the embodiments described, and all of the equivalents or equivalents of the claims, as well as the following claims, belong to the scope of the present invention .

1: Reactor 5: Inlet
7: Outlet
10: Gas dissolving apparatus 11:
13: gas discharge pipe 15: inner pipe
17: connecting bar 19: stationary bar
30: Pump

Claims (6)

A gas dissolving apparatus provided on a water surface of treated water in a reaction tank,
A hollow hemispheric outer tube;
An inner cylinder provided inside the outer cylinder and passing through the inner cylinder;
And at least one gas discharge pipe extending downward from an upper surface of the outer cylinder and through which gas in the outer cylinder is discharged,
The end of the outer tube is located below the upper surface of the inner tube,
The gas discharge pipe is formed so that an end of the gas discharge pipe is positioned on the upper surface of the inner cylinder,
The water level of the treated water inside the outer tube is maintained at a height of the upper surface of the inner tube where the end of the gas discharge pipe is positioned by the gas discharged through the gas discharge pipe,
Bubbles in which the gas is dissolved are introduced into the lower portion of the inner cylinder,
As the treated water and the gas in the inner tube are introduced together and discharged through the gas discharge pipe, the gas bubbles in the gas discharge pipe are discharged in the form of a super strong force due to the pressure difference between the gas discharge pipe and the outer cylinder Wherein said gas dissolving apparatus is a gas dissolving apparatus. delete delete delete delete The method according to claim 1,
Wherein the outer surface of the inner tube and the inner surface of the outer tube are connected to each other through at least one connecting bar.

Images