KR20090056427A - A gas solution and reaction apparatus - Google Patents

Abstract

A gas dissolving and reacting apparatus for successively collecting liquid is provided to dissolve gas to a saturation condition effectively and to dissolve various sizes of bubbles supplied to the inside of a tank. A gas dissolving and reacting apparatus(10) includes a tank(20), a nozzle(30), a pressurized gas feeder(40), a liquid outlet(50), a rotary shaft(60), a plurality of liquid guiding plates(70), and a drive motor(80). The rotary shaft having a plurality of blades is built in the center of the tank pivotally. The drive motor connected to the rotary shaft on the top of the tank, rotates the rotary shaft. The liquid guiding plates is placed with constant intervals vertically according to an inner circumference of the tank, and formed to be inclined to the inside. A blade assembling part is formed on each liquid guiding plate to assemble the blades easily.

Description

A gas solution and reaction apparatus

The present invention relates to a gas dissolution reaction apparatus, and more particularly, a gas dissolution reaction apparatus capable of dissolving bubbles of various sizes in a liquid supplied into a tank, and having a structure capable of dissolving gas more effectively to a saturated state. It is about.

Generally, in order to solve the dissolved oxygen deficiency in wastewater treatment facilities, polluted rivers and hot springs, aeration, front aeration, surface aeration, deep aeration, oxygen aeration, circulation aeration, etc. Various methods for treating sewage by maintaining the activity of microorganisms have been adopted, and one of these methods is to increase the amount of dissolved oxygen in the sewage using a gas dissolution reactor.

The conventional gas dissolution reactor is a tank having a liquid discharge port and a liquid receptacle, a pump connected to the liquid discharge port to pump liquid into the tank, and connected in communication with the tank to supply gas into the tank. It consists of a pressurized gas supply and a nozzle which is mounted in the liquid discharge port of the tank and injects the pumped liquid into the tank.

However, the conventional gas dissolution reaction apparatus has a problem in that the gas dissolution efficiency is low because only the pressurization pressure of the dodge gas mixes the sewage and the gas in the tank.

In order to solve the conventional problems as described above, the present applicant has made various attempts, and as a result, the patent application was filed with the Korean Patent Office No. 10-2005-99029 on October 20, 2005, and on February 1, 2007. The "gas dissolving reaction device" registered under the registered patent No. 10-679876 (hereinafter referred to as "pre-registration invention") was developed.

Looking at the configuration of the pre-registered invention schematically, a tank having a liquid discharge port and a liquid drain port; A pump connected to the liquid discharge port to pump liquid into the tank; A pressurized gas supplier connected in communication with the tank to supply gas into the tank; In the gas dissolution reaction apparatus having a nozzle mounted on the liquid discharge port of the tank for injecting the pumped liquid into the tank, the gas dissolution reaction apparatus is radially mounted along the outer circumferential surface is hit by the liquid injected from the nozzle It has a plurality of braids, is rotatably embedded in the inner central portion of the tank, and has a rotating shaft that is rotated by the striking force of the liquid.

In the conventional gas dissolution reactor, the liquid injected from the nozzle strikes the braid mounted on the rotating shaft, and the braid hit by the liquid scatters the liquid supplied into the tank while being rotated by the striking force of the liquid. As a result, the dissolution and reaction of the gas mixed in the liquid are promoted, so that the gas dissolution rate is improved compared to the conventional gas dissolution reaction device, but only one to three times as the weak rotational force of the braid and the liquid supplied into the tank collide with the braid There is a problem that there is a limit to the improvement of gas dissolution rate because it is scattered.

The present invention has been made in view of the above-described problems of the present invention, the purpose of which can not only dissolve the bubbles of various sizes in the liquid supplied into the tank, but also can dissolve gas more effectively saturated state gas dissolution reaction apparatus To provide.

The object of the present invention is a tank having a liquid discharge port and a liquid drain port; A pump connected to the liquid discharge port to pump liquid into the tank; A pressurized gas supplier connected in communication with the tank to supply gas into the tank; A nozzle mounted at the liquid discharge port of the tank to inject the pumped liquid into the tank; Gas dissolving radially mounted along the outer circumferential surface and having a plurality of braids hit by the liquid injected from the nozzle, rotatably embedded vertically in the inner central portion of the tank, and having a rotating shaft rotated by the striking force of the liquid In the reactor, the gas dissolving device is installed on the upper side of the tank connected to the rotating shaft to drive the rotating shaft; It can be achieved by a gas dissolution reaction apparatus comprising a plurality of liquid guide plates formed inclined inwardly vertically spaced apart along the inner circumferential surface of the tank.

Gas dissolution reaction apparatus according to the present invention by rotating the rotary shaft by a drive motor to strengthen the centrifugal force to scatter the liquid, and by collecting the scattered liquid continuously and supply again on the braid of the position again, Not only can it dissolve bubbles of various sizes in the liquid supplied into the tank, but also has the effect of dissolving gases more effectively to saturation.

Hereinafter, with reference to the accompanying drawings will be described an embodiment of the gas dissolution reaction apparatus according to the present invention in detail.

1 is a longitudinal cross-sectional view showing a gas dissolution reaction apparatus according to the present invention in the longitudinal direction, Figure 2 is a cross-sectional view showing a gas dissolution reaction apparatus according to the present invention in a transverse direction, Figure 3 is a present invention Sectional view illustrating an operating state of the gas dissolution reactor according to the present invention.

1 to 3, the gas dissolution reactor 10 according to the present invention includes a tank 20 having a liquid discharge port and a liquid drain port 50; A pump (not shown) connected to the liquid discharge port to pump liquid into the tank 20; A pressurized gas supplier 40 connected in communication with the tank 20 to supply gas into the tank 20; A nozzle 30 mounted to the liquid discharge port of the tank 20 to inject the pumped liquid into the tank 20; It is radially mounted along an outer circumferential surface and has a plurality of braids 61 hit by the liquid injected from the nozzle 30, and is rotatably embedded vertically in the inner central portion of the tank 20, the impact force of the liquid In the gas dissolution reaction apparatus of the pre-registered invention consisting of a rotating shaft 60 rotated by the drive motor 80 and a plurality of liquid guide plate 70 is provided.

The drive motor 80 is installed to be connected to the rotary shaft 60 on the upper side of the tank 20 to rotate the rotary shaft 60.

The plurality of liquid guide plates 70 are vertically spaced apart along the inner circumferential surface of the tank 20 so as to be inclined inwardly, so that the liquid may be easily assembled when the rotating shaft 60 is assembled and disassembled. The braid assembly 71 is formed radially incision on the guide plate 70.

Gas dissolution reaction apparatus 10 according to the present invention having the configuration as described above is the rotary shaft 60 is strongly rotated by the drive of the drive motor 80 the liquid sprayed from the nozzle 30 to the rotary shaft The liquid guide plate 70 and the braid in such a manner that the braid 61 interlocking with the 60 is strongly scattered and the liquid splashed is again supplied onto the lower braid 61 along the liquid guide plate 70. By repeatedly performing the number of 61), the dissolution and reaction of the gas contained in the liquid can be exploded to maximize the dissolution and reaction efficiency of the gas.

1 is a longitudinal sectional view showing a gas dissolution reactor according to the present invention in a longitudinal section.

Figure 2 is a cross-sectional view showing a cross-sectional view of the gas dissolution reactor according to the present invention in the transverse direction.

Figure 3 is an operating state cross-sectional view illustrating an operating state of the gas dissolution reactor according to the present invention.

* Description of the symbols for the main parts of the drawings *

10: gas dissolution reactor 20: tank

30: nozzle 40: pressurized gas supply

50: liquid drain port 60: axis of rotation

61: braid 70: liquid guide plate

80: drive motor

Claims (2)

A tank having a liquid discharge port and a liquid drain port; A pump connected to the liquid discharge port to pump liquid into the tank; A pressurized gas supplier connected in communication with the tank to supply gas into the tank; A nozzle mounted at the liquid discharge port of the tank to inject the pumped liquid into the tank; Gas dissolving radially mounted along the outer circumferential surface and having a plurality of braids hit by the liquid injected from the nozzle, rotatably embedded vertically in the inner central portion of the tank, and having a rotating shaft rotated by the striking force of the liquid In the reactor, The gas dissolution response device 10, A drive motor 80 installed to be connected to the rotary shaft 60 on an upper side of the tank 20 to rotate the rotary shaft 60; Gas dissolution reaction apparatus comprising a plurality of liquid guide plate 70 formed inclined inwardly vertically spaced apart along the inner peripheral surface of the tank (20). The method of claim 1, Each liquid guide plate 70, Gas dissolution reaction apparatus, characterized in that the braid assembly portion 71 is formed to facilitate the assembly of the braid (61) during assembly and disassembly of the rotary shaft (60).

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