KR100373234B1 - Elimination apparatus for gas material of using bubble - Google Patents

Abstract

The present invention has a large specific surface area in a non-clean manner, because there is no waste water generation, no need to be replaced periodically, and a device that does not require complex facilities in the construction of the device is required. Adsorption using fine bubbles with good adsorption capacity increases the volume of the absorbent cleaning liquid by more than 8 times, thereby increasing the contact area, reducing pressure loss, and combining gaseous substances through chemical reactions depending on the characteristics of the adsorption and liquid at the interface. The present invention provides an apparatus for removing gaseous substances using bubbles in which bubbles such as and particulate matter are bubbled and settle as dense particles in the form of scum.

In order to achieve the above object, the present invention provides a bubble generating unit 40 and a bubble generating unit for generating fine bubbles by mixing liquid and air introduced therein by high-speed rotation by the driving of the driving motor 10. One side of the passage 40 and the passage is installed to have a bubble tower 10 for adsorbing and removing the harmful components contained in the gaseous material supplied from the bubble generating unit 40 and at the same time to discharge the gas from which the harmful components have been removed to the outside. It is characterized by.

Description

Gaseous substance removal device using bubbles {ELIMINATION APPARATUS FOR GAS MATERIAL OF USING BUBBLE}

The present invention relates to an apparatus for removing gaseous substances using bubbles, in which bubbles can be used to remove harmful gaseous substances through bonding or adsorption with surfactants.

In general, with the development of the industry, the problem of waste or wastewater due to the production of products is becoming more serious. In particular, unlike water pollution, since air pollution does not end at the international scope, regulations through international agreements are being strengthened day by day, but technology for removing gaseous pollutants in a small facility is extremely inadequate. In most cases, when the flow rate is more than 100㎥ / hr, various types of cleaning scrubbers are used, and activated carbon and adsorption towers having a large specific surface area are used in combination. In addition, in the case of a system concentrating the wastewater, it is easy to cause abnormal operation and failure of the system due to the blockage and corrosion of the pipeline according to the characteristics as well as the deterioration of adsorption capacity during the circulation process. In particular, there was a problem in that management was needed to prepare for freezing in winter.

In addition, in the case of adsorption by activated carbon, the adsorption saturation point after a certain period of time must be replaced or regenerated. In addition, the method of converting the combustible gaseous material into a gaseous material which is relatively easy to process through a combustion process also has a problem in that a cleaning tower or an adsorption tower needs to be provided at the rear end.

Accordingly, the present invention has been made to solve the above problems, and the object of the present invention is not only to generate waste water, but also to avoid the need for periodic replacement and to require a device that does not require complicated auxiliary facilities in the configuration of the device. Since the gaseous substances have a large specific surface area by the non-clean method and the adsorption using fine bubbles with good adsorption capacity, the volume of the absorbent cleaning liquid is increased by more than 8 times, thereby increasing the contact area as well as reducing the pressure loss. Provides a gaseous substance removal device using bubbles so that bubbles of gaseous substances and particulate matters combined through chemical reactions can be bubbled and settle as dense particles in the form of scum according to adsorption and liquid characteristics. It is.

Gas phase material removal apparatus using the bubble according to the present invention made to achieve the above object, Bubble generation unit for generating a fine bubble by mixing the liquid and air introduced into the inside by a high speed rotation by the drive of the drive motor, One side of the bubble generating unit and the passage is connected to the adsorption and removal of harmful components contained in the gaseous material supplied from the bubble generating unit and at the same time characterized in that it comprises a bubble tower for discharging the gas is removed.

1 is a system diagram showing an apparatus for removing a gaseous substance using bubbles according to the present invention;

2 is a cross-sectional view showing a gaseous substance removing apparatus using bubbles according to the present invention;

3 is a perspective view showing a filler according to the present invention.

Explanation of symbols on the main parts of the drawings

10 bubble column 12 porous filler

22: foam shatterproof plate 40: bubble generation unit

42: movable punch plate 44: fixed punch plate

80: drive motor

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

Gas phase material removal apparatus using the bubble according to the present invention, as shown in Figures 1 to 3, the processing gas from which the gaseous material is removed by the exhaust gas introduced into the interior through the bottom and the foam flowed through one side. The bubble tower 10 filled with the porous filler 12 therein so that the gas is discharged to the upper part, and the liquid and the air introduced into the inside of the bubble tower 10 through the bubble inlet 50 are connected through the medium. The bubbles are formed in the bubble generating unit 40 by mixing them by high-speed rotation of the movable perforated plate 42 and the fixed perforated plate 44 to form fine bubbles, and at the same time supplying the bubbles (bubbles) into the bubble column 10. The bubble generating unit 40 and the lower end of the bubble generating unit 40 is installed in the opposite direction of the bubble inlet 50 through the liquid inlet 52 through a predetermined amount in the bubble generating unit 40. Liquid level control valve 60 and pump 70 for supplying liquid And, the air inlet 54 is installed in the opposite direction of the bubble inlet 50 with respect to the upper end of the bubble generating unit 40 to supply the outside air into the bubble generating unit 40, and the bubble generating unit ( A motor speed is provided at one side to simultaneously rotate the plurality of movable perforated plates 42 and the fixed perforated plates 44 installed in the bubble generator 40 in the opposite direction to the rear end of the foam inlet 50. It consists of a drive motor 80 to which the regulator 82 is attached.

In this case, the bubble column 10 is formed of, for example, a cylindrical shape having a lower portion and an upper portion thereof, and an exhaust gas inlet 18 through which lower inlets and outlets are narrowed through lower and upper flanges 14 and 16 at lower and upper ends thereof. ) And the processing gas outlet 20 are respectively installed, the center of the inside is filled with a porous filler 12, the inside and the bottom of the porous filler 12 with the foam scattering prevention plate 22 and falling water Inflow preventing plates 24 are provided, respectively.

At this time, the porous filler 12 has a plurality of through holes 12b formed around the through hole 12a at the same time, so that bubbles are attached to the surface thereof and at the same time reduce the pressure loss when the gaseous material passes. ) Are formed respectively.

The foam shatterproof plate 22 is horizontally installed on the top of the porous filler 12 is made of a non-woven fabric or net form so as not to scatter when bubbles are excessive.

The falling water inflow prevention plate 24 is installed at the lower portion of the porous filler 12 and is inclined so that its height is lowered toward the edge from the center thereof so that the falling water does not flow into the exhaust gas inlet 18.

When the liquid and gas phase passes through the bubble generator 40, the plurality of movable perforated plates 42 and the fixed perforated plate 44 which rotate so that the bubbled bubbles become liquid and flow back into the bubble generator 40 alternately. The plurality of movable perforated plates 42 and the fixed perforated plates 44 are fixed to be rotated simultaneously by the motor shaft 84 of the drive motor 80.

Next, the operation and effect of the present invention configured as described above will be described.

Bubble generation unit 40 is composed of a plurality of movable perforated plate 42 and the perforated fixed perforated plate 44 that rotates at a high speed, the liquid transferred by the pump 70 is introduced through the liquid control valve 60 The air introduced through the air inlet 54 is mixed by the rotation of the driving motor 80 in the bubble generator 40.

In addition, the gas passing between the movable perforated plate 42 and the fixed perforated plate 44 rotating in the bubble generator 40 is subdivided as the rotational speed of the driving motor 80 is faster to form fine bubbles. Done.

Therefore, it is possible to form fine bubbles of 100 μm or less without the addition of a surfactant, and to generate fine bubbles of 5 μm or less even if only 0.1% of the surfactant is contained. Of course, the size and amount of bubbles depends on the amount of air injected, but it is possible to use a very small amount to obtain a bubble ratio of more than three times. If the amount of air is increased, the size of the bubble increases and a bubble ratio of more than ten times is obtained.

In addition, since not all liquids are changed into bubbles, the time that bubbles are bubbled varies depending on the type of surfactant added, the size of the bubbles, and the movement in the bubble generator 40. As the temperature and the size of the bubbles increase, It is quickly broken.

Therefore, the driving motor 80 is attached to the motor speed controller 82 which can adjust the rotation speed, so that the number of movable perforated plate 42 in the bubble generating unit 40 according to the rotation speed of the drive motor 80 and It is possible to adjust the rotation of the fixed perforated plate 44, as well as to adjust the amount and size of the bubble.

In addition, since the bubble tower 10 is filled with a low density of the porous filler 12 in the upper portion where the gaseous substances are introduced, a bubble layer may be formed on the surface of the porous filler 12 and at the same time, Even if it passes, it has a wide contact area, and a pressure loss is small, and even if an excessive bubble flows in, it will not be scattered by the non-woven fabric or the net form scattering prevention plate 22.

Therefore, when the bubble generated in the bubble generating unit 40 is filled with the bubble tower 10 in such a structure having the bubble generating unit 40 and the bubble tower 10, bubbles are exhausted on the surface of the porous filler 12 layer. It is harmful to the exhausted gas because it has a large contact area while adsorbing or chemically reacting the substances on the exhaust gas flowing through the gas inlet 18 and then flowing down to a state containing an aqueous solution or precipitate containing solid content. It will not contain them.

In addition, the bubbled and flowed down liquid is recycled to the bubble generator 40 by the pump 70, because the harmful components are removed in the form of sediment, when the temperature of the gas is high, the reactivity of the bubble is high and the time to be bubbled is short. By means of scum or basin and controlling the amount of bubbles, it is also possible to use a device that does not generate waste liquid.

As described above, the gaseous substance removing apparatus using bubbles according to the present invention does not require wastewater generation and does not need to be replaced periodically and does not require an apparatus that does not require complicated auxiliary facilities in the construction of the apparatus. Therefore, the gaseous substances have a large specific surface area by non-cleaning method, and the volume of absorbent cleaning liquid is increased by more than 8 times by adsorption using fine bubbles with good adsorption capacity. According to the characteristics of the liquid, gaseous substances and particulate matters, etc., which are combined through chemical reactions, are bubbled and have the advantage of being able to settle as dense particles in the form of scum.

Claims (3)

Bubble generation unit 40 for generating a fine bubble by mixing the liquid and air introduced into the high-speed rotation by the drive of the drive motor 80, One side of the bubble generator 40 is connected to the passage so that the bubble supplied from the bubble generator 40 is attached to the inside to adsorb and remove harmful components contained in the substance introduced through the exhaust gas inlet 18. And a bubble tower (10) for discharging gas from which noxious components have been removed to the outside. The method of claim 1, When the liquid and gas phase passes through the bubble generator 40, the plurality of movable perforated plates 42 and the fixed perforated plate 44 which rotate so that the bubbled bubbles become liquid and flow back into the bubble generator 40 alternately. Gas phase material removal apparatus using a bubble, characterized in that the installation. The method of claim 1, A porous filler 12 embedded in the bubble column 10 to reduce the pressure loss when the gaseous substance is passed through the bubble attached to the surface; It is installed on top of the porous filler (12) is a gaseous substance removal device using a bubble, characterized in that it has a foam scattering prevention plate 22 to prevent the scattering when excessive bubble generation.