KR101593364B1 - Apparatus for Extinguishing Greenhouse Gases - Google Patents

Abstract

The present invention relates to an apparatus for removing greenhouse gas which pollutes the environment and affects global warming. According to the present invention, the apparatus comprises: a housing having a chemical reaction chamber; a plurality of reductant barrels mounted in the housing; and an exhaust device of which a main body is inserted into the housing. In addition, the apparatus is capable of efficiently removing, in an inexpensive and simple way, greenhouse gas existing in waste gas produced in boilers at various industrial sites.

Description

{Apparatus for Extinguishing Greenhouse Gases}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a greenhouse gas removing apparatus, and more particularly, to a greenhouse gas removing apparatus capable of easily and efficiently removing a greenhouse gas using a reducing agent.

Greenhouse gases that pollute the environment and affect global warming are carbon dioxide (CO₂), nitrogen oxides (NOx), sulfur oxides (SOx), and most of them are caused by the use of fossil fuels. However, it is difficult to substantially reduce the use of fossil fuels. Therefore, it is urgently required to reduce the use of fossil fuels and to easily and efficiently remove greenhouse gases.

KR 10-1166476 B KR 10-1324128 B

The present invention provides a greenhouse gas removing apparatus capable of efficiently and cheaply removing greenhouse gases in waste gas generated in boilers, heating furnaces, drying furnaces, cogeneration plants, incinerators, ships and automobiles of various industrial sites .

In order to attain the above object, a greenhouse gas removing apparatus of the present invention comprises a housing, a plurality of reducing agent cylinders mounted inside the housing, and an exhausting device in which the main body is inserted into the housing, And a lower partition plate for forming a chemical reaction chamber and a stabilization chamber in the lower part, wherein the exhaust unit comprises a suction passage cylinder which is alternately stacked, A plurality of intake pipes to be installed, a regulating valve for regulating the flow rate of the exhaust gas, and an exhaust fan. In the greenhouse gas removing device of the present invention, an upper partition for supporting the exhaust device and the reducing agent container may be provided in the upper part of the interior of the housing.

The present invention relates to a method for producing carbon dioxide (CO2), which is a greenhouse gas that is installed on a stack of waste gas generated in boilers, heat furnaces, drying furnaces, heat-combined power plants, incinerators, ships, , Sulfur oxides (SOx), and nitrogen oxides (NOx) can be removed inexpensively, simply, and efficiently.

1 is a configuration diagram of an apparatus for removing greenhouse gases according to the present invention,
2 is a top view of the upper partition plate of the greenhouse gas removing apparatus of the present invention
3 is a top view of the lower partition of the greenhouse gas removing apparatus of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

The greenhouse gas removing apparatus of the present invention comprises a housing 10, a plurality of reducing agent cylinders 20 mounted inside the housing 10, and an exhaust device 30 into which the main body is inserted into the housing 10 The housing 10 has an upper hole 11 and a plurality of charging holes 13 and a lower hole 12 at a lower portion thereof to form a chemical reaction chamber 16 and a stabilization chamber 17 therein The exhaust unit 30 includes a suction tube 31 and a cylinder 32 which are alternately stacked and a plurality of suction tubes 31 and a plurality of suction tubes 31, A suction pipe 33, a regulating valve 34 for regulating the flow rate of the exhaust gas, and an exhaust fan 35.

The housing 10 has an upper hole 11 and a plurality of charging holes 13 and a lower hole 12 at a lower portion and a lower partition 15 at a lower portion of the housing 10. An upper diaphragm 14 for supporting the exhaust device 30 and the reducing agent container 20 may be provided in the upper portion of the housing 10. An exhaust pipe 30 is inserted into the upper hole 11 of the housing 10 and an inlet pipe 40 into which the waste gas flows into the lower hole 12 is connected.

According to the structure of the housing 10 as described above, a chemical reaction chamber 16 is formed between the upper surface of the housing 10 or between the upper and lower partitions 14 and 15, The stabilization chamber 17 is formed in which the pressure and velocity of the waste gas introduced into the lower surface of the combustion chamber 10 are uniformly stabilized.

A central hole 141 into which the main body of the exhaust device 30 is inserted is drilled in the central part of the upper diaphragm 14 and a peripheral hole 142 into which the reducing agent container 20 is inserted is drilled. A plurality of inflow holes 151 through which waste gas flows are formed in the peripheral portion of the lower partition plate 15.

The lower hole 12 of the housing 10 is provided with a flange 121 capable of fixing the inlet pipe 40 and a flange 111 And a lid 131 is provided in each of the charging holes 13. [

The housing 10 is preferably formed in a cylindrical shape, but is not limited thereto, and is preferably made of stainless steel (SUS) or high-strength plastic resistant to temperature and corrosion.

The reducing agent container 20 is a long bar made of mesh and is filled with a reducing agent 21 therein. The reducing agent container 20 is preferably made of stainless steel (SUS) resistant to temperature and corrosion. In addition, as shown in the figure, the reducing agent container 20 is preferably provided with a partition for dividing the internal space into two or more portions so that the charged reducing agent spreads evenly without being squeezed on one side.

The exhaust device 30 includes a suction tube 31 and a cylinder 32 which are alternately stacked, a plurality of suction tubes 33 provided in the suction tube 31 and the cylinder 32, a control valve 34, And a fan (35). The suction tube 31 has a side plate 311 formed of a screen filter formed by laminating a stainless steel wire net, a nonwoven fabric and a fiber net, and the upper and lower surfaces are sealed.

The cylinder 32 is structured such that the side surface, the upper surface, and the lower surface are hermetically closed so that gas can not be introduced from the outside, and it is preferable that the cylinder 32 has the same size and shape as the suction tube 31. The suction tube 31 and the cylinder 32 are stacked alternately up and down, and the number thereof is determined according to the capacity of the greenhouse gas removing device.

The suction pipe (33) is vertically installed through the suction pipe (31) and the cylinder (32) through an empty pipe. The lower end of the suction pipe 33 is connected to the discharge hole 312 formed in the upper plate of the suction cylinder 31 and the upper end extends to the upper end of the uppermost cylinder 32.

The control valve 34 is for controlling the flow rate of the gas to be sucked and discharged, and is installed on the top of the uppermost cylinder 32. The exhaust fan 35 is installed above the regulating valve 34 for sucking and discharging the gas from which the greenhouse gas has been removed.

The suction tube 31, the cylinder 32, the suction pipe 33, the control valve 34 and the exhaust fan 35 are preferably connected to each other by welding, but are not limited thereto. The shape of the suction tube 31, the cylinder 32 and the suction tube 33 is preferably a cylinder 32, but is not limited thereto.

When assembling the greenhouse gas removing apparatus of the present invention composed of the above components, first, the housing 10, the reducing agent cylinder 20 and the exhausting apparatus 30 are separately manufactured. Subsequently, each reducing agent bottle 20 is installed in the housing 10, and the main body of the exhaust device 30 is inserted into the upper hole 11 of the housing 10, and fixed with the flange 111.

When the reducing agent container 20 is installed in the housing 10, the reducing agent container 20 is inserted downward through the peripheral holes 142 of the charging port 13 and the upper partition plate 14, So that the reducing agent reservoir 20 is supported by the filler port 13 and the upper and lower partition plates 14 and 15 so that the lower end of the lower partition plate 15 is positioned above the lower partition plate 15.

Next, the operation of the greenhouse gas removing apparatus of the present invention will be described.

In order to operate the greenhouse gas removing apparatus of the present invention, the above-described greenhouse gas removing apparatus of the present invention is installed on a stack of waste gas generated in a boiler, a heating furnace, a drying furnace, a thermal combined power plant, an incinerator, And the waste gas inlet pipe 40 is connected to the lower hole 12 so as to be fixed to the flange 121. The reducing agent container 20 is filled with the reducing agent 21 and power is supplied to the exhaust device 30, 34 and the exhaust fan 35 are operated.

When the waste gas flows into the greenhouse gas removing apparatus of the present invention, the flow rate of the introduced waste gas is lowered in the stabilizing chamber 17 in the lower part and the flow rate and pressure are uniformly stabilized, ) Into the chemical reaction chamber (16).

Thus, the greenhouse gas in the waste gas flowing into the chemical reaction chamber 16 chemically reacts with the reducing agent 21, so that the greenhouse gas in the waste gas is extinguished and oxygen is generated. Solid oxygen is preferably used as the reducing agent 21, but is not limited thereto.

Solid oxygen is composed of [MO₂ + catalyst + binder / stabilizer] and is manufactured in various forms such as cartridge / pouch, ball, tablet, castable, injection and so on. [M] in the main component [MO 2] is an alkali metal.

Carbon dioxide (CO 2), nitrogen oxide (NO x) and sulfur oxides (SO x) in the waste gas entering the chemical reaction chamber 16 react with solid oxygen to cause the following chemical reaction (reduction reaction) The catalyst further promotes this chemical reaction.

MO₂ + CO2 → MCO₃ + O₂ ↑

MO₂ + SOx → MSOx + O₂ ↑

MO₂ + NOx → MNOx + O₂ ↑

That is, air purification similar to Carbon Assimilation occurs and oxygen is generated as well as the greenhouse gas is removed.

On the other hand, the exhaust device 30 forms a negative pressure inside the exhaust fan 35 by operation of the exhaust fan 35, and sucks the exhausted gas of the greenhouse gas from the chemical reaction chamber 16 and discharges it to the outside. The gas sucked into the exhaust device 30 through the side plate (screen filter) 311 of the suction tube 31 is moved to the upper end of the uppermost cylinder 32 through the suction pipe 33, And then exhausted through the exhaust fan 35 to the outside.

The lower end of each suction pipe 33 is connected to a discharge hole 312 formed in the upper plate of each suction pipe 31 and the upper end of the suction pipe 33 extends to the upper end of the uppermost cylindrical pipe 32, So that the suction force is evenly distributed to each suction cylinder 31. [

When the gas exhausted from the greenhouse gas is sucked into the suction tube 31 of the exhaust device 30, the particulate foreign matter is filtered and discharged to the outside in the process of passing through the side plate 311 composed of the screen filter And they are removed through cleaning of the regular chemical reaction chamber 16.

The flow rate of the gas to be sucked and discharged is controlled by the control valve 34 in consideration of the flow rate and rate of the waste gas flowing from the outside, the rate of the chemical reaction, the capacity of the ventilation fan, and the like.

While the present invention has been described with reference to the exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but is capable of various changes and modifications within the technical scope of the invention. Therefore, the scope of the present invention is not limited by the above description.

Further, the detailed description of the present invention and the reference numerals in the claims are provided for ease of understanding of the present invention, and the present invention is not limited to the drawings.

10: housing 11: upper hole
111: flange 12: lower hole
121: Flange 13: Charging port
131: lid 14: upper diaphragm
141: center ball 142: surrounding ball
15: lower partition plate 151: inflow hole
16: chemical reaction chamber 17: stabilization chamber
20: Reducing agent cylinder 21: Reducing agent
30: Exhaust system 31: Suction cylinder
311: side plate 312: exhaust hole
32: cylinder 33: suction pipe
34: regulating valve 35: exhaust fan
40: inlet pipe

Claims (2)

In the greenhouse gas removing apparatus,
A housing 10 and a plurality of reducing agent cylinders 20 mounted inside the housing 10 and an exhaust device 30 into which the main body is inserted into the housing 10,
The housing 10 has an upper hole 11 and a plurality of charging holes 13 and a lower hole 12 at a lower portion thereof and a lower partition plate 15 at a lower portion of the housing 10, A chemical reaction chamber 16 is formed on an upper portion of the lower partition plate 15 and a stabilization chamber 17 is formed below the lower partition plate 15,
The exhaust device 30 includes a suction tube 31 and a cylinder 32 which are alternately stacked, a plurality of suction tubes 33 provided in the suction tube 31 and the cylinder 32, A control valve (34) and an exhaust fan (35)
The method according to claim 1,
Characterized in that an exhaust diaphragm (30) and an upper diaphragm (14) for supporting the reducing agent cylinder (20) are installed in the upper part of the inside of the housing (10)

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