KR101225792B1 - Processing device of exhaust gas for absorbing column - Google Patents

Abstract

The present invention relates to a flue gas treatment device for an adsorption tower, comprising: a lower part for storing activated carbon, an upper part located at an upper part of the lower part, and a guide part for connecting the lower part and the upper part to guide the exhaust gas introduced into the lower part to the upper part. And a processing portion in communication with the guide portion, the supply portion supplying ammonia to the guide portion, and a processing portion provided with the supply portion and having an adjusting portion for adjusting the flow rate of ammonia.
The exhaust gas treatment apparatus for the adsorption tower according to the present invention can prevent the exhaust gas from flowing back to the supply part by adjusting the supply flow rate of ammonia according to the pressure of the exhaust gas.

Description

Flue gas treatment system for adsorption tower {PROCESSING DEVICE OF EXHAUST GAS FOR ABSORBING COLUMN}

The present invention relates to an exhaust gas treatment apparatus for an adsorption tower, and more particularly, to an adsorption tower exhaust gas treatment apparatus for preventing condensate generation by preventing back gas from flowing back ammonia.

In general, the adsorption tower uses activated carbon to adsorb and filter harmful gases such as sulfur oxides and nitrogen oxides.

Briefly describing the exhaust gas treatment process through the adsorption tower, dust is collected while the sintered flue gas generated when the sintered ore is generated in the sintering machine passes through the electrostatic precipitator.

In addition, the flue gas moved in a state in which the pressure is reduced through the main blower is boosted by the boost-up fan and introduced into the adsorption tower.

Hazardous gases in the flue-gas introduced into the adsorption tower are collected in the activated carbon while passing through the activated carbon layer, and the gas discharged to the outside through the stack becomes a clean gas from which harmful gases harmful to the human body are removed.

The technical structure described above is a background technique for assisting the understanding of the present invention, and does not mean the prior art widely known in the technical field to which the present invention belongs.

It is an object of the present invention to provide a flue gas treatment apparatus for an adsorption tower that controls the amount of ammonia so that the flue gas flow does not flow back into the ammonia line.

In order to achieve the above object, the present invention provides a lower layer portion in which activated carbon is stored; An upper layer located above the lower layer and storing activated carbon; A guide part connecting the lower layer part to the upper layer part to guide the exhaust gas introduced into the lower layer part to the upper layer part; It is provided with an exhaust gas treatment apparatus for an adsorption tower, which is in communication with the guide unit, the supply unit for supplying ammonia to the guide unit and the processing unit having a control unit for adjusting the flow rate of the ammonia.

The processing unit is provided in the guide portion, the gas measuring unit for measuring the pressure of the exhaust gas flowing into the guide portion from the lower layer; An ammonia measuring unit provided in the supply unit and measuring a supply pressure of the ammonia; And a control unit for receiving signals from the gas measuring unit and the ammonia measuring unit and controlling the adjusting unit.

The processing unit is provided with a plurality inside the adsorption tower, the supply unit is connected to the main supply unit is characterized in that the ammonia is supplied.

The apparatus for treating flue gas of the adsorption tower according to the present invention has an effect of preventing the flue gas from flowing into the supply part and refluxing by adjusting the supply pressure of ammonia according to the pressure of the flue gas.

The flue gas treatment apparatus for the adsorption tower according to the present invention has an effect that can be automated to prevent flue gas backflow by controlling the supply amount of ammonia by comparing the pressure of the flue gas with the supply pressure of ammonia.

1 is a view schematically showing an adsorption tower equipped with an exhaust gas treatment apparatus for an adsorption tower according to an embodiment of the present invention.
2 is a view schematically showing an apparatus for treating flue gas for an adsorption tower according to an embodiment of the present invention.
3 is a view schematically showing a state in which a plurality of processing units are disposed in the adsorption tower in the apparatus for treating exhaust gas for adsorption tower according to an embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings will be described an embodiment of the exhaust gas treatment apparatus for the adsorption tower according to the present invention. In this process, the thicknesses of the lines and the sizes of the components shown in the drawings may be exaggerated for clarity and convenience of explanation. In addition, the terms described below are terms defined in consideration of the functions of the present invention, which may vary depending on the intention or custom of the user, the operator. Therefore, definitions of these terms should be made based on the contents throughout the specification.

1 is a view schematically showing an adsorption tower equipped with an adsorption tower flue gas treatment device according to an embodiment of the present invention, and FIG. 2 is a view schematically showing an adsorption tower flue gas treatment device according to an embodiment of the present invention. 3 is a view schematically showing a state in which a plurality of processing units are disposed in the adsorption tower in the apparatus for treating exhaust gas for adsorption tower according to an embodiment of the present invention.

1 to 3, the exhaust gas treatment apparatus for the adsorption tower according to an embodiment of the present invention includes a lower layer 10, an upper layer 20, a guide 30, a supply 40, and an adjusting unit 50. The processing part 1 which has is provided, and this processing part 1 is built in the adsorption tower 100. FIG.

Adsorption tower 100 is provided with a supply pipe 101 is supplied with exhaust gas containing harmful gas and discharge pipe 102 is discharged exhaust gas from which the harmful gas is removed.

The lower layer part 10 and the upper layer part 20 store activated carbon 60 that adsorbs harmful gases. The upper layer portion 20 is stacked above the lower layer portion 10.

The guide unit 30 connects the lower layer 10 and the upper layer 20 to guide the exhaust gas. That is, the exhaust gas introduced into the adsorption tower 100 through the supply pipe 101 is guided to the upper layer portion 20 by the guide portion 30 after passing through the lower layer portion 10.

For example, the outer surface of the lower layer part 10 has a net shape, and activated carbon 60 is stored, and exhaust gas flows in. At this time, the guide portion 30 is connected to the upper portion of the lower layer portion 10 and the lower portion of the upper layer portion 20 to guide the exhaust gas.

The supply part 40 is in communication with the guide part 30. The supply unit 40 supplies ammonia to the guide unit 30, and the supplied ammonia causes a catalytic reaction with the exhaust gas.

The adjusting unit 50 is provided in the supply unit 40 to adjust the supply flow rate of ammonia. The control unit 50 uses a control valve for adjusting the opening amount of the supply unit 40.

The processing unit 1 according to an embodiment of the present invention further includes a gas measuring unit 70, an ammonia measuring unit 80, and a control unit 90.

The gas measuring unit 70 is provided in the guide unit 30. The gas measuring unit 70 is located in the space in which the exhaust gas passing through the lower layer 10 is introduced into the guide unit 30 to measure the inlet pressure of the exhaust gas.

The ammonia measuring unit 80 is provided in the supply unit 40. The ammonia measuring unit 80 measures the pressure of ammonia supplied through the supply unit 40.

The ammonia measuring unit 80 is located in the supply unit 40 positioned between the adjusting unit 50 and the guide unit 30, and measures the supply pressure of the ammonia passing through the adjusting unit 50.

The controller 90 is connected to the gas measuring unit 70 and the ammonia measuring unit 80. The controller 90 receives the signals of the gas measuring unit 70 and the ammonia measuring unit 80 to control the adjusting unit 50.

On the other hand, a plurality of processing unit 1 is disposed in the adsorption tower (100). In addition, the supply unit 40 of each processing unit 1 is connected to one main supply unit 120 to receive ammonia.

Referring to the operation of the exhaust gas treatment apparatus for the adsorption tower according to an embodiment of the present invention having the structure as described above are as follows.

The exhaust gas introduced into the adsorption tower 100 through the supply pipe 101 is removed by the treatment unit 1.

That is, the exhaust gas passes through the lower layer part 10 and then passes through the upper layer part 20 through the guide part 30. Since the activated carbon 60 is built into the lower layer 10 and the upper layer 20, harmful gases are collected in the activated carbon 60 while passing through them.

Meanwhile, the supply unit 40 communicates with the guide unit 30, and the ammonia supplied through the supply unit 40 causes a catalytic reaction with the exhaust gas in the guide unit 30 to generate an ammonia salt.

At this time, since the supply unit 40 and the lower layer 10 are connected by the guide unit 30, when the pressure of the exhaust gas flowing into the guide unit 30 is greater than the pressure of the ammonia supplied through the supply unit 40, the ammonia is Can be counter flowed from the feed 40.

In order to prevent condensate from being formed in the supply unit 40 due to the reverse flow of the ammonia, the adjusting unit 50 adjusts the amount of ammonia supplied to the guide unit 30.

The guide unit 30 is provided with a gas measuring unit 70 for measuring the pressure of the exhaust gas so that the control unit 50 automatically adjusts the amount of ammonia according to the pressure of the exhaust gas, and the supply unit 40 has a pressure of the ammonia. Is provided with an ammonia measuring unit 80 for measuring.

The controller 90 compares the pressure of the exhaust gas measured by the gas measuring unit 70 with the pressure of the ammonia measured by the ammonia measuring unit 80, and adjusts the amount of ammonia discharged so that the exhaust gas does not flow back to the supply unit 40. .

At this time, when the pressure of the exhaust gas exceeds the supply pressure of ammonia, the control unit 90 controls the adjusting unit 50 to close the supply unit 40.

The processing unit 1 is disposed in a plurality inside the adsorption tower 100, the supply unit 40 provided in each processing unit 1 is connected to one main supply unit 120 receives ammonia, the control unit 90 exhaust gas The amount of ammonia supplied is adjusted according to the pressure.

At this time, the control unit 90 may control each processing unit 1 individually, or control the entire processing unit 1.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. I will understand.

Therefore, the true technical protection scope of the present invention will be defined by the claims below.

10: lower layer 20: upper layer
30: guide part 40: supply part
50: control unit 60: activated carbon
70 gas measuring unit 80 ammonia measuring unit
90 control unit 100 adsorption tower
120: main supply unit

Claims (3)

A lower layer in which activated carbon is stored;
An upper layer located above the lower layer and storing activated carbon;
A guide part connecting the lower layer part to the upper layer part to guide the exhaust gas introduced into the lower layer part to the upper layer part;
A supply unit in communication with the guide unit, for supplying ammonia to the guide unit;
An adjusting unit provided in the supply unit and controlling a flow rate of the ammonia;
A gas measuring part provided in the guide part and measuring a pressure of the exhaust gas flowing into the guide part from the lower layer part;
An ammonia measuring unit provided in the supply unit and measuring a supply pressure of the ammonia; And
And a processing unit having a control unit for receiving signals from the gas measuring unit and the ammonia measuring unit and controlling the adjusting unit. delete The method of claim 1,
The treatment unit is provided with a plurality inside the adsorption tower,
The supply unit is connected to the main supply unit for the exhaust gas treatment apparatus for the adsorption tower, characterized in that the ammonia is supplied.

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