KR20220150104A - Multi air pollutant cleaning system for mass coal treatment plant - Google Patents

Abstract

The present invention relates to a multiple air pollutant treatment system for a large-capacity coal handling facility, which is for treating multiple air pollutants such as coal dust, carbon monoxide, and volatile organic compounds generated from the large-capacity coal handling facility and, more specifically, relates to a multiple air pollutant treatment system for a large-capacity coal handling facility, which is capable of preventing air pollution caused by air pollutants generated from the large-capacity coal handling facility and improving a working environment of a field worker by removing multiple air pollutants with a small treatment capacity in a large-capacity coal transfer facility and a storage facility which have different discharge amounts of air pollutants in terms of time and space depending on a coal transfer amount, low coal reserves, kinds of handling coal, and spontaneous combustion. The present invention comprises a detection unit (300), a collection unit (200), a transport unit (400), and a treatment unit (500).

Description

Multiple air pollutant treatment system for large-capacity coal handling facility {MULTI AIR POLLUTANT CLEANING SYSTEM FOR MASS COAL TREATMENT PLANT}

The present invention relates to a multi-air pollutant treatment system for a large-capacity coal handling facility that removes multiple air pollutants from a large-capacity coal handling facility such as a coal transport facility and a storage facility.

In the case of a coal-fired power plant, a large amount of coal is transported from the country of origin by means of a ship transport or the like. The transferred coal is used after being stored in a coal yard for a certain period of time. Coal stockpiling causes air environment problems due to scattering coal dust and odors.

In the case of an indoor coal yard that has been converted into an indoor coal yard as described above, environmental complaints and the working environment of workers in the indoor coal yard are very poor due to the coal transport facilities from the ship to the indoor coal yard and air pollutants generated in the indoor coal yard. In order to solve this problem, it is necessary to purify the air in the coal transport facility and the indoor coal storage yard. However, since the indoor coal pit has a large space, it is uneconomical to treat all of the internal air to remove contaminants present in a very small amount because it consumes a lot of equipment and energy costs.

Therefore, technologies for locally treating air pollutants in large-capacity coal handling facilities such as indoor coal storage facilities and technologies for managing indoor coal storage facilities are being developed.

Korean Patent Registration No. 10-2090434 relates to a self-ignition and prevention system for a sealed indoor coal pit and a method therefor, and an automatic control valve to monitor the temperature of coal stored in an indoor coal pit to determine whether spontaneous ignition occurs and inject inert gas It relates to a facility for the stable management of sealed indoor low coal by controlling the temperature rise of the coal pile by opening and closing the coal pile to treat the oxidation reaction in the coal pile, preventing spontaneous ignition, and preventing fire. There were no facilities for removal.

Korean Patent Registration No. 10-2093873 relates to a coal basin suppression system for an indoor coal bin, which is a device consisting of a water supply unit, an inhibitor supply unit to which a scattering dust inhibitor is supplied, a compressed air supply unit, and a control unit. The dust suppressor is sprayed widely in the form of a mist to minimize the generation of coal dust to prevent eye and respiratory diseases of workers. There is a problem in that it is difficult to treat the carbon monoxide generated in the batch process, so there is a need for a system that can efficiently remove multiple air pollutants from the indoor coal storage yard by improving it.

Korean Patent Registration No. 10-2090434 Korean Patent Registration No. 10-2093873

In consideration of the above points, the present invention is a large-capacity coal handling facility, such as a coal transport facility and storage facility, in which the amount of air pollutants is different temporally and spatially depending on conditions such as coal transport volume, low coal amount, type of coal handled, and whether or not spontaneous combustion occurs. An object of the present invention is to provide a multi-air pollutant treatment system for a large-capacity coal handling facility to effectively remove multiple air pollutants such as coal dust, carbon monoxide, and volatile organic compounds to purify the air in the large-capacity coal handling facility.

In the air pollutant treatment system for removing air pollutants generated from the coal handling facility, the detection unit 300 for detecting the air pollutant concentration in the coal handling facility 100, the coal handling facility for collecting air pollutants A collecting unit 200, a transport unit 400 connected to the collecting unit to transport the air pollutants collected by the collecting unit to the processing unit, and a processing unit for removing the air pollutants transported through the transport unit 400 ( 500), wherein the processing unit 500 includes a solid material processing unit 510 and a gaseous material processing unit 521 for removing the air pollutants.

The gaseous material processing unit 521 includes a first gaseous material processing unit 524 that primarily removes gaseous materials among air pollutants introduced into the processing unit 500 through a filter and a gaseous phase that cannot be removed by the first gaseous material processing unit 524. and a second gas phase processing unit 525 for secondarily removing the material.

The first gas phase processing unit 524 and the second gas phase processing unit 525 are formed of a cylindrical support and have respective rotation shafts 531 and 532 in the center, and the rotation shafts 531 and 532 are the rotation shaft driving unit 523 . rotate through

The rotation shaft driving unit 523 receives a signal from the signal transmission unit 310 to independently adjust the number of rotations of the rotation shaft 531 of the first gas phase processing unit 524 and the rotation shaft 532 of the second gas phase processing unit 525 . do.

The first gaseous treatment unit 524 includes a first gaseous adsorption/concentration unit 524-1 for adsorbing and concentrating volatile organic compounds and carbon monoxide, and a first gaseous desorption unit 524-2 for desorbing volatile organic compounds and carbon monoxide. ) can be composed of

It is preferable that the total area of the first gaseous adsorption/concentration unit 524-1 is larger than the total area of the first gaseous desorption unit 524-2.

The second gas phase processing unit 525 may oxidize and remove carbon monoxide not removed by the first gas phase processing unit 524 .

The second gaseous treatment unit 525 includes a second gaseous oxidation/adsorption unit 525-1 for oxidizing or adsorbing carbon monoxide, and a second gaseous oxidation/desorption unit 525-2 for oxidizing or desorbing the oxidized carbon monoxide. is composed

It is preferable that the total area of the second gaseous oxidation/desorption unit 525-1 is larger than the total area of the second gaseous oxidation/desorption unit 525-2.

The detection unit 300 includes a signal transmission unit 310 that transmits a signal to the processing unit 500 so that the amount of air pollutants detected is adjusted according to the state of the coal handling facility 100 .

The transport unit 400 includes a duct 410 and a blower 420 for moving the air pollutants collected through the collecting unit 200 .

The processing unit 500 includes a catalytic oxidation unit 522 for oxidizing the concentrated and desorbed pollutants.

In the multi-air pollutant treatment system for large-capacity coal handling facilities of the present invention, the detection unit includes a signal transmission unit for giving a signal to the driving unit, so that the amount of transport of coal transport facilities and storage facilities, low coal amount, type of coal handled, spontaneous ignition, etc. By detecting the amount of airborne dust, carbon monoxide, and volatile organic compounds according to the state, the track of the damper in the collection unit, the amount of air blown by the blower in the transport unit, and the amount of air pollutants in the treatment unit can be adjusted. Therefore, it is possible to reduce the power and deterioration of the transport department and the air pollutant treatment department.

1 is a schematic diagram of a multi-air pollutant treatment system for a large-capacity coal handling facility according to an embodiment of the present invention.
2 is a schematic diagram of a processing unit 500 for pollutant treatment in the multi-air pollutant treatment system for a large-capacity coal handling facility of the present invention.
3 is a schematic diagram of the gas phase treatment unit 521 in the multi-air pollutant treatment system for a large-capacity coal handling facility of the present invention.
4 is a schematic diagram of a first gas phase processing unit 524 and a second gas phase processing unit 525 in the gas phase processing unit 521 in the multi-air pollutant processing system for a large-capacity coal handling facility of the present invention.
5A to 5C show the flow of internal air pollutants in the indoor coal storage.

Hereinafter, a multiple air pollutant treatment system for a large-capacity coal handling facility according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a schematic diagram of a multi-air pollutant treatment system for a large-capacity coal handling facility according to an embodiment of the present invention.

As shown in FIG. 1, a collecting unit 200 for collecting air pollutants in an air pollutant treatment system that removes multiple air pollutants generated from a large-capacity coal handling facility 100 such as a coal transport and storage facility. , a detection unit 300 for detecting the concentration of air pollutants, a transport unit 400 for transporting air pollutants, and a processing unit 500 for removing the transported pollutants.

The collecting unit 200 collects air pollutants from coal handling facilities, and may include one or more collecting units according to the structures of coal transport facilities and storage facilities.

Also, the collection unit 200 may include a damper 210 whose opening/closing amount is adjusted according to the signal strength of the detection unit 300 .

The detection unit 300 is to detect the amount of air pollutants according to any one or more of the coal transport amount, the low coal amount, the type of coal handled, and whether or not spontaneous combustion of the coal handling facility 100 .

Specifically, the detection unit 300 includes a signal transmitting unit 310 for giving a signal to the driving unit 523 for controlling the track of the collecting unit damper 210, the airflow amount of the transport unit blower, and the air pollutant treatment amount of the processing unit. Airborne dust, carbon monoxide, and volatile organic compounds (VOCs) depending on the state of multiple air pollutants within the coal handling facility 100 such as coal transportation facilities and storage facilities transportation volume, low coal amount, type of coal handled, spontaneous ignition, etc. By detecting the amount of air pollutants, multiple air pollutants can be effectively removed even with a small processing capacity because the track of the collection unit damper, the airflow amount of the transport unit blower, and the air pollutant treatment amount of the processing unit can be controlled. It has the effect of reducing power and deterioration.

Among the air pollutants detected in the system of the present invention, volatile organic compounds (VOCs) are carbon compounds other than carbon monoxide, carbon dioxide, carbonic acid, metallic carbonate and ammonium, which cause a photochemical reaction with nitrogen oxides by sunlight in the atmosphere and ozone on the ground It is an organic compound that causes smog by increasing its concentration. Volatile organic compounds refer to, for example, 318 types of substances that have a photochemical reaction greater than that of ethane, such as benzene, toluene, flopan, butane, and nucleic acids, and petrochemical products and organic solvents containing these substances with a vacuum pressure of 1.5 psia or more. .

The detection unit 300 detects the state of multiple air pollutants in the coal handling facility by including one or more according to the structure of the coal transportation facility and storage facility in the coal handling facility 100 like the collecting unit 200. .

The transport unit 400 is connected to the collection unit 200 to transport the fluid containing air pollutants collected by the collection unit 200 to the processing unit 500. Multiple air pollution collected through the collection unit 200 is collected. It includes a duct 410 and a blower 420 for the movement of a fluid containing a substance.

In the transport unit 400 , the blower 420 is composed of one or more, and the detection unit 300 receives a signal from the signal transmission unit 310 to control the operation of the blower and the amount of air blown by the blower according to the signal.

In the multi-air pollutant treatment system for a large-capacity coal handling facility, the processing unit 500 removes the air pollutants transported through the transport unit 400 .

2 is a schematic diagram of a processing unit 500 for pollutant treatment in the multi-air pollutant treatment system for a large-capacity coal handling facility of the present invention.

As shown in FIG. 2 , the processing unit 500 separates and removes the air pollutants into a solid material and a gaseous material, and a solid material processing unit 510 and a gaseous material processing unit 521 , and a catalyst for oxidizing the pollutants It includes an oxidizing part 522 .

The solid material processing unit 510 is composed of a filter for removing various solid foreign substances as well as dust such as coal among the multiple air pollutants collected in the coal handling facility 100 .

The gaseous material processing unit 521 removes the gaseous material that has passed through the solid material processing unit 510, and the gaseous material processing unit 521 that removes volatile organic compounds and carbon monoxide by adsorbing, concentrating, and desorbing the desorbed contamination and a catalytic oxidation unit 522 that oxidizes the material.

As shown in FIG. 2 , the solid material processing unit 510 and the gaseous material processing unit 521 may sequentially pass through the discharge unit (not shown) provided separately. The gaseous material from the solid material processing unit 510 flows from the gas phase processing unit 521 to the upper portion of the first gas phase processing unit 524 as a flow 610 to be treated, and the first gas phase processing unit 524 and the second gas phase processing unit 525 ), the air pollutants are adsorbed by the first gaseous treatment unit 524 and are adsorbed and oxidized by the second gaseous treatment unit 525 and come out as a treated stream 620 that is removed.

And the desorption stream 630 is introduced into the lower portion of the second gaseous treatment unit 525 in the opposite direction to the flow 610 to be treated, in which air pollutants are adsorbed and oxidized in the gaseous material treatment unit 521, the desorption stream 630 ) In a cylindrical shape, the first gas phase processing unit 524 and the second gas phase processing unit 525 are rotated around the rotation shafts 531 and 532 in a cylindrical shape before the inflow, so that the portion where the air pollutants are adsorbed and concentrated moves in the lower direction after the gas phase The desorption stream 630 is introduced into the lower portion of the processing unit 521 to remove air pollutants adsorbed and concentrated in the first gas phase processing unit 524 and the second gas phase processing unit 525 .

The reactivity of the gaseous material processing unit 521 for adsorption and desorption of pollutants varies depending on the temperature of the pollutant fluid to be treated. 521), the adsorption reaction of air pollutants occurs well, and conversely, as the temperature of the fluid containing the air pollutants is relatively high, the desorption reaction of the air pollutants can be properly performed in the gaseous material processing unit 521, such adsorption and In order to facilitate the desorption reaction, the multiple air pollutant treatment system for a large-capacity coal handling facility of the present invention includes a heat exchanger (not shown) to effectively remove air pollutants.

3 is a schematic diagram of the gas phase treatment unit 521 in the multi-air pollutant treatment system for a large-capacity coal handling facility of the present invention.

As shown in FIG. 3, the gaseous material processing unit 521 is a first gaseous material processing unit that primarily removes the gaseous material from among the air pollutants introduced into the processing unit 500 through the flow 610 to be treated through a filter ( 524) and a second gas phase processing unit 525 for secondarily removing the gaseous material that has not been removed by the second gas phase processing unit 525.

The first gas phase processing unit 524 and the second gas phase processing unit 525 are formed of a cylindrical support and have respective rotation shafts 531 and 532 in the center, and the rotation shafts 531 and 532 are the rotation shaft driving unit 523 . rotate through

The rotation shaft driving unit 523 receives a signal from the signal transmission unit 310 to independently adjust the number of rotations of the rotation shaft 531 of the first gas phase processing unit 524 and the rotation shaft 532 of the second gas phase processing unit 525 . do.

4 is a schematic diagram of a first gas phase processing unit 524 and a second gas phase processing unit 525 in the gas phase processing unit 521 in the multi-air pollutant processing system for a large-capacity coal handling facility of the present invention.

As shown in FIG. 4 , the first gaseous treatment unit 524 includes a first gaseous adsorption/concentration unit 524-1 for adsorbing and concentrating volatile organic compounds and carbon monoxide, and a first desorbing volatile organic compound and carbon monoxide. It may be composed of a gas phase desorption unit (524-2).

The second gas phase processing unit 525 is to reoxidize and remove carbon monoxide that is not completely concentrated in the first gas phase processing unit 524, and a second gas phase oxidation/adsorption unit 525-1 that oxidizes or adsorbs carbon monoxide; and a second gaseous oxidation/desorption unit 525-2 for oxidizing or desorbing carbon monoxide.

In the gaseous material processing unit 521, a portion to which a gaseous material is adsorbed and a portion to be desorbed are each composed of separate channels, and a separate inner wall surface is provided in the filter to be distinguished, and the area constituting these portions is the same or different, respectively. can

Therefore, the flow 610 to be treated flowing into the gaseous material processing unit 521 passes only through the channels of the first gaseous adsorption/concentration unit 524-1 and the second gaseous oxidation/adsorption unit 525-1, and the desorption flow ( In the 630, only the channels of the first gas phase desorption unit 524-2 and the second gas phase oxidation/desorption unit 525-2 pass.

As in FIG. 4, for example, it is preferable that the total area of the first gaseous adsorption/concentration unit 524-1 and the entire area of the first gaseous desorption unit 524-2 are larger, and the second gaseous oxidation/adsorption unit 524-2. It is preferable that the total area of the portion 525-1 is larger than the total area of the second gas phase oxidation/desorption portion 525-2.

In the catalytic oxidation unit 522 , the desorption stream 630 from the gaseous material processing unit 521 flows back into the gaseous material processing unit 521 through the second gaseous material processing unit 525 and the first gaseous material processing unit 524 . Carbon monoxide and volatile organic compounds that have not been further processed by the gaseous material processing unit 521 are additionally removed from the discharged processing flow 620 .

In the first gas phase processing unit 524, the number of rotations of the rotating shaft can be adjusted by receiving a signal from the signal transmitting unit 310 of the detection unit, and specifically, the rotating shaft driving unit receiving the signal from the signal transmitting unit 310 ( 523), the rotation shaft 531 of the first gas phase processing unit 524 and the rotation shaft 532 of the second gas phase processing unit 525 are rotated simultaneously or independently of each other to adjust the rotation speed.

Here, the rotational directions of the rotation shafts 531 and 532 may be rotated in various rotational directions clockwise and counterclockwise, but when the first gas phase processing unit 524 and the second gas phase processing unit 525 rotate at the same time, the same one It is preferable to rotate in the direction of rotation.

The rotation speed control is, for example, when detecting a gaseous substance with a low concentration of 1 ppmv for volatile organic compounds and 5 ppm for carbon monoxide (CO) in the detection unit, the rotation speed is operated 4 times per hour, volatile organic compounds are 10 ppmv in the detection unit, and carbon monoxide is 50 ppm When detecting high-concentration gaseous substances, the number of revolutions is set to 10 per hour, and the number of revolutions is adjusted to operate using means such as a gear motor.

5a to 5c are examples of analysis by applying the large-capacity coal handling facility multi-air pollutant treatment system of the present invention to an indoor coal yard.

A three-dimensional numerical analysis was performed for the internal flow analysis in the indoor coal yard having the structure of FIG. 5A. First, numerical analysis was carried out by applying the coal inside the coal mine, the outer wall of the coal mine, the upper ventilation hole, the side air inlet, and the external wind environmental conditions.

Fig. 6b shows the results of the analysis of the carbon monoxide distribution flow when spontaneous combustion occurred at B2 in the indoor coal storage structure of Fig. 5a.

As can be seen from FIG. 5b, it can be seen that the concentration of carbon monoxide is high in area A5. Accordingly, the flow analysis was performed assuming that the transport damper and the reduction facility were operated according to the signal from the detection unit showing the high concentration of carbon monoxide in area A5. have.

As described above, the multi-air pollutant treatment system for a large-capacity coal handling facility of the present invention is a large-capacity coal transportation facility and storage facility with different temporal and spatial emissions of air pollutants, including coal transport volume, low coal quantity, type of coal handled, and spontaneous ignition. By adjusting the rotation speed of the first gaseous processing unit and the second gaseous processing unit of the gaseous material processing unit having a cylindrical shape according to the state of the It can effectively prevent air pollution caused by carbon monoxide and volatile organic compounds and improve the working environment of field workers.

10: coal
100: large-capacity coal handling facility
200: collection unit
210: collection part damper
300: detection unit
310: signal transmission unit
400: transport department
410: duct
420: blower
500: processing unit
510: solid material processing unit
521: gaseous material processing unit
522: catalyst oxidation unit
523: rotation shaft driving unit
524: first gas phase processing unit
524-1: first gas phase adsorption/concentration unit
524-2: first gas phase desorption unit
525: second gas phase processing unit
525-1: second gas phase oxidation / adsorption part
525-2: second gas phase oxidation/desorption unit
531: rotation shaft of the first gas phase processing unit
532: rotation shaft of the second gas phase processing unit
610: Flow to be processed
620: Processed flow
630: desorption flow

Claims (12)

a detection unit 300 for detecting the concentration of air pollutants in the coal handling facility 100;
a collection unit 200 for collecting air pollutants from coal handling facilities;
a transport unit 400 connected to the collecting unit to transport the air pollutants collected by the collecting unit to the processing unit; and
It includes; a processing unit 500 for removing the air pollutants transported through the transport unit 400;
The processing unit 500 is a multi-air pollutant treatment system for a large-capacity coal handling facility, characterized in that it includes a solid material processing unit 510 and a gaseous material processing unit 521 for removing the air pollutants. According to claim 1,
The gaseous material processing unit 521 includes a first gaseous material processing unit 524 that primarily removes gaseous materials among air pollutants introduced into the processing unit 500 through a filter and a gaseous phase that cannot be removed by the first gaseous material processing unit 524. Multiple air pollutant treatment system for coal handling facilities, characterized in that it comprises a second gas phase treatment unit (525) for secondary removal of substances. 3. The method of claim 2,
The first gas phase processing unit 524 and the second gas phase processing unit 525 are formed of a cylindrical support and have respective rotation shafts 531 and 532 at the center,
The rotary shaft (531, 532) is a multi-air pollutant treatment system for a coal handling facility, characterized in that the rotation through the rotary shaft driving unit (523). 4. The method of claim 3,
The rotation shaft driving unit 523 receives a signal from the signal transmission unit 310 to independently adjust the number of rotations of the rotation shaft 531 of the first gas phase processing unit 524 and the rotation shaft 532 of the second gas phase processing unit 525 . Multiple air pollutant treatment system for coal handling facilities, characterized in that. 3. The method of claim 2,
The first gas phase processing unit 524 includes a first gas phase adsorption/concentration unit 524-1 for adsorbing and concentrating volatile organic compounds and carbon monoxide; and
A multi-air pollutant treatment system for coal handling facilities, characterized in that it comprises; a first gas phase desorption unit (524-2) from which volatile organic compounds and carbon monoxide are desorbed. 6. The method of claim 5,
The total area of the first gaseous adsorption/concentration unit (524-1) is larger than the total area of the first gaseous desorption unit (524-2). 3. The method of claim 2,
The second gas phase processing unit 525 oxidizes and removes carbon monoxide not removed by the first gas phase processing unit 524. Multiple air pollutant treatment system for a coal handling facility. 8. The method of claim 7,
The second gas phase processing unit 525 includes a second gas phase oxidation/adsorption unit 525-1 for oxidizing or adsorbing carbon monoxide; and
A multi-air pollutant treatment system for coal handling facilities, characterized in that it comprises; a second gaseous oxidation/desorption unit (525-2) for oxidizing or desorbing oxidized carbon monoxide. 9. The method of claim 8,
The total area of the second gaseous oxidation/desorption unit (525-1) is larger than the total area of the second gaseous oxidation/desorption unit (525-2). According to claim 1,
Coal, characterized in that the detection unit 300 includes a signal transmission unit 310 that transmits a signal to the processing unit 500 so that the amount of air pollutants detected according to the state of the coal handling facility 100 is adjusted. Multiple air pollutant treatment systems for handling facilities. According to claim 1,
The transport unit 400 includes a duct 410 and a blower 420 for moving the air pollutants collected through the collecting unit 200. Multiple air pollutant treatment system for coal handling facilities. According to claim 1,
The treatment unit 500 is a multi-air pollutant treatment system for a coal handling facility, characterized in that it includes a catalytic oxidation unit 522 for oxidizing pollutants.

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