KR101355663B1 - A fly ash handling system of coal fired power plant - Google Patents

Abstract

The present invention relates to a system for handling fly ash in a coal-fired plant and more specifically, a system for handling fly ash in a coal-fired plant, capable of receiving the fly ash, which is discharged through a plurality of receiving hoppers after being collected in a collector, through one air slide device unit and storing the fly ash in a storing place by transferring the fly ash by using fluidization of the fly ash using air. [Reference numerals] (10) Precipitator(EPS or bag filter); (20) Storage(storage silo); (400) Air compressor(air compressor package); (AA) Boiler gas; (BB) Purified gas discharge

Description

FLY ASH HANDLING SYSTEM OF COAL FIRED POWER PLANT}

The present invention relates to a fly ash handling system in a coal-fired power plant, more specifically, the fly ash discharged through a plurality of hopper after being collected in the dust collector is supplied through one air slide device, fly ash using air The present invention relates to a fly ash handling system in a coal-fired power plant that allows the fly ash to be transported and stored in storage.

Coal-fired power plants generate enormous amounts of flue gases that contain environmentally harmful substances during the combustion of coal fuels. These flue gases contain dust particles called fly ash. It will contain. Coal-fired power plants are therefore obliged to purify flue gas before it is released to the atmosphere in order to reduce the release of harmful substances. Depending on the nature of the contaminants, several methods have been developed for purifying flue gas, for example fly ash can be removed with an electrostatic precipitator (ESP), fabric filter (FF), or wet scrubber.

1 is a view showing the overall configuration of a fly ash handling system in a conventional coal-fired power plant. As shown in FIG. 1, in the conventional coal-fired power plant, the fly ash handling system includes a plurality of hoppers 11 in the dust collector 10, mostly collecting fly ash collected in each hopper 11 of the dust collector 10. And 1: 1 to the transport vessel device unit 30 installed in correspondence with each other, the transport vessel device unit 30 transports the fly ash supplied from each hopper 11 through one line to the storage 20 It is transferred to and stored at). In addition, the transmission vessel device units 30 are configured to receive compressed air from the air compressor 40.

In the conventional fly ash handling system in the coal-fired power plant as described above, each of the transfer vessel device unit 30 is configured to be arranged 1: 1 by the plurality of hoppers 11 fly ash collected in the dust collector (10). And the transfer vessel device unit 30 transfers and stores the fly ash to the reservoir 20 through one line by using the compressed air supplied from the air compressor 40, thereby providing a plurality of transfer vessels. With the increase in the installation cost due to the device unit 30, as well as an increase in the pipe connection, the design is complicated by the increase in the electric control, there was a problem that the system construction cost is high.

The present invention has been proposed to solve the above problems of the conventionally proposed methods, by constructing an air slide device that can be transported through the air fluidization for the supplied fly ash, the fly generated in coal-fired power plant Unlike the conventional method of collecting ash and discharging the fly ash through a plurality of hoppers to the plurality of transfer container units, the transfer ash can be transported simply by providing one transfer container unit. Its purpose is to provide a fly ash handling system in a thermal power plant.

In addition, according to the present invention, one transmission vessel device portion is installed in an air slide device portion in which a fly ash is supplied from a plurality of hoppers in the dust collector, so that the transmission vessel device portion is configured to correspond 1: 1 with the plurality of hoppers in the dust collector. Another approach is to provide a fly ash handling system in a coal-fired power plant that reduces equipment costs, reduces piping, and reduces electrical control compared to conventional fly ash handling systems, thereby facilitating system design and reducing system construction costs. The purpose.

Fly ash handling system in a coal-fired power plant according to a feature of the present invention for achieving the above object,

In fly ash handling system in coal fired power plant,

It is installed in the lower part of the dust collector which collects the fly ash contained in the combustion exhaust gas generated from the combustion furnace of coal-fired power plant and discharges it through the plurality of hoppers, and the fly ash from the plurality of hoppers of the dust collector to the trough An air slide device unit receiving and supplying fluidized flows of the fly ash through air supplied to the trough;

An air blower that blows air into the trough of the air slide device through an air supply pipe;

A transmission container device unit temporarily storing the fly ash discharged from the air slide device unit and transferring the stored fly ash to a storage silo through compressed air; And

It characterized in that it comprises an air compressor (air compressor package) for supplying compressed air for the transfer of the fly ash to the transfer vessel device portion.

Preferably, the air slide device unit,

A plurality of inlet ports are provided at an upper portion connected to outlets of a plurality of hoppers in the dust collector to allow the fly ash to flow into the gutters from the plurality of hoppers, and are connected to the transfer container device and flow into the gutters. One outlet port through which the fly ash is discharged may be provided at the bottom.

More preferably, the outlet port,

A control valve for adjusting the discharge amount of the fly ash may be further installed.

Preferably, the air slide device unit,

A first slide conveyor disposed at a lower left side with respect to the center of the dust collector, the left hoppers of the dust collector being connected to an upper portion thereof; And

It is configured to include a second slide conveyor disposed on the lower right side with respect to the center of the dust collector is connected to the upper right hoppers in the dust collector, respectively,

The first slide conveyor and the second slide conveyor,

The dust collector may be installed to be inclined downward to each other toward the center reference.

Preferably, the air slide device unit,

A slide conveyor body each connected to a plurality of hoppers in the dust collector and formed in a closed rectangular tubular shape to form a trough for allowing the fly ash supplied from the plurality of hoppers to flow by inflow air;

A porous plate installed in the slide conveyor body along a body length direction and having a plurality of holes formed therein to allow air to be introduced therethrough;

A nonwoven fabric attached to and fixed to an upper portion of the porous plate and forming a fine furnace through which air passes; And

It is installed on the lower portion of the slide conveyor body, it may be configured to include an air nozzle for injecting air supplied by the air blower into the trough space of the slide conveyor body.

More preferably, the air slide device unit,

It is installed inside the slide conveyor body so as to be located above the air nozzle, it may be configured to further include an air break (air break) for dispersing the air injected from the air nozzle into the trough of the slide conveyor body. .

According to the fly ash handling system of the coal-fired power plant proposed by the present invention, the fly ash generated in the coal-fired power plant is collected by constructing an air slide device for transporting the supplied fly ash through air fluidization. Then, unlike the conventional process of discharging the fly ash through the plurality of hoppers to each of the plurality of transfer vessel device portions, the transfer process may be possible by only having one transfer vessel device portion.

In addition, according to the present invention, one transmission vessel device portion is installed in the air slide device portion that is provided with the fly ash from the plurality of hoppers in the dust collector, the transmission vessel device portion is configured to correspond to the plurality of hoppers in the dust collector 1: 1. Compared with the conventional fly ash handling system, the equipment cost is reduced, the pipes are reduced, and the electric control is reduced, so that the system design can be facilitated and the system construction cost can be reduced.

1 is a view showing the overall configuration of a fly ash handling system in a conventional coal-fired power plant.
2 is a view showing the overall configuration of a fly ash handling system in a coal-fired power plant according to an embodiment of the present invention.
Figure 3 is a view showing a perspective view of the air slide device applied to the fly ash handling system in coal-fired power plant according to an embodiment of the present invention.
Figure 4 is a view showing a cross-sectional configuration of the air slide device applied to the fly ash handling system in coal-fired power plant according to an embodiment of the present invention.
5 is an exploded perspective view of the porous plate and the nonwoven fabric of the air slide unit applied to the fly ash handling system in a coal-fired power plant according to an embodiment of the present invention.
6 is a view illustrating a fly ash flow flow of the fly ash handling system in a coal-fired power plant according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings, in order that those skilled in the art can easily carry out the present invention. In the following detailed description of the preferred embodiments of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear. In the drawings, like reference numerals are used throughout the drawings.

In addition, in the entire specification, when a part is referred to as being 'connected' to another part, it may be referred to as 'indirectly connected' not only with 'directly connected' . In addition, the term 'comprising' of an element means that the element may further include other elements, not to exclude other elements unless specifically stated otherwise.

2 is a view showing the overall configuration of the fly ash handling system in a coal-fired power plant according to an embodiment of the present invention. As shown in FIG. 2, a fly ash handling system in a coal-fired power plant according to an embodiment of the present invention includes an air slide device unit 100, an air blower 200, a transmission container device unit 300, and It may be configured to include an air compressor 400.

The air slide device unit 100 collects fly ash contained in combustion exhaust gas generated in a combustion furnace of a coal-fired power plant, and then collects fly ash into a lower part of the dust collector 10 discharged through a plurality of hoppers 11. Installed in a single configuration. The air slide device unit 100 receives the fly ash from the plurality of hoppers 11 in the dust collector 10 to the trough 101 which is a flow path of the internal space, and the fly ash through the air supplied to the trough 101. It fluidizes and serves to transport and transport to the transmission vessel device 300 to be described later. At this time, the air slide device 100 is connected to the outlet of the plurality of hoppers 11 in the dust collector 10, respectively, the inlet port for allowing the fly ash from the plurality of hoppers 11 into the trough 101 ( A plurality of 102 is provided at the top, and one outlet port 103 connected to the transfer container device 300 is discharged to the trough 101 to discharge the fly ash. In addition, the outlet port 103 may be further provided with a control valve 104 to adjust the discharge amount of the fly ash.

The air blower 200 serves to blow air into the trough 101 of the air slide device unit 100 via the air supply pipe 201. The air blower 200 blows air into both end portions of the left and right sides of the air slide device unit 100, thereby fluidizing the fly ash introduced into the trough 101 of the air slide device unit 100. Will be raised.

The transfer container device 300 temporarily stores the fly ash discharged from the air slide device unit 100 therein and transfers the stored fly ash to the storage silo 20 through compressed air. do. Here, the transmission container device 300 is made of one configuration corresponding to the air slide device 100, the 1: 1 correspond to the plurality of hoppers 11 in the dust collector 10, the transmission container device ( Compared to the conventional fly ash handling system 30, which is configured to reduce equipment cost, pipes, and electrical control, system design can be facilitated and system construction cost can be reduced.

The air compressor 400 serves to supply compressed air for the transfer of the fly ash to the transfer container device unit 300.

The fly ash handling system in a coal-fired power plant according to an embodiment of the present invention as described above, the air slide device unit 100 is connected to the dust collector 10 having a plurality of hoppers 11, and an air blower ( 200 and one transmission vessel device unit 300 can be bundled to form a unit unit, and the present invention shows an example of three unit units. On the other hand, the air compressor 400 is configured to supply compressed air to the transmission container unit 300 of each of the three unit units in one single configuration.

3 is a view showing a perspective configuration of an air slide device applied to the fly ash handling system in a coal-fired power plant according to an embodiment of the present invention. As shown in FIG. 3, the air slide device unit 100 is disposed at the lower left side with respect to the center of the dust collector 10 so that the left hoppers 11 in the dust collector 10 are connected to the upper side, respectively. 110a and a second slide conveyor 110b disposed at the lower right side with respect to the center of the dust collector 10 and connected to the upper right hoppers 11 in the dust collector 10, respectively. At this time, the first slide conveyor (110a) and the second slide conveyor (110b) is preferably installed to correspond to be inclined downward toward each other toward the center reference of the dust collector 10, the angle is formed to be inclined downward at 6 ~ 7 ° Tilting is more preferred. That is, the downward inclination angle here is configured to allow the fly ash introduced into the trough 101 to be fluidized and flow by the air introduced through the air blower 200. In the present invention, the inclination angle for the flow of the fly ash by the air flow as an example, it can be understood that not limited thereto.

4 is a view showing a cross-sectional configuration of the air slide device applied to the fly ash handling system in a coal-fired power plant according to an embodiment of the present invention, Figure 5 is a coal-fired power plant according to an embodiment of the present invention A perspective view showing a separated perspective view of the porous plate and the nonwoven fabric of the air slide device unit applied to the fly ash handling system of the present invention. Air slide device 100 is applied to the fly ash handling system in the coal-fired power plant according to an embodiment of the present invention, as shown in Figure 4, the slide conveyor body 110, the porous plate 120, It may be configured to include a nonwoven fabric 130, and the air nozzle 140, it may be configured to further include an air brake 150.

The slide conveyor body 110 is a body configuration of the first slide conveyor 110a and the second slide conveyor 110b which are installed to correspond to the center reference of the dust collector 10 inclined downward. The slide conveyor body 110 is connected to the plurality of hoppers 11 in the dust collector 10, respectively, and forms the trough 101 so that the fly ash supplied from the plurality of hoppers 11 can flow by the inlet air. It consists of a sealed rectangular tubular shape. The porous plate 120 is installed along the body length direction inside the slide conveyor body 110, and is a configuration of a punching plate in which a plurality of holes 121 are formed to allow air to be introduced therethrough. The nonwoven fabric 130 is attached to and fixed to an upper portion of the porous plate 120 formed of a punching plate, and forms micropores through which air passes. The air nozzle 140 is installed at the lower portion of the slide conveyor body 110, and serves to inject air supplied by the air blower 200 into the trough 101 space of the slide conveyor body 110. An air break 150 is installed inside the slide conveyor body 110 so as to be positioned above the air nozzle 140, and the air jetted from the air nozzle 140 receives the trough of the slide conveyor body 110. (101) It serves to disperse the interior and air inlet and shut off.

6 is a view illustrating a fly ash flow flow of a fly ash handling system in a coal-fired power plant according to an embodiment of the present invention. First, the air slide unit unit is installed in the lower portion of the dust collector 10 which collects fly ash contained in the combustion exhaust gas generated in the combustion furnace of the coal-fired power plant and discharges it through the plurality of hoppers 11. The fly ash is supplied to the trough 101 of 100. The fly ash introduced into the trough 101 in the air slide device unit 100 is supplied with air through the air nozzle 140 from the air blower 200 through the air supply pipe 201, and the air nozzle ( The air injected through the 140 is dispersed into the trough 101 through the air brake 150. At this time, the air supplied through the air nozzle 140 and the air brake 150 is the trough of the slide conveyor body 110 through the fine holes of the plurality of holes 121 and the nonwoven fabric 130 of the porous plate 120 ( 101 to flow into the fly ash, and the fluidized fly ash flows to the center of the air slide device (100). At this time, the fly ash flowed to the center of the air slide device unit 100 is conveyed to the transfer container device 300. Then, the fly ash temporarily stored through the transmission vessel device 300 is transferred to the reservoir 20 by the compressed air supplied from the air compressor 400.

The present invention may be embodied in many other specific forms without departing from the spirit or essential characteristics of the invention.

100: air slide device 101: gutter
102: inlet port 103: outlet port
104: regulating valve 110: slide conveyor body
110a: first slide conveyor 110b: second slide conveyor
120: porous plate 121: hole
130: nonwoven fabric 140: air nozzle
150: air brake 200: air blower
300: transmission vessel device 400: air compressor

Claims (6)

In fly ash handling system in coal fired power plant,
It is installed in the lower part of the dust collector 10 to collect the fly ash (fly ash) contained in the combustion exhaust gas generated in the combustion furnace of the coal-fired power plant through a plurality of hoppers 11, An air slide device unit (100) receiving a fly ash from a plurality of hoppers (11) to a trough (101) and fluidizing and transporting the fly ash through air supplied to the trough (101);
An air blower (200) for blowing air through the air supply pipe (201) to the trough (101) of the air slide device (100);
A transmission vessel device unit 300 temporarily storing the fly ash discharged from the air slide device unit 100 and transferring the stored fly ash to a storage silo 20 through compressed air; And
And an air compressor (400) for supplying compressed air to the transmission vessel device (300). The fly ash handling system of a coal-fired power plant.
According to claim 1, The air slide device unit 100,
A plurality of inlet ports 102 are connected to the outlets of the plurality of hoppers 11 in the dust collector 10 to allow the fly ash to flow into the trough 101 from the plurality of hoppers 11. It is provided, connected to the transmission vessel device 300, characterized in that one outlet port 103 is discharged to the fly ash introduced into the trough 101 is provided at the bottom, fly in coal-fired power plant Ash handling system.
The method of claim 2, wherein the outlet port 103,
Fly ash handling system in a coal fired power plant, characterized in that the control valve 104 is further installed to adjust the amount of discharge of the fly ash.
According to claim 1, The air slide device unit 100,
A first slide conveyor (110a) disposed at a lower left side with respect to the center of the dust collector (10) so that left hoppers (11) in the dust collector (10) are respectively connected to an upper portion thereof; And
It is configured to include a second slide conveyor (110b) disposed on the lower right side with respect to the center of the dust collector 10 is connected to the upper right hoppers 11 in the dust collector 10,
The first slide conveyor (110a) and the second slide conveyor (110b),
Fly ash handling system in a coal-fired power plant, characterized in that installed in response to the inclined downward to each other toward the central reference of the dust collector (10).
According to claim 1, The air slide device unit 100,
It is connected to a plurality of hoppers 11 in the dust collector 10, each of the sealed rectangle to form a trough 101 so that the fly ash supplied from the plurality of hoppers 11 can flow by the inlet air Slide conveyor body 110 made of a tubular shape;
A porous plate 120 installed in the slide conveyor body 110 along a body length direction and having a plurality of holes 121 formed therein to allow air to be introduced therethrough;
A nonwoven fabric 130 attached to and fixed to an upper portion of the porous plate 120 to form micropores through which air passes; And
It is installed in the lower portion of the slide conveyor body 110, and comprises an air nozzle 140 for injecting the air supplied by the air blower 200 into the trough 101 space of the slide conveyor body 110 A fly ash handling system in a coal fired power plant, characterized in that.
According to claim 5, The air slide device unit 100,
It is installed inside the slide conveyor body 110 so as to be located above the air nozzle 140, the air injected from the air nozzle 140 is dispersed into the groove 101 of the slide conveyor body 110 A fly ash handling system in a coal fired power plant, characterized in that it further comprises an air break (150).

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