KR101512986B1 - Rovingness wet process impinger of thermal power plant - Google Patents

Abstract

The present invention relates to a movable wet impinger for use in thermal power plants. For this purpose, the present invention includes the following: a container as a housing having an empty space and a gate for access thereto; a wet impinger installed stably inside the housing; a movable impinger connected through a pipe to the sludge outlet of the wet impinger; a supernatant water supplier that is equipped with connections to the movable impinger and the wet impinger; and a solid-liquid separator connected from the movable impinger to a transfer unit. Therefore, the present invention enables easy collection of the coal dust having a high water content produced in the course of coal processing and supplying without having to install additionally a fixed wet impinger, as well separation of sludge from water (supernatant) in the waste water containing sludge produced in the course of coal dust processing, so that the separated water can be reused as a wash water.

Description

TECHNICAL FIELD [0001] The present invention relates to a wet type dust collector for a thermal power plant,

The present invention relates to a wet type dust collecting apparatus for a thermal power plant, and more particularly, to a wet type dust collecting apparatus for a thermal power plant, in which a wet dust collecting unit installed inside a movable storage body is used to carry out coal processing and coal supplying apparatus used as a heat source in a thermal power plant, So that it is possible to perform wet dust collecting treatment of coal dust having a high moisture content.

Generally, coal-fired power plants require the process and equipment to ship coal or land freight to unloaded warehouses in a warehouse, and the carburizing process requires a coal-mixing facility, Separator, weighing sorter, and crusher.

The coal supply of coal-fired power plant is coal carrier → Yangming → coal quantity measuring equipment → sampling equipment → iron chip separator → low carbon → low carbon → iron chip separator → weed sorting machine → crusher → sample collection facility → coal quantity measuring equipment → coal distribution device → And a raw coal storage tank.

During the coal supply process, a large amount of coal dust is generated during the operation of the coal mixing facility, the weed separator, the crusher and the distribution facility. At this time, the generated coal dust is generally subjected to dust removal treatment using a dry dust collector of a bag filter system.

Coal dust generated from coal-fired power plants has a tendency to increase in natural moisture content as the supply of low-grade coal increases due to supply and demand competition due to depletion of energy resources, and to prevent scattering of coal around coal- In order to prevent spontaneous ignition in the process, water spraying tends to result in high-moisture differentiation with a moisture content of about 15% or more.

When the dust of such a high humidity is treated with a bag filter dust collector, dust of high humidity is adsorbed and fixed on the surface of the bag filter to block the air gap, and ultimately leading to a rise in pressure, failing to exhibit the performance of the bag filter itself .

On the other hand, when using a wet type dust collector for passing dust through water and causing dust to collide with dust and adsorbing dust to and from the dust through aggregation of dust, it is possible to considerably alleviate the problems caused by using a dry dust collector, When the nozzle for spraying the washing water for flocculation is used for a long time, there is a problem that the dust collecting performance is rapidly deteriorated due to clogging of the nozzle due to the dust sludge.

In order to solve this problem, a small wet type dust collector of the registered utility model No. 20-042606 (2006.09.06) has been proposed and a multiple wet type dust collector of the patent registration publication No. 10-1197711 (2012.1.030) has been proposed. However, There is a problem that it is difficult to apply to the thermal power plant as the wastewater including the generated sludge is continuously generated, and there is the same problem even if the movement is impossible or the movement is possible.

Registration Utility Model Bulletin 20-042606 (2006.09.06) Patent Registration Bulletin 10-1197711 (October 30, 2012)

The present invention relates to a method and apparatus for collecting coal dust, which is produced by a coal processing and coal supply apparatus used as a heat source in a thermal power plant and moving the wet dust collecting unit, The sludge and wastewater can be separated from the wastewater containing the sludge generated in the process of reusing the wastewater.

The present invention provides a container 100 comprising a storage body 120 having an inlet 121 and an internal space 110 provided therein; A wet dust collecting part 200 stably installed in the storage body 120; A collecting part 300 connected to the sludge outlet 270 of the wet type dust collector 200 by a pipe P; A supersonic water supply unit 400 connected to the water collecting unit 300 and the wet dust collecting unit 200; And a solid-liquid separator 600 connected to the collecting part 300 through a transfer part 500.

The first moving wheel 140 is disposed at a lower portion of the support frame 130 and the first height adjuster 150 is provided around the first moving wheel 140 The first elevation adjuster 150 is coupled to a lower portion of the adjusting body 151 by a screw shaft 153.

The inlet 121 may be formed of any one of a pushing door D1, a slide door D2 and a front door D3 on the front surface of the storage body 120 for maintenance.

The wet type dust collector 200 includes a dust collecting housing 210; A dust inlet 211 provided at an upper portion of one side of the dust collecting housing 210; A dust guide partition wall 213 communicating with the dust inlet 211 and vertically downwardly maintained at a predetermined distance from the inner wall of the dust collecting housing 210 and provided with a dust guide space 212 in which the upper part and the lower part are closed, and; A water supply unit 220 having a dust collecting housing 210 penetrating through the dust-inducing partition 213 to the outside of the lower part thereof; The dust-inducing partition 213 is disposed below the dust-inducing space 212 in which the water supply unit 220 is formed. The dust-inducing partition 213 is sprayed to the center of the dust-collecting housing 210 A mixed injection nozzle 230; A first vortex-forming partition wall 240 having a lower end fixedly spaced from the discharge side of the mixed injection nozzle 230 and having an upper end inclined toward the upper portion of the dust-inducing partition 213; A second vortex-forming partition wall 250 formed at a predetermined distance from the upper portion of the first vortex-forming partition wall 240 and having one end coupled to the dust-inducing partition 213 and the other end bent downward; ; An air outlet 260 provided in the dust collecting housing 210 to the upper side of the second partition wall 250; A sludge discharge unit 270 provided in a hopper shape to have a sludge discharge valve 271 below the dust collecting housing 210; And a drain unit 280 provided in the dust collecting housing 210 so as to correspond to the water supplying unit 220.

A spray nozzle 710 is provided in the upper part of the duct 700 connected to the dust inlet 211 and a dust drain part 720 is connected to the lower part of the duct 700 .

In addition, the mixed injection nozzle 230 is provided to have a shape of a venturi tube.

The mixed jet nozzles 230 and the first vortexing barrier ribs 240 are repeatedly provided in the lateral direction in the dust collecting housing 210 so that the mixed jet nozzles 230 and the other mixed jet nozzles 230 are characterized in that the height gradually increases.

Also, the air outlet 260 includes a recovery plate 261 having a downward inclination toward the inside; A filtering unit 262 provided between the upper surface of the dust collecting housing 210 and the collecting plate 261; A discharge pipe (263) provided at an upper portion of a corner of the dust collecting housing (210); And a discharge fan 264 provided inside the discharge pipe 263.

The drainage unit 280 includes a main drain pipe 281; A sub-water pipe 282 having a small diameter at the lower part of the main water pipe 281 and extending downward; A drain housing (283) surrounding the outside of the sub drain pipe (282); And a flange 284 formed to penetrate outwardly from the upper portion of the drain housing 283.

In addition, the collecting unit 300 includes a collecting box 310; A second moving wheel 320 provided below the collecting box 310; And a second height adjuster (330) provided close to the second moving wheel (320).

The solid-liquid separator 600 includes a support frame 610; A third moving wheel 620 provided below the support frame 610; A third height adjuster 630 provided adjacent to the third moving wheel 620; And a solid liquid squeeze valve 640 provided on the upper portion of the support frame 610.

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The present invention enables a wet dust collecting unit provided inside a container storage to be moved to a coal processing and coal supply apparatus used as a heat source in a thermal power plant so that coal dust having a high moisture content generated during coal processing and coal supply process It is possible to easily obtain the effect of dust collection without installing a separate fixed type wet dust collector.

In addition, since it is not necessary to separately install a wet dust collector in the coal processing apparatus and the coal supply apparatus, the space utilization rate can be further increased.

Further, since the wet dust collecting part is provided in the inside of the storage body, it is possible to prevent a noise generated in the dust collecting process from leaking to the outside, thereby obtaining a pleasant working environment.

In addition, the wet dust collecting unit can be easily maintained.

In addition, since the movable collector and the solid-liquid separator are moved together, the sludge and the wastewater are separated from the wastewater containing the sludge generated during the process of wetting the coal dust, and the separated wastewater can be reused as the washing water And the sludge can be further processed in the field.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is an exemplary view showing an overall configuration of a mobile wet type dust collector for a thermal power plant according to the present invention; FIG.
FIG. 2 is an enlarged view showing only a wet type dust collector in a mobile type wet type dust collector for a thermal power plant according to the present invention. FIG.
FIGS. 3A to 3C are a front view and a side view of containers in which a wet type dust collector is installed in a portable wet type dust collector for a thermal power plant according to the present invention. FIG.
FIG. 4 is an enlarged view of another wet type dust collecting unit in a portable wet type dust collector for a thermal power plant according to the present invention. FIG.

DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the present invention will be described with reference to the accompanying drawings.

As shown in FIGS. 1 and 3A to 3C, in the portable wet type dust collector for a thermal power plant according to the present invention, the coal dust generated in the coal processing and the coal supplying process is subjected to dust collection in the field using a mobile wet type dust collector The sludge and the wastewater are separated from the sludge generated in the course of the wet process of the coal dust by the movable sludge collecting unit and the solid-liquid separator, which are moved in the middle, so that the sludge and the wastewater can be reused as the washing water again, The sludge can also be reused.

The wet type dust collector for a thermal power plant includes a container 100, a wet type dust collector 200, a water collecting part 300, a supernatant supplying part 400 and a solid-liquid separating part 600, (120) having an inlet / outlet (121) for facilitating maintenance and repair while the container (110) is provided.

The inside and outside of the storage body 120 are blocked so that noise during operation can be prevented from diffusing to the outside or being contaminated with foreign substances from the outside, and can be easily moved.

To this end, the storage body 120 is provided with a first moving wheel 140 at a lower portion of the supporting frame 130, and a first elevation adjusting mechanism 150 is provided around the first moving wheel 140 So that it can be stably supported in a state in which the horizontal is maintained.

The first elevation adjuster 150 is coupled to the lower portion of the adjusting body 151 with a screw shaft 153 to rotate the adjusting plate 152 so that the elevation can be adjusted.

As shown in FIGS. 1 and 3A, the inlet 121 is provided for a maintenance purpose. The door 120 is provided with a pushing door D1 having a general door shape.

In the present invention, the inlet / outlet 121 provided in the storage body 120 for maintenance has the form of the pushing door D1. However, as shown in FIG. 3B, And a slide door D2 that can be opened and closed to the left and right sides. In this case, the slide door D2 can be opened and closed in a larger area than that of the general pushing door D1, so that the maintenance can be more easily performed.

In the present invention, the inlet / outlet 121 provided in the storage body 120 for maintenance has the form of the pushing door D1. However, as shown in FIG. 3C, The front door D3 is hingedly secured to the front upper side so that the front door D3 can be opened and closed in the form of being tilted from the lower side to the upper side. In this case, it is possible to open and close a larger area than the shape of the general pushing door D1, so that the maintenance can be performed more easily, and the function of the eaves can be made to open the shade.

The wet dust collecting part 200 is provided in the interior of the storage body 120 so as to wetly separate the coal dust supplied from the outside through the supply pipe or the duct 700. The wet dust collecting part 200 includes a dust collecting housing 210, A second dust collecting partition wall 250, an air outlet 260, a sludge discharging unit (not shown), a second dust collecting partition wall 250, 270) and a drain portion 280. The drainage portion 280 is a drainage portion.

The dust collecting housing 210 is formed with a predetermined space inside thereof with the inside and the outside being shielded. The dust inlet 211 is provided at one side of the dust collecting housing 210.

The dust inlet 211 is provided with a spray nozzle 710 on the upper side of the duct 700 connected to the dust inlet 211 to wash dust remaining on the inner wall of the duct 700 when water is sprayed And the dust drain 720 is provided at the lower outer side of the duct 700 to easily discharge the dust to the outside so as to prevent the inner space of the duct 700 from being reduced.

The dust-inducing partition wall 213 is formed in such a manner that coal dust is directed downward and communicates with the dust inlet 211 and is vertically downwardly held at a predetermined distance from the inner wall of the dust collecting housing 210, A dust-inducing space 212 is provided.

The water supply unit 220 includes a dust collecting housing 210 through which the washing water can be supplied through the supersonic water supplying unit 400. The dust collecting housing 210 penetrates through the dust-

The mixing injection nozzle 230 mixes dust and washing water into a dust-inducing partition wall 213 located below the dust guide space 212 where the water supply unit 220 is formed and is sprayed to the center of the dust collection housing 210 And has a through-hole shape. The mixed injection nozzle 230 is provided in the form of a venturi tube to accelerate the flow rate to increase the mixing rate and the collection efficiency.

The first vortex-forming partition wall 240 has a lower end fixedly spaced from the discharge side of the mixed injection nozzle 230 and an upper end inclined toward the upper part of the dust guide partition 213 to increase the residence time therein, The fine dust and the collecting efficiency can be further increased.

The second vortexing partition wall 250 is spaced apart from the upper portion of the first vortex formation barrier 240 and has one end connected to the dust guide partition 213 and the other end bent So that the residence time becomes longer.

The air outlet 260 is provided in a dust collecting housing 210 positioned above the second vortex forming partition wall 250. The sludge outlet 270 is connected to the bottom of the dust collecting housing 210 through a sludge discharge valve The drainage unit 280 is provided in the dust collection housing 210 so as to correspond to the water supply unit 220.

The air outlet 260 is composed of a recovery plate 261, a filtering unit 262, a discharge pipe 263 and a discharge fan 264. The recovery plate 261 is inclined downward toward the inside So that a part of the water remaining in the filtering unit 262 can flow down into the dust collecting housing 210.

The filtering unit 262 is disposed between the recovery plate 261 and the inner surface of the upper part of the dust collecting housing 210 so that fine dust is collected and only pure air can be discharged to the outside.

The discharge pipe 263 is provided at an upper part of the corner of the dust collecting housing 210 and a discharge fan 264 is provided inside the discharge pipe 263.

The drainage unit 280 has a small diameter at a lower portion of the main drainage pipe 281 and extends a subdrain pipe 282 at the bottom and an outer portion of the extended subdrain pipe 282 surrounds the drainage housing 283. And a flange 284 formed to pass through the drain housing 283 at an upper portion of the drain housing 283 so that pure water contained in the overflowing washing process can be settled so that only pure water can be discharged.

The supernatant supply unit 400 is provided between the collecting unit 300 and the wet dust collecting unit 200 to deposit the sludge discharged through the sludge discharging unit 270 provided at the lower part of the collecting housing 210, So that it can be supplied and circulated back to the washing water.

The water collecting unit 300 includes a collecting box 310, a second moving wheel 320, a second elevation control valve 330 and a pump 340, And a second height adjusting member 330 provided adjacent to the second moving wheel 320 so as to be horizontally maintained, It is possible to further prevent the occurrence of the problem.

A pump 410 of a supernatant supply unit 400 having a suction outlet is provided in the collecting box 310 to continuously supply purified pure water (supernatant = cleansing water) coagulated and precipitated in the collecting box 310 The cost can be reduced.

The supernatant supply unit 400 includes a pump 410 having a suction port and provided in the collecting box 310 and is connected to the supply port 400 provided in the collecting housing 210, (220).

The solid-liquid separator 600 includes a support frame 610, a third moving wheel 620, a third height adjuster 630, and a high-pressure squeeze holder 640. The solid- 3 moving wheel 620 may be provided so as to be easily moved to a working position and a third height adjuster 630 may be provided close to the third moving wheel 620 to prevent the third moving wheel 620 from being moved during a work process .

A solid liquid syringe 640 provided at an upper portion of the support frame 610 may be provided to squeeze the sludge so that the moisture content is maintained above a certain level.

The solid-liquid contactor 640 may have either a rotary type or a press type.

In order to remove coal dust generated during coal processing and coal supply using the wet type dust collector for a thermal power plant, a container 100, ), The supernatant supply unit 400 and the solid-liquid separator 600 are connected to each other while being moved to the site.

Next, the coal fine powder flows into the dust guide space 212 through the dust-inducing partition 213 formed in the dust housing 210 via the duct 700 and the dust inlet 211, It is continuously moved downward. At the same time, the washing water is supplied to the lower portion of the dust guide space 212 through the water supply unit 220, and is injected through the mixed injection nozzle 230 while being mixed with the dust.

Next, the mixed liquid in which the dust injected through the mixed injection nozzle 230 and the washing water are mixed passes through the first vortex forming partition wall 240 and the second vortex forming partition wall 250 to increase the residence time The dust is separated and falls downward.

Then, only the pure air is separated from the air discharge port 260 by the suction force and the discharge power by driving the discharge fan 264 after the separated dust is separated in the course of passing through the filtering part 262. Then, As shown in FIG. At this time, the washing water generated while being separated from dust is dropped to the lower portion of the dust collecting housing 210 by the inclination of the collecting plate 261.

Next, the sludge dropped to the bottom of the dust collecting housing 210 is moved to the collector 300 through the sludge discharge valve 271 of the sludge discharging part 270, is separated from water while being agglomerated and precipitated, And the separated water is supplied to the inside of the dust collecting housing 210 through the pump 410 of the supersonic water supplying unit 400 as a supernatant.

Next, the coagulated sludge separated from the water in the water collecting unit 300 is supplied to the solid-liquid separating unit 600 by the transferring unit 500 connected to a supply pump (not shown), so that the solid- Only the pure sludge can be obtained, which is the solid matter in which water is dehydrated by the sphere 640.

Since the cleaning water overflowed from the bottom of the dust collecting housing 210 contains a large amount of the fine powder, the washing water flowing from the bottom of the sub drain pipe 282 in the course of passing through the sub water pipe 282 connected to the main water pipe 281 And drained to the outside through a flange 284 provided at an upper portion of the drain housing 283. [

In the present invention, the mixed jetting nozzle 230 provided in the dust collecting housing 210 and the first and second vortex-forming partition walls 240 and 250 are provided as one unit. However, As shown in FIG. 4, the mixing injection nozzle 230 and the first vortex-forming partition wall 240 may be repeatedly provided in the dust collecting housing 210 in the horizontal direction. In this case, it is preferable that the height of the other mixed injection nozzle 230 adjacent to the mixed injection nozzle 230 is gradually increased. This makes it possible to keep the residence time relatively long in the dust collecting housing 210 so that the ultrafine dust can be separated and the collecting efficiency can be further increased.

100: container 110: inner space part
120: storage body 121: inlet / outlet
200: wet dust collector 210: dust collecting housing
220: sludge discharge port 300:
400: supersonic water supply unit 500: transfer unit
600: solid-liquid separation unit

Claims (12)

A container 100 provided with a storage body 120 having an inlet 121 and an inner space 110 provided therein;
A wet dust collecting part 200 provided inside the storage body 120;
A collecting part 300 connected to the sludge outlet 270 of the wet type dust collector 200 by a pipe P;
A supersonic water supply unit 400 connected to the water collecting unit 300 and the wet dust collecting unit 200; And
A solid-liquid separator 600 connected to the collecting part 300 through a transfer part 500;
/ RTI >
The wet type dust collector 200 includes a dust collecting housing 210;
A dust inlet 211 provided at an upper portion of one side of the dust collecting housing 210;
A dust guide partition wall 213 communicating with the dust inlet 211 and vertically downwardly maintained at a predetermined distance from the inner wall of the dust collecting housing 210 and provided with a dust guide space 212 in which the upper part and the lower part are closed, and;
A water supply unit 220 having a dust collecting housing 210 penetrating through the dust-inducing partition 213 to the outside of the lower part thereof;
The dust-inducing partition 213 is disposed below the dust-inducing space 212 in which the water supply unit 220 is formed. The dust-inducing partition 213 is sprayed to the center of the dust-collecting housing 210 A mixed injection nozzle 230;
A first vortex-forming partition wall 240 having a lower end fixedly spaced from the discharge side of the mixed injection nozzle 230 and having an upper end inclined toward the upper portion of the dust-inducing partition 213;
A second vortex-forming partition wall 250 formed at a predetermined distance from the upper portion of the first vortex-forming partition wall 240 and having one end coupled to the dust-inducing partition 213 and the other end bent downward; ;
An air outlet 260 provided in the dust collecting housing 210 to the upper side of the second partition wall 250;
A sludge discharge unit 270 provided in a hopper shape to have a sludge discharge valve 271 below the dust collecting housing 210; And
And a drain unit 280 provided on the dust collecting housing 210 on the opposite side with respect to the water supply unit 220 and connected to the water collecting unit 300 through a pipe P. [ Portable wet type dust collector. The method according to claim 1,
The first moving wheel 140 is disposed under the support frame 130 and the first height adjuster 150 is provided around the first moving wheel 140, Wherein the first height adjuster (150) is coupled to the lower portion of the adjusting body (151) by a screw shaft (153). The method according to claim 1,
The portable wet type dust collector for a thermal power plant according to claim 1, wherein the inlet (121) is formed of a pushing door (D1), a slide door (D2) and a front door (D3) . delete The method according to claim 1,
A spray nozzle 710 is provided in the upper part of the duct 700 connected to the dust inlet 211 and a dust drain part 720 is provided in the lower part of the outer side of the duct 700 A portable wet type dust collector for a thermal power plant. The method according to claim 1,
Wherein the mixed spray nozzle (230) is provided in the form of a venturi pipe. The method according to claim 1,
The mixed injection nozzle 230 and the first vortexing barrier rib 240 are repeatedly provided in the lateral direction in the dust collecting housing 210 and the other mixed injection nozzle 230 adjacent to the mixed injection nozzle 230, Characterized in that the height of the wet-type dust collector for a thermal power plant is gradually increased. The method according to claim 1,
The air outlet (260) includes a recovery plate (261) having an inclination downward toward the inside;
A filtering unit 262 provided between the upper surface of the dust collecting housing 210 and the collecting plate 261;
A discharge pipe (263) provided at an upper portion of a corner of the dust collecting housing (210); And
And a discharge fan (264) provided inside the discharge pipe (263). The method according to claim 1,
The drainage unit 280 includes a main drain pipe 281;
A sub-water pipe 282 having a small diameter at the lower part of the main water pipe 281 and extending downward;
A drain housing (283) surrounding the outside of the sub drain pipe (282); And
And a flange (284) formed to pass through the drain housing (283) at an upper portion thereof. The method according to claim 1,
The collecting unit 300 includes a collecting box 310;
A second moving wheel 320 provided below the collecting box 310;
And a second height adjuster (330) provided close to the second moving wheel (320). The method according to claim 1,
The solid-liquid separator 600 includes a support frame 610;
A third moving wheel 620 provided below the support frame 610;
A third height adjuster 630 provided adjacent to the third moving wheel 620;
And a solid liquid squeeze valve (640) provided on the upper portion of the support frame (610). delete

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