KR100923792B1 - Apparatus for detecting water leaked from main tube of heat recovering steam generator - Google Patents

Abstract

[0001] The present invention relates to a main body tube leak detector for a heat recovery power plant boiler main body tube leak detecting apparatus capable of detecting water leaking from a main body tube of an arrangement recovery boiler using an arrangement of a thermal power plant gas turbine generator, A pressure buffering port 9 for receiving the leaked water introduced into the pipeline 3 connected to each block of the filter 10, filtering the filtered water through the filter 8, and discharging the leaked water to the drainage pipe 10; A leakage detection port 11 provided with a pipe 37a for draining the water leaked into the lower port body 37 while receiving the water drained to the drain pipe 10 of the pressure buffering port 9; A bugle ball 12 fixed to a lower end of a fixed support 13 which is accommodated in the water leakage detection port 11 and is fixed to the upper end of the water leakage detection port 11 so as to rise and fall according to a water level of the water to be introduced, )and; A limit switch 18 installed to be able to contact the touch bar 13a of the fixed support 13 through one side of the limit fixing table 19 fixed by inserting the fixed support 13; And a warning lamp (32) and an alarm buzzer (32a) electrically connected to the limit switch (18).

Sequence recovery boiler, main tube, leak detection, pressure buffer port, leakage detection port

Description

FIELD OF THE INVENTION [0001] The present invention relates to an apparatus for detecting leakage of a boiler body,

1 is a schematic view showing a main body tube of a conventional LNG thermal power plant arrangement recovery boiler;

FIG. 2 is an exploded perspective view of a main body tube leakage detector of the heat recovery unit of a thermal power plant according to the present invention; FIG.

FIG. 3 is a perspective view of a main body tube leakage detector of the heat recovery unit of the thermal power plant according to the present invention; FIG.

FIG. 4 is a perspective view illustrating a state in which a main body tube leakage detection device for a thermal power plant array recovery boiler according to the present invention is installed inside a device case; FIG.

FIG. 5 is a conceptual diagram showing a state where a main body tube leakage detection device of a thermal power plant array recovery boiler according to the present invention is connected to a main body tube of an LNG thermal power plant array recovery boiler.

DESCRIPTION OF REFERENCE NUMERALS

50: arrangement return boiler main tube 3: pipeline 8: strainer 10: drain pipe

9: Pressure buffer port 37: Port body 11: Leak detection port 13: Fixed support

12: Bugle 19: Limit holder 13a: Touch bar 18: Limit switch                 

32: Warning light 32a: Warning buzzer 31: Green light

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a main body tube leak detector of a heat recovery power plant boiler, and more particularly to a heat recovery steam generator main body tube (HRSG) using an arrangement of a gas turbine generator And more particularly, to a main body tube leakage detection device for a boiler heat recovery system capable of detecting leakage of water.

Generally, in order to supply high-quality steam to a steam turbine generator of an LNG combined cycle power plant using liquefied natural gas (LNG) as a fuel, an arrangement recovery boiler (HRSG) In the process of making steam from the turbine, the inner tube of the HRSG is configured to be heat exchanged by a number of tube block groups 50 in the form of a block,

The tubes constituted by the tube block groups 50 are connected to each other between the tube blocks 50 during start-up and normal operation of the equipment, so that the arrangement recovery boiler (HRSG) There is a problem that cracks are generated due to the stress of the tubes formed, and a large amount of water leaks from the cracks generated in the inner tubes of the arrangement recovery boiler (HRSG).

A large amount of the leaking water is introduced into the lower portion of the main body without the HRSG drain pipe so that the lower portion of the main body 51 is submerged. As a result, internal maintenance work of the HRSG is not possible, It is necessary to open the manholes 52 and 53 individually provided at the upper and lower ends of the arrangement recovery boiler to find the leaking portion of the HRSG and it is necessary to confirm the leaking portion and a large amount of water submerged in the lower portion of the main body 51 is hand- There is a problem that it must be pushed out to the outside.

In order to solve the above-mentioned problems, the present invention provides a method for quickly detecting a leaked portion when leakage occurs from a main tube of a batch recovery boiler, filtering a large amount of leaking water, The main purpose of the present invention is to provide a main body tube leak detector for a boiler of a thermal power plant.

In order to achieve the above object, the present invention is characterized in that the leakage water introduced into the pipeline (3) connected to each block of the main recovery tube bottom tube (50) is received and filtered by the filter (8) 10); A leakage detection port 11 provided with a pipe 37a for draining the water leaked into the lower port body 37 while receiving the water drained to the drain pipe 10 of the pressure buffering port 9; A bug ball (not shown) fixed to the lower end of a fixed support 13, which is accommodated in the water leakage detection port 11 and fixed up and down on the upper end of the water leakage detection port 11 so as to move up and down according to the water level, 12); A limit switch 18 which is installed so as to be able to be contacted by a touch bar 13a protruding from one side of the fixed support 13 through one side of a limit fixing table 19 fixed by inserting the fixed support 13, ; And a warning buzzer 32a and an alarm buzzer 32a which are electrically connected to the limit switch 18. The pipeline 3 is connected to the port And a pipe (34) is connected to the port body so as to be drained to the main body (37).

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The present invention is characterized in that the port body is provided with a lower drainage line through which the water leaking at one side can be completely drained and an upper drainage line draining by using an underwater pump, A recovery tube boiler main body tube leakage detection device is provided.

Hereinafter, the configuration of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 2 is an exploded perspective view of a main body tube leak detector of the heat recovery unit of the thermal power plant according to the present invention, and FIG. 3 is a perspective view of the main body tube leakage detector of the heat recovery unit of the thermal power plant according to the present invention.

First, as shown in FIG. 1, the inner tube of the arrangement recovery boiler (HRSG) is divided into a number of each tube block group 1 in the form of a block, (50) so as to be individually installed in the tube block group (50).

A pipeline (3) capable of guiding leaking water is associated with each of the perforation holes (54) formed in each of the tube block groups (50)                     

The pipeline 3 is inserted into the flange 1 by inserting the gasket 2 so that the leaking water does not leak again.

As described above, the pipeline 3 closely fixed to the perforation hole 54 leads the leaking water to the pressure buffering port 9,

The pressure buffering port (9) accommodates the filter (8) inside, and leaks the filtered water.

In addition, the pipeline (3) is provided with a valve (4) capable of blocking the inflow of leakage water.

When the filtered water reaches the predetermined level, it is discharged to the drain pipe (10) formed at the upper portion of the one side,

The water discharged to the water pipe 10 is connected to the water pipe 10 so as to be guided to a lower portion of the water leakage detection port 11 fixed to one side of the pressure buffer port 9.

The water leakage detection port 11 is accommodated in the water leakage detection port 11 and is fixed to the upper end of the water leakage detection port 11 so as to rise and fall according to the water level of the incoming water. 12)

The fixed support 13 is inserted into the lower flow tube 14 which is fixed through the central portion of the upper lid 17 fixed by inserting the gasket 15 into the upper end of the leakage detection port 11, Lt; / RTI >

The fixed support 13 constructed as described above is inserted into the limit stay 19 fixed to the upper portion of the upper cover 17 so as to be able to move up and down.

The upper end of the upper portion of the limit fixing table 19 is fixed to the upper end of the lower fixing plate 19 by inserting the upper end of the fixing support 13 into the upper end.

A touch bar 13a protruded on one side is formed on a fixed support 13 on which a bubble ball 12 built in the leak detection port 11 is fixed at a lower end. And is located in a space between the limit fixing table 19.

Therefore, the contact portion of the limit switch 18 installed through one side of the limit fixing table 19 is installed so as to be contactable by the touch bar 13a protruding to one side of the fixing support 19.

That is, in this configuration, when water leaking into the leakage detection port 11 flows and the water level rises, the bubble ball 12 always rising on the water rises together,

When the bubble ball 12 rises, the fixed support 13 rises to touch the limit switch 18, which is provided to be able to contact the touch bar 13a, to send a leakage signal.

The warning light 32 and the warning buzzer 32a are connected to the limit switch 18 constructed as described above by a conduit 25 having a built-in cable so that the leakage signal is visually or audibly finally transmitted , And the leakage signal of the limit switch 18 can be transmitted to the power generation facility control unit (not shown).

The main switch 43 supplies power to the warning lamp 32, the warning buzzer 32a and the limit switch 18 and the limit switch 18 is electrically connected to the green lamp 31 to generate a leak The green lamp 31 always lights up.

On the other hand, when water leaking to the leak detection port 11 for containing the water drained to the drain pipe 10 of the pressure buffering port 9 exceeds a predetermined level, (37), it is structured so that leakage inspection can be performed stably and continuously.

The pipeline 3 connected to each block of the arrangement recovery boiler main body lower tube 50 constituting the present invention discharges the leaked water directly to the port body 37 when a failure of the pressure buffering port 9 occurs The piping 34 is connected to the port main body so that the problem of flooding due to leakage even in the event of a failure of the detection device can be solved,

Since the port body 37 is provided with the lower drainage line 41 which can completely drain the water leaking to one side and the upper drainage line 40 which can drain the water by using the underwater pump 38, When the water flows into the port body 39 at a level higher than the water level, the water is immediately discharged to the outside.

The operation of the present invention configured as described above will be described in detail.

FIG. 4 is a perspective view showing a state where a main body tube leakage detection device for a thermal power plant array recovery boiler according to the present invention is installed inside a device case, FIG. 5 is a perspective view of a main body tube leakage detection device for a thermal power generation plant arrangement recovery boiler according to the present invention, And connected to the main body tube of the power plant arrangement recovery boiler.

As shown in FIG. 4, the main body tube leakage detector of the thermal power plant array recovery boiler according to the present invention is installed in a device case 44 made of iron for protection of the apparatus,

The heat recovery unit boiler main body tube leakage detection device according to the present invention incorporated in such a device case 44 is constructed as follows. Each of the tube leak detection devices of each of the tube block groups 50 of the arrangement recovery boiler (HRSG) And is installed in the perforation hole 54 so as to detect the leakage of each block group 50.

Hereinafter, the device driving relationship of the present invention will be described in more detail.

When leakage occurs in any part of the tube block group 50 of the arrangement recovery boiler (HRSG), the water leaking into the pipeline 3 connected thereto is led to the pressure buffering port 9,

The leakage water introduced into the pressure buffering port 9 is filtered by the built-in filter 8 and then introduced into the leak detection port 11 provided at one side through the drain pipe 10.

When the water flowing into the leakage detection port 11 continuously increases, the built-in bubble ball 12 is raised together with it,

When the level of the water level exceeds the predetermined level, the limit switch 18, which is fixed to the upper portion of the leak detection port 11, is provided with a touch bar 13a protruding from the fixed support 13 of the bubble ball 12 The leakage signal is transmitted to the warning lamp 32 and the warning buzzer 32a through the conduit 25 so that the leak signal can be visually or audibly transmitted finally to the driver himself.

When the water flowing into the water leakage detection port 11 exceeds a certain level, the water flows into the port body 37 through the pipe 37a formed on one side of the water leakage detection port 11,

When the water flowing into the port body 37 exceeds a certain level, the water is discharged through a lower drain line 41 penetrating through one side and an upper drain line 40 draining by using an underwater pump 38 Drain.

When an abnormality occurs in the leak detection port 11 constituting the present invention, the pipeline 3 connected to the tube block group 50 of the arrangement recovery boiler (HRSG) The valve 41 of the pipe 34 to be associated is opened to allow the leaked water to flow directly into the port body 37.

As described above, the present invention can rapidly and continuously detect water leaking from a main tube of a heat recovery steam generator (HRSG) using an arrangement of a gas turbine generator of a thermal power plant, It is possible to stably operate the recovery boiler facility and significantly reduce the staff immersion accident occurring during the occurrence of the conventional leakage, and the maintenance cost.

Claims (3)

The gasket 2 is inserted so that the leaked water does not leak again so as to receive the leaked water introduced into the pipeline 3 connected to the flange 1 A pressure buffering port (9) which is filtered with a filter (8) and then discharged to a drain pipe (10); A leakage detection port 11 provided with a pipe 37a for draining the water leaked into the lower port body 37 while receiving the water drained to the drain pipe 10 of the pressure buffering port 9; A bug ball (not shown) fixed to the lower end of a fixed support 13, which is accommodated in the water leakage detection port 11 and fixed up and down on the upper end of the water leakage detection port 11 so as to move up and down according to the water level, 12); A limit switch 18 which is installed so as to be able to be contacted by a touch bar 13a protruding from one side of the fixed support 13 through one side of a limit fixing table 19 fixed by inserting the fixed support 13, ; And a warning lamp 32 and an alarm buzzer 32a electrically connected to the limit switch 18, Wherein the pipeline (3) is connected to a piping (34) to the port body so that the leaked water can be directly discharged to the port body (37) when a failure occurs in the pressure buffering port (9) Body tube leakage detection device. delete The method according to claim 1, The port body 37 is provided with a lower drainage line 41 capable of completely draining the water leaking to the one side and an upper drainage line 40 draining using the underwater pump 38 Wherein the main body tube leakage detection device is a boiler.

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