KR20000010878U - Auxiliary device for smooth gas discharge from degassing device - Google Patents

Abstract

The present invention smoothly separates dissolved oxygen (O ₂ ) in the water supply to the boiler by strengthening the function of the pressure equalizing tube, extending the life of the facility, and separating and recovering the condensed water contained in the flash steam discharged to the atmosphere. It is an object of the present invention to provide an auxiliary device for smoothing the discharge of gas from a degassing device that reduces waste and reduces noise generated during discharge.

The present invention for achieving the above object, as a device for supplying steam in the main body (1) of the gas removal device to separate the dissolved oxygen (O ₂ ) contained in the water supply and discharge it to the outside, the main body of the gas removal device The chamber 11 having the separator 11 attached therein so as to separate the condensed water contained in the steam generated and discharged in (1) and to reduce the noise generated by the steam discharged to the atmosphere by re-evaporation; , Recovery pipe 12 for recovering the condensed water separated from the chamber 11 to the storage tank (2). In addition, the present invention is connected to the chamber 11 and the storage tank (2) to maintain a constant pressure in the storage tank 2 and the main body (1) of the degassing apparatus 40 and the dissolved oxygen (O ₂ ) and an air discharge pipe 50 for discharging the steam separated from the chamber to the atmosphere.

Description

Auxiliary device for smooth gas discharge from degassing device

The present invention relates to an auxiliary device used in the degassing device, in particular, in a degassing device that can easily discharge the dissolved oxygen contained in the flash steam by heating the water supply to the saturation temperature to the atmosphere It relates to an auxiliary device for smooth gas discharge.

Typically, the water supplied to the boiler removes dissolved oxygen (O ₂ ) contained in the feedwater through a mechanical degassing device (DEAERATOR) to prevent corrosion in the boiler and is supplied to the boiler. As such, the method of removing the dissolved oxygen (O ₂ ) in the degassing apparatus is by heating the feed water to the saturation temperature, wherein steam (STEAM) is used as the heating medium.

Referring to Figure 1 will be described a method of heating the water supply according to the prior art to the saturation temperature.

First, steam, which is a heating medium, enters the main body 1 of the degassing apparatus through the steam pipe 7 and then descends to the lower part and passes upward from the bottom of the tray 3 (TRAY). While heating the heating plate (HEATING PLATE) of the tray (3) installed high, it rises up through the space between the space of the heating plate.

At this time, the feed water is introduced through the water supply pipe (8), and the heat is exchanged through the heating plate of the already heated tray (3) and the steam rising up while being injected down through the injection valve (6; SPRAY VALVE) saturation temperature Heated to.

Then heated to the saturation temperature water is to remove the dissolved oxygen (O _2), the separation of dissolved oxygen (O ₂₎ is nested in the steam heats the water and re-evaporated slides up air discharge pipe (5; AIR VENT Is discharged to the atmosphere.

However, the flash steam discharged to the atmosphere, such as dissolved oxygen (O ₂ ), is a waste of energy because it contains a lot of condensed water due to contact with water and is discharged to the atmosphere. It is scattered and causes noise pollution due to sound generated during discharge.

On the other hand, in order to prevent the water discharged after the gas discharge again absorbs dissolved oxygen (O ₂ ), the water discharged from the gas discharged immediately enters the storage tank 2 (STORAGE TANK) through the downcomer 9 (DOWN COMER). It is stored to prepare for suction of the boiler feed pump (PUMP).

Therefore, the pressure in the main body 1 of the degassing apparatus and the pressure in the storage tank 2 are equal to each other so that the gas discharged water flows smoothly through the downcomer 9 and is stored in the storage tank 2. A pressure equalizing tube 4 (Equalizer) for maintaining the gas is connected to the inside of the storage tank 2 from the lower part of the tray 3 in the main body 1 of the degassing apparatus so that the internal pressure of the storage tank 2 is degassed. Do not rise above the pressure formed in the body 1 of the apparatus. However, the steam pressure coming through the steam pipe 7 is brought into a pressure higher than the pressure formed in the main body 1 of the degassing device, at this time to the pressure discharge of the pressure equalizing pipe 4 by the instantaneous high pressure. Will be affected.

Therefore, the steam pressure coming through the steam pipe (7) and the water flowing down through the tray (3) is disturbed by the heating plate of the tray (3) is densely installed, the pressure is not dispersed upward, the main body of the gas removal device ( 1) the pressure rise from the lower end than the upper part in the upper part, that is, the lower end of the tray 3 to the storage tank 2; Due to these causes of pressure rise, the water supply does not go down to the storage tank 2 through the downcomer 9 but is stagnated at the lower end of the main body 1 of the gas removal apparatus. This stagnant feed water is not heated to saturation temperature in contact with the incoming steam, but turns into hot water (hot water) like steam and discharged into the atmosphere through the air discharge pipe (5). When the water is discharged, the pressure decreases and the water flows to the storage tank 2, and when the discharge is completed, the pressure rises again and the water is stagnated so that the function of the gas removing device does not function itself. This happens.

Therefore, the present invention has been devised to solve the problems of the prior art as described above, by enhancing the function of the pressure equalizing pipe to smoothly separate the dissolved oxygen (O ₂ ) in the water supply to the boiler to extend the life of the equipment The purpose is to provide an auxiliary device to smooth out the gas from the degassing device to reduce energy waste by separating and recovering the condensed water contained in the flash steam discharged to the atmosphere. There is this.

1 is a perspective view for explaining the components of the gas removal apparatus according to the prior art,

Figure 2 is an exploded perspective view for explaining the components of the auxiliary device for smooth gas discharge in the gas removal apparatus according to an embodiment of the present invention,

3 is a perspective view of the auxiliary device shown in FIG.

Figure 4 is a perspective view showing a gas removal device coupled to the auxiliary device shown in FIG.

♠ Explanation of symbols on the main parts of the drawing ♠

1: main body 2: storage tank

3: tray 4, 40: pressure equalizing tube

5, 50: air discharge pipe 6: injection valve

7: steam supply pipe 8: water supply pipe

10 outlet 11 chamber

12: condensate recovery pipe 13: gas removal device discharge pipe

114: separator

The present invention for achieving the object as described above, to separate the condensed water contained in the steam generated after being generated in the main body of the degassing apparatus and to reduce the noise generated by the steam to be discharged to the atmosphere by re-evaporation The separator includes a chamber attached therein and a recovery pipe for recovering condensed water separated from the chamber to a storage tank. In addition, the present invention is connected to the chamber and the storage tank to maintain a constant pressure in the main body of the storage tank and the gas removal device, and the discharged oxygen (O ₂ ) and the steam separated from the chamber to the atmosphere It includes an air discharge pipe.

In the following, with reference to the accompanying drawings a preferred embodiment of the auxiliary device for smooth gas discharge in the gas removal apparatus according to the present invention will be described in detail.

Figure 2 is an exploded perspective view for explaining the components of the auxiliary device to facilitate the gas discharge in the gas removal apparatus according to an embodiment of the present invention, Figure 3 is a perspective view of the auxiliary device shown in FIG. 4 is a perspective view showing a gas removal device combined with the auxiliary device shown in FIG.

As shown in Figure 2 to 4, the auxiliary device of the present invention is composed of a chamber 11, the recovery pipe 12, the pressure equalizing pipe 40 and the air discharge pipe (50).

Here, the chamber 11 helps to discharge the high pressure formed in the storage tank 2, heats the water supply to a saturation temperature, separates the condensed water contained in the vapor discharged by re-evaporation, and is generated when discharged to the atmosphere. It reduces the noise. Then, the recovery pipe 12 recovers the condensed water separated in the chamber 11, the equalization pipe 40 to maintain the pressure in the degassing device and the pressure in the storage tank, the air discharge pipe (50) ) Releases dissolved oxygen (O ₂ ) and flash steam to the atmosphere.

In the following, it will be described in detail with respect to the components of the present invention thus configured.

As shown in FIG. 2, the chamber 11 includes a cylindrical body 111. Separation separator 114 is disposed in the inner upper portion of the body portion 111, and the lower cover 113 and the upper cover 112 are coupled to the lower and upper, respectively. Here, the water separator 114 is formed with a plurality of holes in the disc, and serves to reduce the noise generated by the steam discharged by separating the condensed water contained in the vapor evaporating. In addition, the outlet 116 formed in the upper cover 112 is connected to the connection portion 51 of the air discharge pipe 50, the inlet 115 of the chamber 11 is the connector 131 of the gas removal device discharge pipe 13 ) In addition, a cap plate 41 is attached to the upper portion of the pressure equalizing pipe 40 with a clearance to facilitate pressure discharge, and the pressure equalizing pipe 40 configured as described above is inserted into the condensed water recovery pipe 12. . At this time, the coupling port 123 of the recovery pipe 12 and the coupling port 42 of the pressure equalizing tube 40 are fixed with bolts, and the part where the cap plate 41 of the pressure equalizing tube 40 is attached is placed upward. The portion where the cap plate 41 is attached by inserting into the condensation water recovery port 117 of the chamber 11 is disposed higher than the inlet port 115. This is because when the pressure is equal to or lower than the inlet 115, the pressure of the pressure equalizing pipe 40 may be disturbed by the pressure coming through the gas removing device discharge pipe 13. Then, the connector 121 of the condensed water return pipe 12 is connected to the connector 117 of the lower cover 113 of the chamber 11, and the connector 122 of the condensed water return pipe 12 is a storage tank ( It is connected to the recovery pipe connector 14 of 2), the connector 132 of the gas removal device discharge pipe 13 is connected to the gas removal device discharge port (10).

In the following, it will be described in detail the operation relationship of the auxiliary device for smooth gas discharge in the gas removal device of the present invention configured as described above.

First, the equalization pipe 40 is connected to the chamber 11 to discharge the high pressure formed from the inner lower end of the main body 1 of the gas removing apparatus to the storage tank 2 to the chamber 11 to remove the gas removing apparatus. The pressure in the main body 1 and the storage tank 2 can be kept constant with each other to smoothly flow the water supply to the storage tank 2 through the downcoming pipe 9. By doing so, the gas discharge is maximized, and when this gas discharge is completed, the re-evaporation steam containing dissolved oxygen (O ₂ ) enters the inside of the chamber 11 through the degassing device discharge pipe 13 and is primarily condensed water. And flash steam. At this time, the re-evaporation steam containing dissolved oxygen (O ₂ ) passes through the water separator 114 to separate the condensed water secondarily. Then, the condensed water is recovered to the storage tank 2 through the recovery pipe 12, the flash steam containing dissolved oxygen (O ₂ ) is discharged to the atmosphere through the air discharge pipe (50). In addition, the pressure is reduced while passing through the chamber 11 and the water separator 114 can reduce the noise generated when discharged to the atmosphere through the air discharge pipe (50).

As described in detail above, the auxiliary device for smoothing the gas discharge in the degassing device of the present invention can maximize the gas discharge since the water can be discharged by smoothly separating the dissolved oxygen (O ₂ ) by heating the water supply to the saturation temperature. Can be. Therefore, it is possible to prevent the corrosion in the boiler to extend the life, it is possible to reduce the energy waste by recovering the condensed water discharged to the air discharge pipe. In addition, there is a practical effect that can minimize the noise pollution by reducing the noise generated when discharged to the atmosphere.

In the above description, the technical idea of the auxiliary device for smoothing the gas discharge from the degassing device of the present invention has been described together with the accompanying drawings, but this is only illustrative of the best embodiments of the present invention and is not intended to limit the present invention. .

Claims (1)

In the device for discharging dissolved oxygen (O ₂ ) contained in the feed water by supplying steam in the main body of the gas removal device and discharged to the outside, A chamber having a separator separated therein to separate the condensed water generated in the main body of the degassing apparatus and discharge the condensed water contained in the discharged steam and to reduce the noise generated by the steam discharged to the atmosphere by re-evaporation; A recovery pipe for recovering the condensed water separated from the chamber to a storage tank; A pressure equalizing tube connecting the chamber and the storage tank to maintain a constant pressure in the main body of the storage tank and the gas removing apparatus; Dissolved oxygen (O ₂ ) and the auxiliary device for smoothing the gas discharge in the degassing device, characterized in that it comprises an air discharge pipe for discharging the steam separated from the chamber to the atmosphere.