JP2014052169A - Feed water heater, salinity cleaning method of feed water heater and steam turbine unit - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a feed water heater and a salinity cleaning method of the feed water heater, capable of cleaning the feed water heater when seawater leak occurs, and provide a steam turbine unit.SOLUTION: As a countermeasure of a case where seawater leak occurs, in a feed water heater 10A, a cleaning water line 32, which introduces cleaning water 31 in a trunk body 11 after stop of units, is provided. In the case of the stop of the units, a valve Vis opened and the cleaning water 31 is introduced into the trunk body 11. The cleaning water 31 is introduced until the water level of a steam drain 24 is increased to become a water level Lwith a level meter 26, at which a heating tube 20 is covered.

Description

  The present invention relates to, for example, a feed water heater, a salt cleaning method for a feed water heater, and a steam turbine unit.

  Conventionally, in a thermal power generation facility or the like, steam generated in a boiler is cooled and condensed by a condenser and circulated and used as boiler water (pure water). Here, a cooling pipe for cooling the boiler steam is provided in the condenser, and seawater for cooling flows through the cooling pipe, but when a crack or the like occurs in the cooling pipe, seawater leaks from there. Then, it is mixed into the condensed boiler condensate, and the boiler condensate is mixed with salt to corrode various pipes. Therefore, various seawater leakage detection devices have been developed to check for seawater leakage from the condenser (see, for example, Patent Document 1).

JP 2001-141596 A JP 2004-144708 A

However, even when a seawater leak occurs in the seawater leak detection device, there has been no countermeasure against deterioration due to seawater leak in the subsequent water supply system.
Conventionally, in the periodic inspection after the occurrence of seawater leak, only the deterioration of the members of the feed water heater has been confirmed.

By the way, during the operation of the boiler unit, since the environment of the steam system is oxygen-free and dry, even if seawater leaks occur, the brought-in seawater component is, for example, the steam pipe of the feed water heater. Adhere to the surface.
However, during the boiler unit operation, since it is in an oxygen-free state, there is almost no occurrence of corrosion due to seawater components.

On the other hand, when the boiler unit is stopped, the generated steam is drained, so that the interior of the feed water heater becomes wet. In addition, when the unit is inspected for opening, the inside of the feed water heater becomes saturated with oxygen due to the destruction of the vacuum.
As a result, the seawater component adhering to each surface is dissolved in the drain. Since this drain is likely to accumulate on the surface of the heating tube or the bent portion of the tube, for example, corrosion may be accelerated.

  Conventionally, after the unit opening inspection, the degree of corrosion is confirmed by seawater leakage inside the unit, and at that time, corrosion and damage progress due to the wet state with oxygen saturation.

  Therefore, for example, when seawater leak occurs in the condensate system, the advent of a method for removing the salt attached to the surface of the device in a vacuum holding state with a low oxygen concentration is eagerly desired.

  In view of the above problems, an object of the present invention is to provide a feed water heater, a salt water washing method for a feed water heater, and a steam turbine unit that can wash the feed water heater when seawater leak occurs.

  According to a first aspect of the present invention for solving the above-described problem, a steam inlet for introducing heated steam is provided on the ceiling side of the trunk body, and a drain for discharging steam drain is provided on the bottom side of the trunk body. A boiler plant feed water heater provided with an outlet, wherein cleaning water supply means for supplying cleaning water is provided inside the trunk body, and the salt adhering to the seawater leak is dissolved and removed by the cleaning water. It is in the feed water heater characterized by this.

  The second invention is a feed water heater of a boiler plant in which a steam inlet for introducing heating steam is provided on the ceiling side of the trunk body, and a drain outlet for discharging steam drain is provided on the bottom side of the trunk body. In the feed water heater, the bubble generating means is provided at the bottom of the trunk body, and the salt adhering to the seawater leak is removed together with the foamed foam.

  A third invention is a feed water heater for a boiler plant in which a steam inlet for introducing heated steam is provided on the ceiling side of the trunk body, and a drain outlet for discharging steam drain is provided on the bottom side of the trunk body. The heating water is provided in the steam drain at the bottom of the trunk body, and the water content generated by dissolving the salt attached by seawater leak using the generated steam generated by the heating means is provided. In the heater.

  A fourth invention is a feed water heater of a boiler plant in which a steam inlet for introducing heated steam is provided on the ceiling side of the trunk body, and a drain outlet for discharging steam drain is provided on the bottom side of the trunk body. In addition, a nitrogen gas humidifier for introducing humidified nitrogen gas is provided on the ceiling side in the trunk body, and the salt attached by seawater leak is dissolved and removed using the humidified nitrogen gas introduced by the nitrogen gas humidifier. It is in the feed water heater characterized by being formed.

  According to a fifth aspect of the present invention, there is provided a steam turbine unit comprising the feed water heater according to any one of the first to fourth aspects.

  According to a sixth aspect of the present invention, there is provided a feed water heater for a boiler plant in which a steam inlet for introducing heating steam is provided on the ceiling side of the trunk body, and a drain outlet for discharging steam drain is provided on the bottom side of the trunk body. A salt cleaning method, characterized in that when seawater leak occurs, after the unit is stopped, cleaning water is supplied into the steam drain inside the trunk body, and the salt attached by seawater leak is dissolved and removed by the cleaning water. There is in the salt washing method of the feed water heater.

  According to a seventh aspect of the present invention, there is provided a feed water heater for a boiler plant in which a steam inlet for introducing heating steam is provided on the ceiling side of the trunk body, and a drain outlet for discharging steam drain is provided on the bottom side of the trunk body. This is a salt cleaning method.When seawater leaks occur, after the unit is stopped, bubbles are generated from the bubble generating means provided at the bottom of the trunk body, and the water level of the steam drain is raised by the generated bubbles. A salt water washing method for a feed water heater is characterized in that the adhering salt content is dissolved and removed with steam drain having an elevated water level.

  According to an eighth aspect of the present invention, there is provided a feed water heater for a boiler plant in which a steam inlet for introducing heating steam is provided on the ceiling side of the trunk body, and a drain outlet for discharging steam drain is provided on the bottom side of the trunk body. This is a salt cleaning method. When a seawater leak occurs, the steam drain is heated by heating means provided in the steam drain in the trunk body after the unit is stopped, and the generated steam is used to adhere to the seawater leak. The present invention resides in a salt washing method for a feed water heater, wherein the salt is dissolved and removed.

  According to a ninth aspect of the present invention, there is provided a feed water heater for a boiler plant in which a steam inlet for introducing heating steam is provided on the ceiling side of the trunk body, and a drain outlet for discharging steam drain is provided on the bottom side of the trunk body. This is a salt cleaning method. When seawater leaks occur, after the unit is stopped, humidified nitrogen gas is introduced from the nitrogen gas humidifier into the ceiling side inside the trunk body, and seawater leaks using the introduced humidified nitrogen gas. A salt water washing method for a feed water heater is characterized by dissolving and removing adhering salt.

  According to the present invention, since the salt attached to the outer surface of the heating tube can be dissolved by introducing the washing water, even when a large amount of oxygen is introduced after the unit is stopped, corrosion due to the salt is avoided. The

FIG. 1 is a schematic view of a feed water heater according to the first embodiment. FIG. 2 is a schematic diagram of a feed water heater according to the first embodiment. FIG. 3 is a schematic view of a feed water heater according to the second embodiment. FIG. 4 is a schematic view of a feed water heater according to the third embodiment. FIG. 5 is a schematic view of a feed water heater according to the fourth embodiment. FIG. 6 is a schematic view of a feed water heater according to the fifth embodiment.

  Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In addition, this invention is not limited by this Example, Moreover, when there exists multiple Example, what comprises combining each Example is also included.

1 and 2 are schematic views of a feed water heater according to the first embodiment.
As shown in FIG. 1, a feed water heater 10A according to the present embodiment includes a cylindrical trunk body 11 and a water chamber 12 provided adjacent to the trunk body 11, and the trunk body 11 and the water chamber. 12 is water-tightly partitioned by a tube plate 13.
The water chamber 12 is separated into a water supply chamber 14 and a discharge chamber 15 by a partition plate 12a. Of these, the water supply chamber 14 is provided with a water supply inlet 14a, and the water supply inlet 14a is supplied with heated water 17A, while the discharge chamber 15 is provided with a water supply outlet 15a. The heated heating water 17B is discharged from 15a to the boiler side.

A large number of U-shaped heating tubes 20 that communicate with the water supply chamber 14 and the discharge chamber 15 and extend in the longitudinal direction of the trunk body 11 are provided inside the trunk body 11. In FIG. 1, only one heating tube 20 is shown.
The heating tube 20 is supported by a support (not shown).
A partition plate 21 is provided between the U-shaped heating tube 20.

A steam inlet 23 for introducing the heating steam 22 is provided on the ceiling side of the trunk body 11, while a drain outlet 25 for discharging the steam drain 24 is provided on the bottom side of the trunk body 11.
Note that the water level L ₀ is controlled by the level meter 26a so that it is normally at a predetermined position.

First, the low temperature water supply 17A is introduced into the heating pipe 20 from the water supply inlet 14a through the water supply chamber 14. The introduced low-temperature water exchanges heat through the heating pipe 22 and the heating pipe 20 supplied while passing through the heating pipe 20, is heated, and flows out from the water supply outlet 15 a through the discharge chamber 15.
The steam drain 24 that has exchanged heat with the low-temperature water through the heating pipe 20, cooled and condensed is discharged to the outside as a drain 24 from the drain outlet 25.

In such a feed water heater 10 </ b> A, when salt content is mixed into the heating steam 22 due to seawater leak, adhesion of the salt content 30 contained in the heating steam 22 occurs on the surface of the heating pipe 20.
The salinity 30 does not cause corrosion due to salinity because oxygen is not introduced into the inside during unit operation. However, when the unit is stopped and oxygen is introduced into the trunk body 11 and the wet state is saturated with oxygen, it shows intense corrosiveness and the corrosion of the equipment proceeds.

As a countermeasure when such a seawater leak occurs, in the feed water heater 10A of the present embodiment, a cleaning water line 32 for introducing the cleaning water 31 into the trunk body 11 is provided after the unit is stopped.
Then, as shown in FIG. 2, when the unit is stopped, the valve V ₁ is opened, and the cleaning water 31 is introduced into the trunk body 11. Then, the water level of the steam drain 24 is raised, and the cleaning water 31 is introduced until the water level L ₁ covering the heating pipe 20 is reached using the level meter 26b. In the figure, V ₂ is a valve, and P is a pump.

  Further, the salinity meter 34 interposed in the drainage line 33 measures the salt concentration or conductivity in the cleaning wastewater 35. And it can confirm that the measurement result of the salinity meter 34 becomes below a predetermined value, and it can be set as completion of washing | cleaning.

  As a result of the introduction of the washing water 31, the salt content 30 adhering to the outer surface of the heating tube 20 can be dissolved. Therefore, even when a large amount of oxygen is introduced after the unit is stopped, corrosion due to the salt content is avoided. .

  That is, when a seawater leak occurs, after the unit is stopped, the cleaning water 31 is supplied into the steam drain 24 inside the trunk body 11, and the salt adhering to the seawater leak is dissolved and removed by the cleaning water. Since the adhering salt content can be cleaned and removed by the cleaning water 31 in a vacuum holding state with a low oxygen concentration, corrosion inside the equipment due to the salt content adhering can be prevented.

  Further, even if there is no seawater leak, the cleaning water 31 is introduced into the body 11 of the feed water heater 10A every periodic inspection, thereby preventing the accumulation of impurities such as salt on the surface of the heating pipe 20. Can be achieved.

FIG. 3 is a schematic view of a feed water heater according to the second embodiment. In addition, the same code | symbol is attached | subjected to the member same as the feed water heater which concerns on Example 1, and the description is abbreviate | omitted.
As shown in FIG. 3, the feed water heater 10 </ b> B according to the present embodiment is provided with the bubble generating means 41 on the bottom side in the trunk body 11 without introducing the cleaning water 31 as in the first embodiment.

And as a countermeasure when seawater leak occurs, after the unit is stopped, the gas 40 is introduced from the outside into the bubble generating means 41, and the bubbles 42 are generated from the nozzle 41a. The generated bubbles 42 raise the water level of the steam drain 24.
The heating tube 20 is immersed in the steam drain 24 so that the salt content 30 is dissolved in the steam drain 24 and removed.
You may make it supply a foaming agent as needed.
Note that the gas 40 is discharged from the gas discharge line 43.

Here, the gas 40 to be introduced is preferably an inert gas such as nitrogen gas (N ₂ ), which eliminates internal corrosion.

  In the present embodiment, as in the first embodiment, cleaning water is not used, and when seawater leak occurs, after the unit is stopped, bubbles are generated from the bubble generating means provided at the bottom in the trunk body, and generated. Since the water level of the steam drain is raised by the bubbles, and the salt content adhering to the seawater leak is dissolved and removed by the steam drain having the raised water level, no excessive drainage is generated.

FIG. 4 is a schematic view of a feed water heater according to the third embodiment. In addition, the same code | symbol is attached | subjected to the member same as the feed water heater which concerns on Example 1 and 2, and the description is abbreviate | omitted.
As shown in FIG. 4, the feed water heater 10 </ b> C according to the present embodiment is further provided with the bubble generating means 41 of the feed water heater 10 </ b> B of the second embodiment in the feed water heater 10 </ b> A of the first embodiment.

  Then, as a countermeasure when a seawater leak occurs, after the unit is stopped, the cleaning water 31 is introduced, the gas 40 is introduced from the outside into the bubble generating means 41, and the cleaning effect of the cleaning water 31 is generated by the generated bubbles 42. Has improved.

FIG. 5 is a schematic view of a feed water heater according to the fourth embodiment. In addition, the same code | symbol is attached | subjected to the member same as the feed water heater which concerns on Example 1, and the description is abbreviate | omitted.
As shown in FIG. 5, the feed water heater 10 </ b> D according to the present embodiment is provided with the heating unit 50 on the bottom side in the trunk body 11 without introducing the cleaning water 31 as in the first embodiment.

  And as a countermeasure when seawater leak occurs, after the unit is stopped, the steam drain 24 is heated by the heating means 51 to generate the steam 51. The generated vapor 50 dissolves and removes the salt 30 adhering to the heating tube 20.

  In this embodiment, as in the first embodiment, cleaning water is not used. When seawater leaks, the steam drain is heated by heating means provided in the steam drain in the trunk body after the unit is stopped. The salt generated by the seawater leak is dissolved and removed using the generated steam, so that no excessive drainage is generated.

FIG. 6 is a schematic view of a feed water heater according to the fifth embodiment. In addition, the same code | symbol is attached | subjected to the member same as the feed water heater which concerns on Example 1, and the description is abbreviate | omitted.
As shown in FIG. 6, the feed water heater 10 </ b> E according to the present embodiment introduces nitrogen gas (N ₂ ) humidified into the upper space side in the trunk body 11 without introducing the cleaning water 31 as in the first embodiment. An introduction line 61 for introducing from the nitrogen gas humidifier 60 is installed.

And as a countermeasure when seawater leak occurs, after the unit is stopped, humidified nitrogen is introduced into the interior by the nitrogen gas humidifier 60 to make the interior humidified. The humidified nitrogen (N ₂₎ by dissolving using a deliquescent salt 30 adhering to the heating tube 20, followed by removal.
The introduced humidified nitrogen is discharged from the gas discharge line 62 to the outside.

  In the present embodiment, as in the first embodiment, the cleaning water is not used, and when seawater leak occurs, after the unit is stopped, humidified nitrogen is introduced from the nitrogen gas humidifier into the ceiling side inside the trunk body, Since the adhering humidified nitrogen gas is used to dissolve and remove salt adhering to the seawater leak, no extra drainage is generated.

10A to 10E Water heater 11 Body 20 Heating tube 24 Steam drain 31 Wash water 32 Wash water line 40 Gas 41 Bubble generating means 42 Bubble 50 Heating means 51 Steam 60 Nitrogen gas humidifier

Claims (9)

On the ceiling side of the trunk body, a steam inlet for introducing heating steam is provided, and on the bottom side of the trunk body, a boiler water feed heater provided with a drain outlet for discharging steam drainage,
A cleaning water supply means for supplying cleaning water is provided inside the trunk body,
A feed water heater characterized by dissolving and removing salt adhering to a seawater leak with washing water. On the ceiling side of the trunk body, a steam inlet for introducing heating steam is provided, and on the bottom side of the trunk body, a boiler water feed heater provided with a drain outlet for discharging steam drainage,
A bubble generating means is provided at the bottom of the trunk body,
A feed water heater characterized by removing salt adhering due to seawater leak together with foamed foam. On the ceiling side of the trunk body, a steam inlet for introducing heating steam is provided, and on the bottom side of the trunk body, a boiler water feed heater provided with a drain outlet for discharging steam drainage,
A heating means is provided in the steam drain at the bottom of the trunk body,
A feed water heater characterized by dissolving and removing salt adhering to a seawater leak using generated steam generated by the heating means. On the ceiling side of the trunk body, a steam inlet for introducing heating steam is provided, and on the bottom side of the trunk body, a boiler water feed heater provided with a drain outlet for discharging steam drainage,
A nitrogen gas humidifier that introduces humidified nitrogen gas is installed on the ceiling side of the body,
A feed water heater characterized by dissolving and removing salt adhering to a seawater leak using humidified nitrogen gas introduced by the nitrogen gas humidifier.   A steam turbine unit comprising the feed water heater according to any one of claims 1 to 4. A steam cleaning method for a feed water heater of a boiler plant in which a steam inlet for introducing heated steam is provided on the ceiling side of the trunk body, and a drain outlet for discharging steam drain is provided on the bottom side of the trunk body. ,
When seawater leak occurs, after the unit stops, wash water is supplied into the steam drain inside the trunk body.
A salt water cleaning method for a feed water heater, wherein salt water adhering to a seawater leak is dissolved and removed with cleaning water. A steam cleaning method for a feed water heater of a boiler plant in which a steam inlet for introducing heated steam is provided on the ceiling side of the trunk body, and a drain outlet for discharging steam drain is provided on the bottom side of the trunk body. ,
When seawater leak occurs, after the unit stops, bubbles are generated from the bubble generating means provided at the bottom of the trunk body,
Raise the water level of the steam drain by the generated bubbles,
A salt washing method for a feed water heater, characterized by dissolving and removing salt adhering due to seawater leak with steam drain having an elevated water level. A steam cleaning method for a feed water heater of a boiler plant in which a steam inlet for introducing heated steam is provided on the ceiling side of the trunk body, and a drain outlet for discharging steam drain is provided on the bottom side of the trunk body. ,
When seawater leak occurs, after the unit is stopped, the steam drain is heated by the heating means provided in the steam drain in the trunk body, and the salt generated by seawater leak is dissolved and removed using the generated steam. A salinity cleaning method for a feed water heater. A steam cleaning method for a feed water heater of a boiler plant in which a steam inlet for introducing heated steam is provided on the ceiling side of the trunk body, and a drain outlet for discharging steam drain is provided on the bottom side of the trunk body. ,
When seawater leak occurs, after the unit stops, humidified nitrogen gas is introduced from the nitrogen gas humidifier into the ceiling side inside the trunk body,
A method for cleaning salt content in a water heater, wherein the humidified nitrogen gas is used to dissolve and remove salt adhering to a seawater leak.

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