JP2017203611A - Condenser water chamber air vent device and control method for condenser water chamber air vent - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a sound air vent system not affected by water droplets or water mass entrained by air discharged from a water chamber.SOLUTION: A condenser water chamber air vent device according to an embodiment is a condenser water chamber air vent device for use in a condenser having a condenser inlet water chamber provided on the cooling water inflow side and a condenser outlet water chamber provided on the cooling water outflow side. The condenser water chamber air vent device comprises: an inlet water chamber air vent pipe connected to the apex of the condenser inlet water chamber; an air vent valve which is provided in the inlet water chamber air vent pipe and is closed during flooding; a separator which is provided between the condenser inlet water chamber and the air vent valve and separates gas and liquid flowing into the inlet water chamber air vent pipe from the condenser inlet water chamber while the condenser inlet water chamber is not full water condition; and a separator drain pipe for discharging the liquid separated by the separator to the outside.SELECTED DRAWING: Figure 1

Description

  Embodiments described herein relate generally to a condenser water chamber air vent device and a condenser water chamber air vent control method.

FIG. 3 is a diagram illustrating an example of a condenser water chamber air vent system of a general power plant.
As shown in FIG. 3, in a condenser water chamber air vent system of a general power plant, cooling water such as seawater for cooling the condenser 1 in the turbine building is cooled by a condenser inlet (not shown). The water pipe is sent to the condenser inlet water chamber 2, passes through the condenser tube 3 in the condenser 1 from the condenser inlet water chamber 2, and reaches the condenser outlet water chamber 4.
At this time, it is necessary to fill the condenser inlet water chamber 2 and the condenser outlet water chamber 4 with water in order to secure a heat transfer area for heat exchange between the cooling water and the steam in the condenser tube 3. is there. For this reason, an inlet water chamber air vent pipe 7 is piped at the top of the condenser inlet water chamber 2, and an outlet water chamber air vent pipe 8 is piped at the top of the condenser outlet water chamber 4.

In the inlet water chamber air vent pipe 7 and the outlet water chamber air vent pipe 8, automatic air vent valves 11 and 12 are installed on a one-to-one basis. These automatic air vent valves 11 and 12 have a structure in which only air in the water chamber corresponding to the installation destination is discharged, and when the automatic air vent valves 11 and 12 themselves try to flood the water, the valves are automatically closed.
The air discharged from the automatic air vent valves 11 and 12 is discharged into the atmosphere through the air tank 13.
An inlet water chamber water level meter 5 and an outlet water chamber water level meter 6 are installed for the purpose of confirming the full water state of the condenser inlet water chamber 2 and the condenser outlet water chamber 4.

Japanese Utility Model Publication No. 60-181573

  In the process of passing water from the condenser inlet water chamber 2 to the condenser tube 3 to fill the condenser outlet water chamber 4, the inlet water chamber air vent pipe 7 and the outlet water chamber air vent pipe 8 are connected to each other. The air discharged at a high speed from the water chamber corresponding to the installation destination and the water droplets or water mass associated therewith flow.

  These water droplets or water blocks sometimes block the inlet water chamber air vent pipe 7 or the outlet water chamber air vent pipe 8 so that the condenser inlet water chamber 2 or the condenser outlet water chamber 4 must be full. Even if the automatic air vent valves 11 and 12 that do not operate malfunction due to the influence of water droplets or water blocks, even if water passes from the condenser inlet water chamber 2 to the condenser tube 3, the condenser outlet water chamber 4 May not be full.

  The problem to be solved by the present invention is that a condenser water chamber air vent that can supply a healthy condenser water chamber air vent system that is not affected by water droplets or water mass accompanying the air discharged from the water chamber. An apparatus and a condenser water chamber bleed control method are provided.

  The condenser water chamber air vent device in the embodiment is used for a condenser having a condenser inlet water chamber provided on the cooling water inflow side and a condenser outlet water chamber provided on the cooling water outflow side. A condenser water chamber air vent device, an inlet water chamber air vent pipe connected to the top of the condenser inlet water chamber, an air vent valve provided on the inlet water chamber air vent pipe and closed during flooding, Gas and liquid that are provided between the condenser inlet water chamber and the air vent valve, and flow into the inlet water chamber air vent pipe from the condenser inlet water chamber in a state where the condenser inlet water chamber is not full. And a separator drain pipe for discharging the liquid separated by the separator to the outside.

  The condenser water chamber air vent control method in the embodiment includes a condenser inlet water chamber provided on the cooling water inflow side, and a condenser outlet water chamber provided on the cooling water outflow side, and A condenser water chamber that is applied to a condenser having an inlet water chamber air vent pipe connected to the top of the water inlet water chamber and an air vent valve that is provided in the inlet water chamber air vent pipe and is closed during submergence. In the air vent control method, a gas and a liquid that have flowed into the inlet water chamber air vent pipe from the condenser inlet water chamber in a state where the condenser inlet water chamber is not full are separated by a separator and separated by the separator. The discharged liquid is discharged to the outside through the separator drain pipe.

  ADVANTAGE OF THE INVENTION According to this invention, the healthy condenser water chamber air vent system which is not influenced by the water droplet accompanying the air discharged | emitted from a water chamber or a water mass can be supplied.

The figure which shows an example of the condenser water chamber air vent system | strain of the power plant in embodiment. The figure which shows an example of the separator arrange | positioned at the condenser water chamber air vent system of the power plant in embodiment. The figure which shows an example of the condenser water chamber air vent system of a general power plant.

Hereinafter, embodiments will be described with reference to the drawings.
Drawing 1 is a figure showing an example of a condenser water room air venting system of a power plant in an embodiment.
In this condenser water chamber air vent system, a condenser inlet water chamber 2 is provided on the cooling water inflow side of the condenser 1, and a condenser outlet water chamber 4 is provided on the cooling water outflow side of the condenser 1. It is done.
The cooling water flows from a condenser inlet cooling water pipe (not shown) into the condenser inlet water chamber 2, and is heat-exchanged with the steam in the condenser 1 through the condenser tube 3. Flow into.

  In this embodiment, the condenser water chamber air venting apparatus used for the condenser which has the condenser inlet water chamber 2 and the condenser outlet water chamber 4 is provided. This condenser water chamber air vent device includes an inlet water chamber air vent tube 7, an outlet water chamber air vent tube 8, separators 9 and 10, automatic air vent valves 11 and 12, an air tank 13, separator drain tubes 14 and 15, and a drain tank 16. And air actuated valves 17, 18. These will be sequentially described below.

Next, the configuration on the condenser inlet water chamber 2 side will be described.
An inlet water chamber air vent pipe 7 is arranged at the top of the condenser inlet water chamber 2, and an inlet water chamber water level meter 5 is installed between the condenser inlet water chamber 2 and the inlet water chamber air vent pipe 7.

A separator 9 is disposed in the inlet water chamber air vent pipe 7 as viewed from the condenser inlet water chamber 2 downstream of the inlet water chamber water level gauge 5 and upstream of the automatic air vent valve 11, preferably in the immediate vicinity of the automatic air vent valve 11. . Drawing 2 is a figure showing an example of a separator arranged in a condenser water room air vent system of a power plant in an embodiment. 2A shows the upper surface of the separator 9, and FIG. 2B shows the side surface of the separator 9.
As the separator 9, an existing technical product such as a centrifugal separation method can be used.

  The separator 9 separates gas (air) and liquid (water) as fluids flowing from the condenser inlet water chamber 2 into the inlet water chamber air vent pipe 7 as fluid.

  As a specific example, the cylindrical tapered main body 9a of the separator 9 has an introduction portion 9b for introducing a mixture of air and water flowing into the inlet water chamber air vent pipe 7 from the peripheral wall of the main body, and separated air. An air exhaust part 9c for discharging the water from the central part of the upper end wall of the main body to the outside and a water discharge part 9d for discharging the separated water from the central part of the upper end wall of the main body to the outside.

  When a mixture of air and water is introduced into the main body 9a from the introduction portion 9b, the centrifugal force of the introduced water causes water having a large specific gravity to flow toward the inner wall side of the main body 9a and air having a small specific gravity to the main body 9a. Gather to the center. As a result, the separated air is exhausted from the air exhaust portion 9c to the outside of the main body 9a, while the separated water is discharged from the water discharge portion 9d to the outside of the main body 9a.

  The separated and exhausted air passes through the automatic air vent valve 11 and is discharged into the atmosphere through the air tank 13. Further, the water separated and discharged by the separator 9 is discharged to the drainage tank 16 through the separator drain pipe 14 connected to the separator 9.

Next, the configuration on the condenser outlet water chamber 4 side will be described.
An outlet water chamber air vent pipe 8 is disposed at the top of the condenser outlet water chamber 4, and an outlet water chamber water level meter 6 is installed between the condenser outlet water chamber 4 and the outlet water chamber air vent pipe 8.

The outlet water chamber air vent pipe 8 has a configuration similar to that of the separator 9 in the downstream of the outlet water chamber water level meter 6 and upstream of the automatic air vent valve 12 as viewed from the condenser outlet water chamber 4, preferably in the immediate vicinity of the automatic air vent valve 12. A separator 10 is disposed. This separator 10 isolate | separates these, when gas and a liquid flow into the outlet water chamber air vent pipe 8 from the condenser outlet water chamber 4 as a fluid. The separated air passes through the automatic air vent valve 12 and is discharged into the atmosphere via the air tank 13. Further, the water separated by the separator 10 is discharged to the drainage tank 16 through the separator drain pipe 15 connected to the separator 10.
In addition to the above configuration, as shown in FIG. 1, an air operated valve 17 is provided in the separator drain pipe 14 on the condenser inlet water chamber 2 side. The air operating valve 17 is preferably provided in the immediate vicinity of the separator 9. Similarly, an air operation valve 18 is provided in the separator drain pipe 15 on the condenser outlet water chamber 4 side. It is desirable that the air operated valve 18 be provided in the immediate vicinity of the separator 10.

Before the condenser inlet water chamber 2 is full, the air operating valve 17 is open. Then, at the timing when the condenser inlet water chamber 2 is full and the air in the condenser inlet water chamber 2 is discharged to the outside, that is, the inlet water chamber air vent pipe 7, the control device 20 operates the air operated valve. A sequence for closing the valve 17 is performed. The timing at which the condenser inlet water chamber 2 is full and the air in the condenser inlet water chamber 2 is discharged to the outside is determined by the control device 20 using the measured value by the inlet water chamber water level meter 5. Also good.
Similarly, before the condenser outlet water chamber 4 is full, the air operation valve 18 is open. Then, the control device 20 causes the air operating valve 18 at a timing when the condenser outlet water chamber 4 becomes full and the air in the condenser outlet water chamber 4 is discharged to the outside, that is, the outlet water chamber air vent pipe 8. A sequence for closing the valve is performed. The timing at which the condenser outlet water chamber 4 is full and the air in the condenser outlet water chamber 4 is discharged to the outside is determined by the control device 20 using the measured value by the outlet water chamber water level meter 6. Also good.
When water flows into the pipe while the condenser inlet water chamber 2 and the condenser outlet water chamber 4 are full, this water raises the water level in the pipe.
Due to the rise in the water level, the separators 9 and 10 are submerged. The submerged water does not flow downstream of the air-operated valves 17 and 18 closed in the separator drain pipes 14 and 15 after being separated by the separators 9 and 10, and the submerged water does not flow into the automatic air vent valve 11. , 12 is reached, and as a result, these automatic air vent valves 11, 12 are operated. Accordingly, it is possible to prevent the malfunction of the automatic air vent valves 11 and 12 and not to prevent the normal operation of the automatic air vent valves 11 and 12.

As described above, in the embodiment, water droplets or water accompanying the air in the condenser water chamber air venting operation in a state where the condenser inlet water chamber 2 or the condenser outlet water chamber 4 is not full. Lumps can be removed by separators 9 and 10.
Further, as described above, the air separated by the separators 9 and 10 passes through the automatic air vent valves 11 and 12 and is discharged into the atmosphere.
As described above, when the condenser inlet water chamber 2 and the condenser outlet water chamber 4 are full, the separators 9 and 10 are submerged by the rise of the water level in the pipe, and the water in the pipe is automatically vented by the automatic air vent valves 11 and 12. When reaching, these valves are activated.
Therefore, a healthy condenser water chamber air venting operation can be performed without inducing a malfunction of these automatic air vent valves 11 and 12.

  In addition, although some embodiment of this invention was described, these embodiment is shown as an example and is not intending limiting the range of invention. These novel embodiments can be implemented in various other forms, and various omissions, replacements, and changes can be made without departing from the scope of the invention. These embodiments and modifications thereof are included in the scope and gist of the invention, and are included in the invention described in the claims and the equivalents thereof.

  DESCRIPTION OF SYMBOLS 1 ... Condenser, 2 ... Condenser inlet water chamber, 3 ... Condenser tube, 4 ... Condenser outlet water chamber, 5 ... Inlet water chamber water level meter, 6 ... Outlet water chamber water level meter, 7 ... Inlet Water chamber air vent tube, 8 ... Outlet water chamber air vent tube, 9, 10 ... Separator, 11, 12 ... Automatic air vent valve, 13 ... Air tank, 14, 15 ... Separator drain tube, 16 ... Drain tank, 17, 18 ... Air Actuating valve.

Claims (5)

A condenser water chamber air vent device used in a condenser having a condenser inlet water chamber provided on the cooling water inflow side and a condenser outlet water chamber provided on the cooling water outflow side,
An inlet water chamber air vent pipe connected to the top of the condenser inlet water chamber;
An air vent valve that is provided in the inlet water chamber air vent pipe and is closed during submergence;
Gas and liquid that are provided between the condenser inlet water chamber and the air vent valve, and flow into the inlet water chamber air vent pipe from the condenser inlet water chamber in a state where the condenser inlet water chamber is not full. Separating the separator,
A condenser water chamber air vent device comprising a separator drain pipe for discharging the liquid separated by the separator to the outside. An outlet water chamber air vent pipe connected to the top of the condenser outlet water chamber;
A second air vent valve that is provided in the outlet water chamber air vent pipe and is closed during submergence;
It was provided between the condenser outlet water chamber and the second air vent valve, and flowed from the condenser outlet water chamber into the outlet water chamber air vent pipe when the condenser outlet water chamber was not full. A second separator that separates gas and liquid and sends the separated gas to the outlet water chamber air vent pipe;
The condenser water chamber air venting device according to claim 1, further comprising a second separator drain pipe for discharging the liquid separated by the second separator to the outside.   A valve provided on the separator drain pipe and further closed when the condenser inlet water chamber becomes full and air is discharged from the condenser inlet water chamber. The condenser water chamber air venting device according to claim 1.   A valve provided on the second separator drain pipe for closing when the condenser outlet water chamber is full and air in the condenser outlet water chamber is discharged; The condenser water chamber air venting device according to claim 2, A condenser inlet water chamber provided on the cooling water inflow side and a condenser outlet water chamber provided on the cooling water outflow side, and connected to the top of the condenser inlet water chamber A condenser water chamber air vent control method applied to a condenser comprising a chamber air vent pipe and an air vent valve provided in the inlet water chamber air vent pipe and closed at the time of flooding,
Gas and liquid flowing into the inlet water chamber air vent pipe from the condenser inlet water chamber in a state where the condenser inlet water chamber is not full, are separated by a separator,
A condenser water chamber air venting control method, wherein the liquid separated by the separator is discharged to the outside through a separator drain pipe.