KR101424038B1 - Recovery system for cooling water reakage of coolant pump - Google Patents

Abstract

The present invention relates to a coolant recovery apparatus for a nuclear coolant pump. According to the present invention, at least one of the pump casing and the seal housing is provided with a drainage passage for collecting cooling water leaking into the drainage tank between the pump casing and the seal housing, so that even if the gasket provided between the pump casing and the seal housing is damaged, Can be collected into the reactor drainage tank through the drainage flow path, thereby preventing the coolant from leaking to the outside of the coolant pump and being exposed.

Description

TECHNICAL FIELD [0001] The present invention relates to a coolant recovery apparatus for a nuclear reactor coolant pump,

The present invention relates to a coolant recovery apparatus for a reactor coolant pump that prevents coolant from leaking out of a pump in a reactor coolant pump that supplies a coolant to a reactor.

Generally, nuclear power is the principle of heating the water with the energy generated from the reactor and using the generated steam to start the turbine generator. To this end, the nuclear power generator consists of a reactor that generates energy, a pump that circulates water, a steam generator that converts water into steam, and a pressurizer that controls the pressure and volume of the reactor coolant system. The reactor coolant system is equipped with a reactor coolant pump to circulate the coolant.

The reactor coolant pump is a heavy weight of about 150 tons or more. The reactor coolant pump is provided with a motor unit as a drive source on the upper side thereof and a pumping unit on the lower side thereof for pumping and circulating the coolant while being operated by the motor unit. The shaft of the motor unit (hereinafter referred to as the motor shaft) and the shaft of the pumping unit (hereinafter referred to as the pump shaft) are connected by a coupling and are configured to rotate simultaneously.

Here, the pumping unit consists of a vertical centrifugal pump having an impeller at its lower end, usually at high temperatures and pressures, e.g., 290.6 DEG C (555 DEG F) and 15.306 MPa (2200 psi) have.

The pumping unit of the reactor coolant pump as described above is supplied with sealing water from the charge pump of the chemical and volumetric control system at each stage of the three-stage seal during normal operation, and a part of the sealing water injected into the first- The bearing is cooled and lubricated and the seal water is recovered into the pump casing of the pumping unit through a gap between the impeller and the diffuser facing the impeller and a service seal.

At this time, when the function of supplying the sealing water is lost, the recirculation seal injection line is opened so that the reactor cooling water in the pump casing is recycled and supplied as the sealing water.

However, in the pumping unit of the conventional coolant pump as described above, the gasket is provided on the contact surface between the pump casing and the seal housing which is in sealing contact with the upper surface of the pump casing. However, if the gasket is damaged or the contact surface is damaged There is a possibility that the coolant pumped into the internal space of the pump casing leaks through the contact surface between the pump casing and the seal housing and is exposed to the outside.

Prior Art Document: Japanese Patent Application Laid-Open No. 10-1991-0014959.

It is an object of the present invention to provide a coolant recovery apparatus for a reactor coolant pump that can prevent coolant from leaking between contact surfaces between a pump casing and an actual housing.

In order to achieve the object of the present invention, there is provided a pumping apparatus comprising: a pump shaft coupled to a motor shaft; a pumping unit coupled to the pump shaft and having an impeller for pumping the coolant while rotating; And a sealing unit for supplying a sealing water between the pump shaft and a bearing water holding part for supporting the pump shaft, wherein the pump casing forming the pumping unit and the seal housing constituting the sealing unit are axially opposed to each other And a drain path for communicating with a contact surface between the pump casing and the seal housing so as to drain the coolant at the contact surface is formed on at least one of the seal housing and the pump casing. A coolant recovery apparatus may be provided.

At least one gasket may be provided on a contact surface between the pump casing and the seal housing, and at least one gasket may be disposed outside the drain passage.

Two gaskets may be provided on a plane at predetermined intervals, and the drainage passage may be formed to communicate with a space formed between the two gaskets.

A drainage groove may be formed on the surface corresponding to the end of the drainage passage so as to contain the coolant.

And the drainage passage may be connected to the inlet side of the sealing unit through a drainage line.

The coolant recovery apparatus for a reactor coolant pump according to the present invention is characterized in that at least either of the pump casing and the seal housing is provided with a drainage passage for collecting cooling water leaked between the pump casing and the seal housing into the drainage tank, Even if the gasket provided between the housings is damaged, the coolant can be collected into the reactor drainage tank through the drainage passage, and thus the coolant can be prevented from leaking to the outside of the coolant pump.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic diagram showing a configuration in which a sealing water is circulated and supplied in a reactor coolant pump according to the present invention;
FIG. 2 is a longitudinal sectional view showing a part of the reactor coolant pump according to FIG.
FIGS. 3 and 4 are enlarged vertical sectional views of the 'A' portion of FIG. 2, wherein FIG. 3 shows a case where there are a plurality of gaskets, and FIG.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a coolant recovery apparatus for a nuclear reactor coolant pump according to the present invention will be described in detail with reference to an embodiment shown in the accompanying drawings.

FIG. 1 is a schematic diagram showing a configuration in which a sealing water is circulated and supplied to a reactor coolant pump according to the present invention, and FIG. 2 is a longitudinal sectional view showing a part of a reactor coolant pump according to FIG.

As shown therein, the reactor coolant pump 1 according to the present embodiment includes a pumping unit 10 having a pump shaft 11 coupled to a motor shaft (not shown) to pump a coolant, a pump shaft 11 (Not shown) for supporting the pump shaft 11 and a bearing unit (not shown) for supporting the pump shaft 11.

2 and 3, the impeller 13 is rotatably installed inside the pump casing 12 and the impeller 13 is pumped to the discharge side of the impeller 13 through the impeller 13 A diffuser 14 may be provided to increase the pressure of the coolant.

The impeller 13 is integrally coupled to the pump shaft 11 by an impeller stud bolt 15 and a lower bearing 16 is formed on the lower end of the pump shaft 11 to form a bearing part. A service seal 17 for preventing the reactor coolant contained in the internal space of the pump casing 12 from flowing backward in the lower bearing direction may be fixedly installed between the impellers 13. The service chamber 17 may be installed such that its bottom surface is spaced apart from the upper surface of the impeller 13 by a predetermined gap.

The pump casing 12 is formed with an internal space 121 having a predetermined volume and a suction port 122 is formed at the lower end of the pump casing 12. The side surface of the pump casing 12 is connected to the coolant inlet of the reactor, The discharge port 123 may be formed. The inner space 121 of the pump casing 12 may be connected to a recirculation chamber injection line 257 of a sealing unit to be described later.

The sealing unit includes a seal housing 21 installed to be in contact with the pump casing 12 of the pumping unit 10 and surrounding the lower end of the pump shaft 11 as shown in Figs. 1 and 2, And a sealing water supply unit 25 penetratingly connected to the pump shaft 21 to supply sealing water to the outer circumferential surface of the pump shaft 11. The sealing water supply unit 25 may be formed in a plurality of stages along the axial direction of the pump shaft 11 (examples of the three stages are shown in the drawing).

The sealing water supply unit 25 includes an injection line 251 connected to a charging pump (not shown), a cooler 252 installed between the injection line 251 and cooling the sealing water, 251, 252, 253, 254, 252, 254, 252, 254, 252, 253, 254, 255).

Recoverable sealing lines 253 and 254 include a first stage sealing line 253 and a second stage sealing line 254 proximate to the pumping unit 10 with respect to the pumping unit 10, (255) may include a three-stage sealing line (255) that is furthest from the pumping unit (10) and closest to the motor. The two-stage sealing line 254 may be integrated with the three-stage sealing line 255 to form the drain line 256.

1, the pump casing 12 and the injection line 251 of the pumping unit 10 are connected to the recycle chamber injection line 257, and in the middle of the recycle chamber injection line 257, A recirculation valve 258 may be provided to selectively open and close the line.

The reactor coolant pump according to the present embodiment has the following operational effects.

That is, the sealing water supplied through the injection line 251 supports the pump shaft 11 and the pump shaft 11 through the first-stage sealing line 253 and the second-stage sealing line 254, So that the coolant of the pump casing 12 is prevented from leaking between the outer circumferential surface of the pump shaft 11 and the inner circumferential surface of the shaft water portion and lubricating action is performed so that the pump shaft 11 can smoothly rotate .

When a failure occurs in the injection supply passage including the injection line 251, the supply of the sealing water through the injection line 251 is stopped and the recirculation valve 258 is opened to open the inner space 121 of the pump casing 12 Is supplied to each of the sealing lines 253, 254, and 255 through the recycle chamber injection line 257.

At this time, a gasket is provided between the pump casing 12 of the pumping unit 10 and the seal housing 21 of the sealing unit. However, when the gasket is damaged, the coolant is supplied between the pump casing 12 and the seal housing 21 Can be leaked and exposed to the outside.

3, a drain path 211 is formed through the seal housing 21 so as to communicate with a space between both the gaskets 26 and 27, Even if the gasket provided between the pump casing 12 and the seal housing 21 is aged or damaged by recovering the coolant to be leaked between the casing 12 and the seal housing 21 by the charge pump, It is possible to prevent the coolant from leaking into the gap between the first and second openings 21.

The drainage passage 211 has a first drainage hole 211a penetrating in a radial direction of the threaded housing 21 and the other end connected to a reactor drainage tank (not marked) through a drainage line 212, And a second drain hole 211b penetrating from the other end of the first housing 211a to the bottom surface of the threaded housing 21. Thereby, a coolant to be leaked between the pump casing and the seal housing is recovered to the drain line 212 through the second drain hole and the first drain hole, and the coolant can be recovered through the injection line 251 to the charge pump.

The gasket insertion grooves 121 may be formed in the contact surfaces of the seal housing 21 and the corresponding pump casing 12 so that the gaskets 26 and 27 are inserted and fixed, respectively. The gasket insertion grooves 121 may be formed at predetermined intervals in the radial direction on the plane of the pump casing 12. [ A drainage groove 122 having a predetermined depth may be formed in the space between the gasket insertion grooves on the contact surface of the pump casing 12 so as to fill the coolant to be leaked to the outside. The drainage groove 122 may be formed such that the end of the second drainage hole 211b is correspondingly formed.

The end of the second drain hole 211b is formed to communicate with a space between the gaskets 26 and 27 when there are a plurality of the gaskets 26 and 27, It may be preferable that the gasket 27 is formed so as to communicate with the space between the pump casing 12 and the seal housing 21 inward.

Meanwhile, it is preferable that a drainage pump 213 is installed in the middle of the drainage line 212 to allow the coolant to be sucked through the drainage passage 211.

 In this way, even if the gasket provided between the pump casing and the seal housing is damaged, the coolant is discharged to the outside of the coolant pump by discharging the coolant to the charge pump by the drain passage communicating with the contact surface between the pump casing and the seal housing. So that it can be prevented from being exposed.

12: Pump casing 121: Gasket insertion groove
122: drainage groove 13: impeller
21: Actual housing 211:
211a: first drain hole 211b: second drain hole
26,27: Gasket

Claims (5)

A pump shaft coupled to the motor shaft; a pumping unit coupled to the pump shaft and having an impeller for pumping the coolant while rotating; And
And a sealing unit for supplying a sealing water between the pump shaft and a bearing part for supporting the pump shaft,
Wherein a pump casing constituting the pumping unit and an actual housing constituting the sealing unit are installed so as to face each other in the axial direction,
Wherein a drain path for communicating with the contact surface between the pump casing and the seal housing and discharging the coolant on the contact surface is formed on at least one of the seal housing and the pump casing. Recovery device. The method according to claim 1,
At least one gasket is provided on a contact surface between the pump casing and the seal housing,
And at least one gasket is disposed on the outer side of the drainage flow path. 3. The method of claim 2,
Wherein the two gaskets are installed on a plane at a predetermined interval, and the drainage passage is formed to communicate with a space formed between the two gaskets. The method of claim 3,
And a drain groove is formed on a surface of the drainage passage corresponding to the end of the drainage passage so that the coolant can be contained therein. 5. The method according to any one of claims 1 to 4,
Wherein the drainage passage is connected to an inlet side of the sealing unit through a drainage line.

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