KR101406715B1 - Apparatus and method for testing in-vessel downstream effects of a pressurized water reactor - Google Patents

Abstract

The purpose of the present invention is to provide an in-core downstream effect test device of a pressurized water reactor, for shortening time to remove foreign substances, increasing foreign substance removing efficiency and removing foreign substances in a test loop, and a method thereof. The in-core downstream effect test device of the pressurized water reactor according to the present invention to achieve the above purpose comprises a test volume part in which a simulated nuclear fuel assembly is installed; a foreign substrate mixing tank used for mixing the foreign substance by inputting the foreign substrate in the test volume part; a circulation pump circulating a fluid discharged from the foreign substance mixing tank; a flowmeter installed on the circulation pump; and a circulation loop connecting the foreign substance mixing tank, the circulation pump, and the flowmeter, wherein an air inlet is installed on the outer surface of the test volume part.

Description

Technical Field [0001] The present invention relates to an apparatus and a method for testing a downstream effect in a pressurized light water reactor core,

The present invention relates to an apparatus and a method for testing a downstream effect in a pressurized light water reactor core, and more particularly, to an apparatus and method for testing a downstream effect in a pressurized light water reactor core, particularly when foreign substances generated in a cold water reactor accident pass through a filter, The present invention relates to an apparatus and method for testing a downstream effect in a pressurized light water reactor core.

The cooling water injected into the reactor core through the emergency core cooling system after the loss of the coolant in the reactor building or sprayed through the reactor building sprinkler system is collected in the reactor building recirculation water collecting tank and this water is again supplied to the aspiration source of the emergency core cooling system pump Is used.

Generally, a filter is installed in the recirculation water collecting tank to protect the emergency core cooling system equipment from recirculation operation from various foreign matter generated in a virtual pipe breakage accident such as a coolant loss accident and moved to the reactor building recycling water collecting tank.

Various foreign substances generated in the event of a virtual pipe breakage and transferred to the reactor building recirculation water collecting tank are filtered by this filter, but small foreign matters smaller than the filter mesh size are deposited in the downstream core area through the filter, It can affect your ability.

Tests are required to evaluate the influence of foreign substances in the core due to the loss of coolant. Tests are performed using fiber type, particle type, and compound foreign matter, and varying foreign matter composition and flow rate.

After each test, it is necessary to remove the foreign substance used in the test from the test facility. After the foreign substance is removed, the degree of foreign substance removal is evaluated by checking the value of the foreign substance.

Conventional debris removal process usually takes more than 6 hours, and it takes much effort to separate the simulated fuel assemblies used in the test from the test flow path.

In addition, when the simulated nuclear fuel assembly is washed without being separated from the test flow path, the efficiency of removal of foreign matter may be lowered so that the test reproducibility may not be ensured.

Patent Registration No. 10-1125315 (Mar. 27, 2012)

SUMMARY OF THE INVENTION Accordingly, the present invention has been made in order to solve the above-mentioned problems, and it is an object of the present invention to provide a nuclear fuel assembly which does not separate a simulated nuclear fuel assembly from a test loop and injects air from a lower portion of the specimen, By moving the aggregate up and down using a crane, it is possible to shorten the removal time of foreign substances, increase the efficiency of removing foreign substances, and install a foreign matter filtering net at the outlet of the pipeline where the fluid enters the foreign matter mixed water tank when removing foreign matter after the test. And to provide a downstream effect test apparatus and method in a pressurized light water reactor core.

In order to accomplish the above object, the apparatus for testing the downstream effect in a pressurized light water reactor core according to the present invention comprises a test body equipped with a simulated fuel assembly, a foreign matter mixed water tank used to mix and feed foreign substances into the test body, A circulation pump for circulating the fluid discharged from the circulation pump, a flow meter installed in the circulation pump, a circulation loop for connecting the circulation pump and the flow meter, And an air inlet is provided in the air inlet.

In order to attain the above object, the present invention provides a method for testing a downstream effect in a pressurized light water reactor core, comprising the steps of: switching an upstream flow sorting valve direction of a circulation loop to a downstream flow path Closed, valves 6 and 7 open); Lowering the water level of the foreign matter mixed water tank and installing a foreign matter filtering net on the circulating loop outlet pipe; Operating the circulation pump and circulating the fluid in a downward flow; Switching the direction of the downward flow sorting valve back to the upward flow passage after a predetermined time (valves 6 and 7, 5 and 8 are opened); Opening a flange on the upper portion of the test body and installing a crane on the simulated nuclear fuel assembly; Injecting air into the air inlet of the lower portion of the specimen while moving the simulated nuclear fuel assembly up and down; Injecting the fluid from the lower portion of the test body and filling the upper portion simultaneously with the air injection; Sequentially injecting air into an air inlet provided on a slope of a test body to remove foreign matter after a predetermined time; Final washing using externally supplied water; Filling the test channel with fluid and measuring the pressure difference to confirm the reproducibility of the initial pressure difference.

INDUSTRIAL APPLICABILITY As described above, the apparatus and method for testing the downstream effect in a pressurized light water reactor core according to the present invention have the following effects.
First, according to the present invention, air is injected from the lower portion of the test body without separating the simulated fuel assembly from the test loop during the downstream effect test in the pressurized light water reactor core, a flange is provided at the upper portion of the test body portion to open the simulated nuclear fuel assembly, By performing the up-and-down movement, it is possible to shorten the time for removing foreign substances and improve the efficiency of removing foreign substances.

Second, the present invention has the effect of reducing the labor cost by reducing the test period and increasing the reliability of the test result by securing test reproducibility.

1 is a schematic view showing an apparatus for testing a downstream effect in a pressurized light water reactor core according to the present invention,
2 is a view showing an example of the position of an air inlet provided on a lower wall of a test body of a pressurized light water reactor core downstream effect testing apparatus according to the present invention,
3 is a view showing an alien substance filtering net installed in an outlet pipe of a test loop when foreign matter is removed after testing of a downstream effect testing device in a pressurized light water reactor core according to the present invention.

Although the present invention can be suitably applied to the core-downstream effect test of Westinghouse type and Pramatom type nuclear power plants, the present invention will be described in detail below with reference to the accompanying drawings. Explain.

The present invention is described with reference to an upward flow test in which a test loop is configured to allow both upflow and downflow but the most restrictive result is obtained.

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

1 is a schematic view showing an apparatus for testing a downstream effect in a pressurized light water reactor core according to the present invention.

As shown in this figure, the downstream effect testing apparatus (A) of the pressurized light water reactor core according to the present invention is provided with a test fixture part (1) provided with a simulated fuel assembly and a test device A circulation pump 3 for circulating the fluid discharged from the foreign matter mixed water tank 2; a flow meter 4 installed in the circulation pump 3; And a circulation loop 20 connecting the foreign matter mixed water tank 2 with the circulation pump 3 and the flow meter 4. An air inlet 21 is formed on the outer surface of the test body 1, Respectively.

Here, the test body part 1 opens the upward flow sorting valve 5 and sets the downward flow sorting valve 6 and the downward flow sorting valve 7 closed when the upward flow setting is performed from the bottom.

The outer surface of the test fixture part 1 is made of transparent acrylic and is made visible so that a flange 9 is provided on the test fixture part 1 so that it can be opened when the foreign substance is removed after the test.

The foreign matter mixed water tank 2 is made of transparent acrylic and the lower part of the foreign matter mixed water tank 2 is formed into a cone shape having an inclined angle in order to prevent foreign matter from being deposited on the bottom of the mixed water tank 2.

The fluid mixed with the foreign substance is discharged through the circular outlet of the middle of the bottom surface of the foreign matter mixed water tank (2).

A cooler 13 and an electric heater 14 are installed in the foreign matter mixed water tank 2 for controlling the temperature and an agitator 15 for mixing the foreign matter with water is provided.

The circulation loop 20 comprises a circulation pump 3, and a pipe capable of upward flow and downward flow.

Here, the circulation pump 3 is connected to the inverter so that the flow rate can be controlled by the control system.

The pipe 22 is made of a stainless steel pipe and a flow meter 4 is installed in a region connecting the rear end of the circulation pump 3 and the test body 1.

When the fluid flows downward, the upward flow sorting valve 5 and the upward flow sorting valve 8 are closed and the downward flow sorting valve 6 and the downward flow sorting valve 7 are opened and aligned.

On the other hand, after the completion of the test, the fluid is transferred to the waste water storage tank 12.

FIG. 2 is a view showing the position of the air injection port installed on the bottom wall of the test body of the downstream effect test apparatus in the pressurized light water reactor core according to the present invention.

Here, the air inlet 21 is installed at an outer surface 50 mm above the lower grid of the simulated fuel assemblies in the test body 1, and three holes are drilled on one side thereof. Install it.

The number of the air inlets 21 is set to be at least twelve and the number of the air inlets 21 may be greater than the number of the air inlets 21. However, do.

On the other hand, air is injected by using the air compressor 11 shown in Fig.

3 is a view illustrating an alien substance filtering net installed in an outlet pipe of a test loop when foreign substances are removed after testing of the downstream effect testing device in a pressurized light water reactor core according to the present invention.

Here, during the test, the level of the foreign matter mixed water tank 2 is at a position where the circulation loop outlet pipe 10 is locked by 200 mm or more.

Therefore, in order to install the foreign matter filtering net 31, the level of the foreign matter mixed water tank 2 is lowered by about 300 mm under the initial condition, and then the foreign matter filtering net 31 is installed.

The downstream effect testing device A of the pressurized light water reactor core according to the present invention having the above-described configuration is provided with an air inlet 21 provided on the outer surface of the test body 1 at a position 50 mm from the lower grid of the simulated nuclear fuel assembly upward And the foreign matter filtering net 31 is provided on the outlet pipe 10 of the circulating loop 20 to easily remove the foreign substances used in the test.

Hereinafter, the downstream effect test in the pressurized light water reactor core according to the present invention having the above-described configuration will be described.

The downstream effect test method in the pressurized light water reactor core according to the present invention is important in the process of removing the foreign substance from the test facility after the completion of the test in order to ensure test reproducibility. Switching the direction of the upward flow sorting valves 5, 8 to the downward flow path (valves 5 and 8, 6 and 7); Lowering the level of the foreign matter mixed water tank (2) and installing a foreign matter filtering net (31) in the circulating loop outlet pipe (10); Operating the circulation pump (3) and circulating the fluid in a downward flow; Switching the directions of the downward flow sorting valves 6 and 7 back to upward flow channels after a predetermined time (valves 6 and 7, 5 and 8 are opened); Opening a flange (9) above the test body part (1) and installing a crane on the simulated nuclear fuel assembly; Injecting air into the lower air inlet (21) of the test body (1) while moving the simulated nuclear fuel assembly up and down; Injecting a fluid from the lower part of the test body 1 and filling it to the upper part simultaneously with air injection; Sequentially injecting air into the air inlet (21) provided on a slope of the test body part (1) after a predetermined time to remove foreign matter; Final washing using externally supplied water; Filling the test channel with fluid and measuring the differential pressure to check the reproducibility of the initial differential pressure.
That is, according to the present invention, the downstream effect test method in the pressurized light water reactor core changes the direction of the upward flow sorting valves 5, 8 of the circulation loop 20 to the downstream flow path And No. 8 valve closing, No. 6 and No. 7 valve opening); The water level of the foreign matter mixed water tank 2 is lowered and the foreign matter filtering net 31 is installed in the circulation loop outlet pipe 10 to operate the circulation pump 3 to circulate the fluid downward, The flange 9 above the test fixture 1 is opened and the flow of the simulated nuclear fuel 6 and 7 is switched again to the upward flow path (valves 6 and 7 are closed, valves 5 and 8 are opened) (1), air is injected into the air inlet (21) at the lower part of the test body (1), the fluid is injected from the lower part of the test body (1) After a certain period of time, air is sequentially injected into the air inlet (21) installed on the slope of the test fixture (1) to remove foreign matter. Finally, the test channel is filled with the fluid and the differential pressure As a result, In the downstream effect test in the pressurized light water reactor core, air is injected from the lower part of the test body without separating the test fuel assembly from the test loop, and a flange is provided at the upper part of the test body part to open the simulated nuclear fuel assembly. Up and down movements to reduce the foreign matter removal time, increase the efficiency of foreign matter removal, reduce the labor cost by reducing the test period, and improve the reliability of the test results by securing test reproducibility.

The present invention is not limited to the variations shown in the drawings, but may be extended to other embodiments falling within the scope of the appended claims.

1: Experimental part 2: Foreign matter mixing water tank
3: circulation pump 4: flow meter
5: Upflow Sorting Valve 6: Downflow Sorting Valve
7: Downflow Flow Sort Valve 8: Upflow Flow Sort Valve
9: Flange 10: Loop exit
11: air compressor 12: waste water storage tank
20: circulation loop 21: air inlet
22: Piping 31: Foreign matter filter net

Claims (5)

(2) which is used to mix and feed a foreign substance into the test body part (1), and a circulation system for circulating the fluid discharged from the foreign matter mixed water tank (2) A flow meter 4 installed in the circulation pump 3, a test body 1, a foreign matter mixed water tank 2, a circulation pump 3 and a flow meter 4 And an air inlet (21) is provided on an outer surface of the test body part (1). delete The method according to claim 1,
The air inlet 21 is installed at an outer surface 50 mm above the lower grid of the simulated nuclear fuel assembly in the test fixture 1 and has three holes perforated at one side thereof and at 70 mm from the center thereof, Downstream effect test equipment in pressurized light water reactor core. The method according to claim 1,
Wherein a foreign matter filtering network (31) is installed in the loop outlet pipe (10) of the circulation loop (20). Switching the direction of the upward flow alignment valves 5, 8 of the circulation loop 20 downwardly (5th and 8th valve closing, 6th and 7th valve opening) during removal of impurities from the test facility;
Lowering the level of the foreign matter mixed water tank (2) and installing a foreign matter filtering net (31) in the circulating loop outlet pipe (10);
Operating the circulation pump (3) and circulating the fluid in a downward flow;
Switching the directions of the downward flow sorting valves 6 and 7 back to upward flow channels after a predetermined time (valves 6 and 7, 5 and 8 are opened);
Opening a flange (9) above the test body part (1) and installing a crane on the simulated nuclear fuel assembly;
Injecting air into the lower air inlet (21) of the test body (1) while moving the simulated nuclear fuel assembly up and down;
Injecting a fluid from the lower part of the test body 1 and filling it to the upper part simultaneously with air injection;
Sequentially injecting air into the air inlet (21) provided on a slope of the test body part (1) after a predetermined time to remove foreign matter;
Final washing using externally supplied water;
Filling the test channel with a fluid and measuring a differential pressure to confirm the reproducibility of the initial differential pressure.

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