KR100776991B1 - Crud sample collecting apparatus - Google Patents

Abstract

In the apparatus for collecting the fuel sample of the nuclear fuel rod, it is composed of a clad sampling chamber unit 100 and a clad sample collection unit 200, the clad sampling chamber unit 100 is a chamber 140, chamber An upper guide flange 110 attached to the upper end of the 140 to allow fuel rods to enter the crude sampling chamber portion 100, a scraper portion 130 positioned at an interruption of the chamber 140 to collect the crads, and a chamber. Attached to the bottom of the 140 is a clad sampling device consisting of a lower guide flange 120 for discharging the fuel rod into the rack to facilitate the sampling of the components of the crad, and does not damage the fuel rod In addition, sampling can be performed without impairing the operating efficiency of the reactor.

Clad, Nuclear Fuel Rod

Description

CRUD SAMPLE COLLECTING APPARATUS}

1 is an overall view of the present invention

2A is a perspective view of the chamber 140 of the clad sampling chamber portion 100.

2B is a perspective view of the upper guide flange 110 of the crude sampling chamber portion 100.

2C is a perspective view of the scraper portion 130 of the crad sampling chamber portion 100.

2D is a perspective view of the lower guide flange 120 of the clad sampling chamber portion 100.

* Explanation of symbols for main parts of the drawings

100: clad sampling chamber 110: upper guide flange

120: lower guide flange 130: scraper portion

131: scraper support 132: scraper

133: cylinder 140: chamber

145: open window

200: sample sample collection unit 210: hose

220: pump 230: filter

300: camera stand 400: rack guide spacer

500: base plate 600: handling support

The present invention relates to a clad sample collection device that is a corrosion deposit accumulated on a fuel rod surface.

In nuclear power plants, corrosion products accumulate due to corrosion on various piping or fuel rod surfaces in the reactor. These corrosion products are called CRUD (Calk River Unidentified Deposit).

The cracks are known to be caused by corrosion deposits or boron dissolved in cooling water from the components of the primary system in the furnace.These cracks are very high in radiation and accumulate on the surface of the nuclear fuel rods. In addition, the vertical output deviation (AOA: axial offset anomaly or CIPS: crud induced power shift) may exceed the limit, leading to premature shutdown of the plant, and costly in terms of operating efficiency.

Because of the above problems, eliminating and reducing the crude yields desirable results in plant safety, efficiency and cost. Therefore, research on reducing the crude oil has become an important concern in the operation of nuclear power plants.

In order to reduce such a need, it is necessary to accurately identify the cause and components of the demand. However, there are differences in causes and components of plants in each plant. Therefore, for accurate component analysis, it is necessary to take samples and analyze the components.

In the past, a method of removing the surface crude of the outer fuel rod from the fuel assembly by using a grinding wheel or the like has been used. However, in this case, it is difficult to decontaminate the crude attached to the whetstone.

In addition, the method of using the chemical means, the method using the electromagnetic method, etc. are used as the method of removing the clad. However, even in such a method, there is a drawback in operating efficiency, such as concern about contamination in the furnace and the operation is stopped or the operation is reduced.

The present invention seeks to drastically improve the points that have been a problem in the prior arts. Therefore, the object is to quickly remove the creed from the credential removal tool upon removal of the credential.

In addition, the purpose of the present invention is to improve the convenience and safety of the work by providing a device for collecting the sample without affecting the operation of the reactor by removing the accumulated fuel on the surface of the spent fuel rod without damaging the fuel rod.

It is also an object of the present invention to observe the removal of the clad sample and to secure the analysis that causes the generation of the clad.

The overall shape of the present invention is shown in FIG.

In the preferred embodiment of the present invention, if only the most basic configuration, the present invention is composed of the crude sampling chamber unit 100 and the crude sample collection unit 200, the interruption of the crude sampling chamber unit 100 The hose 210 is connected, and the hose 210 is connected to the clad sample collecting unit 200.

The crude sampling chamber unit 100 is shown in detail in Figures 2a to 2d. The clad sampling chamber part 100 is composed of a chamber 140, guide flanges 110 and 120 coupled to the upper and lower parts of the chamber 140, and a scraper part 130 positioned at the middle of the chamber 140.

2A to 2D, the details of the crude sampling chamber 100 are illustrated.

As shown in FIG. 2A, the chamber 140 surrounds the side surface of the crad sampling chamber part 100 with the guide flanges 110 and 120 up and down to prevent scattering of the crads during water removal. have.

The side surface of the chamber 140 was made to face the position of the camera stand 300 by making an open window 145 to observe the removal process with the camera. By the window 145, the clad sampling device can also be utilized as a precise visual inspection of the fuel rods. In addition, the window 145 facilitates the introduction of water into the clad sampling chamber 100 so that the device is located in the water.

As shown in FIG. 2B and FIG. 2D, each of the guide flanges 110 and 120 has a structure in which discs having different diameters are stacked in multiple stages in a diameter order, and the fuel rod may enter and exit the circular entrance at the center thereof.

In particular, in the case of the upper guide flange 110 in Figure 2b is in the form of a funnel to facilitate the inflow of fuel rods from the top to the inside. The upper surface of the upper flange 110 is designed to coincide with the inclination of the fuel rod handling tool (not used to prevent the risk of radioactive contamination as a device for moving the fuel rod into the fuel storage tank), which holds the fuel rod to be sampled. The fuel rods were stably seated on the clad sampling chamber 100.

Basically, when the fuel rod is placed on the clad sampling chamber part 100 to be stored as a rack, it is removed as it goes down, but the inner mast (a device inside the fuel rod handling tool is separately shown to prevent incomplete removal of the credential). If you do not move) up and down manually, the nuclear fuel rod is better friction with the scraper portion 130 helps to remove the cradle.

In addition, although not necessarily limited, it is preferable that three rollers disposed at a conformal angle of 120 ° are attached to the entrances and exits of the guide flanges 110 and 120 to facilitate the entry and exit of the fuel rods. These guide flanges 110 and 120 support the fuel rods to reduce the wobble of the fuel rods and guide the fuel rods through the proper path.

As shown in FIG. 2C, the scraper unit 130 may include a scraper 132 for removing the cradle by friction with the fuel rod, a scraper support 131 for fixing the scraper unit 130 with the chamber 140, and a scraper 132. It consists of a cylinder portion 133 made of a combination of the air cylinder and the spring to friction with the fuel rod.

The scraper 132 preferably uses a zirconium alloy steel of the same material as the fuel rod to protect the surface of the fuel rod. The shape of the scraper 132 is preferably formed of a curved surface in a shape surrounding the fuel rod to effectively remove the cradle from the surface of the fuel rod without damaging the fuel rod.

In addition, the cylinder portion 133 was combined with the air cylinder and the spring to adjust the scraper 132 by adjusting the appropriate force. The combination is pressurized by the air cylinder so that the scraper 132 can operate in close contact with the fuel rod, and when the fuel rod is absent or the scraper 132 does not remove the crad, the pressure of the air cylinder decreases and thus the restoring force of the spring is reduced. As a result, the scraper 132 is retracted and positioned.

However, the present invention is not limited to the air cylinder. Nevertheless, it is desirable to employ an air cylinder instead of an electric motor in order to prevent the risk of leakage and to operate smoothly even when the work is performed at a depth of 10 meters underwater.

The scraper 132 is coupled to one end of the cylinder portion 133 and moves as the cylinder moves forward and backward, and the cylinder portion 133 is coupled to the scraper support 131 and fixed to the chamber 140.

The clad sample collector 200 is composed of a hose 210, a pump 220, and a filter 230. As shown in FIG. 1, the scattered particles from the crude sampling chamber 100 of the present invention are moved to the crude sample collecting unit 200 using the pump 220 through a hose 210 connected to the chamber. .

The hose 210 is a suction port is in close proximity to the scraper 132, and sucks the crads scattered by the scraper 132 in a vacuum suction method. The crumb moved through the hose 210 passes through the filter 230 and the water is recovered to the water tank again, and the crumb is collected in the filter 230.

In addition, the filter is installed in a filter cartridge in which six filters can be mounted, and each filter cartridge is preferably designed to be easily removable by a nipple connected to a hose, but is not necessarily limited thereto.

Another embodiment of the present invention includes components added to the above basic configurations.

The camera stand 300 may be installed beside the clad sampling chamber part 100. Camera stand 300 is a mechanism that can be built in the camera and the lighting device is cylindrical and can be opened and closed in the axial direction. Inside the radiation-resistant underwater camera and lighting device is installed can observe the removal process through the window 145 of the chamber.

The rack sampling spacer 400 connected to the lower flange 120 of the crad sampling chamber part 100 is attached to the cradle sampling device of the present invention with the base plate 500 interposed therebetween.

The function of the rack guide spacer 400 is to safely seat the nuclear fuel rods coming from the lower flange 120 of the crude sampling chamber part 100 on the fuel storage rack in the power plant, and the fuel rods to be removed are up and down When moving, it serves to prevent damage to the fuel rods. A rack is a space where fuel rods are stored in a reservoir.

In the present invention, the clad sampling chamber 100, the camera stand 300, the rack guide spacer 400, and the handling support 600 are fixed above and below the base plate 500 as shown in FIG. 1.

The base plate 500 is a rectangular metal plate positioned between the clad sampling chamber part 100 and the rack side spacer 400. The upper surface of the base plate 500 is attached to the clad sampling chamber unit 100, the camera in a position facing the open window 145 at the interruption of the chamber 140 of the clad sampling chamber unit 100 The camera stand 300 is attached to the upper surface of the base plate 500 so that the stand 300 is located.

 The base plate 500 is a rectangular plate for fixing the above devices, it is preferable to be made of aluminum plate to reduce the weight of the cradle sampling device.

In the present invention, in order to facilitate the installation and movement of the device using a crane, as shown in Figure 1 cylindrical supporters are attached to each of the four corners of the upper base plate 500, the reinforcement between each support Are connected to each other.

Each support is vertically attached to the base plate 500, connected to each other with reinforcement bars, the support and the reinforcement are attached to be axially perpendicular to each other, and each reinforcement is placed to be perpendicular to each other.

The handling support 600 is composed of the support and the reinforcing bar. Hook the crane to the support of the device of the present invention, place the device on a rack of the reservoir, use a fuel rod handling tool to bring the spent fuel rods to the reservoir, place the fuel rod on the device of the present invention and place the upper guide flange (110). When the fuel rod is inserted into the fuel rod, the fuel rod passes through the scraper part 130, and the crad is removed and comes out through the lower guide flange 120 to be seated in the rack by the rack guide spacer 400.

In the above invention, the sample sampling for analyzing the components of the clad is facilitated by the clad sampling chamber part 100 and the clad sample collecting device part 200.

In addition, the waste fuel rod is placed on the rack at the same time, and the scraper 132 is made of zirconium alloy steel, which is the same material as the fuel rod, so that the fuel rod is not damaged and the sample can be sampled without impairing the operating efficiency of the reactor. It also reduces the risk of contamination by radioactivity.

In addition, it is possible to observe the process of removing the crads during the sampling process through the camera stand 300, and the removal of the crads in the process of inserting the waste fuel rods in the rack, it is not necessary to separate the process to facilitate the collection of the cradle.

Claims (10)

In the apparatus for collecting the fuel sample of the nuclear fuel rod, it is composed of a clad sampling chamber unit 100 and a clad sample collection unit 200, the clad sampling chamber unit 100 is a chamber 140, chamber An upper guide flange 110 attached to the upper end of the 140 to allow fuel rods to enter the crude sampling chamber portion 100, a scraper portion 130 positioned at an interruption of the chamber 140 to collect the crads, and a chamber. Attached to the bottom of the 140 is a sampling device consisting of a lower guide flange 120 for discharging the fuel rod into the rack (rack) The apparatus of claim 1, wherein a part of the curved surface of the chamber 140 is an open window 145, and a camera sample 300 is installed at a position facing the window 145. The apparatus of claim 1, further comprising a rack guide spacer 400 connected to a lower portion of the crad sampling chamber part 100 and configured to seat a fuel rod in a rack. According to any one of claims 1 to 3, wherein the scraper 130 is a scraper 132, a scraper support 131 for fixing the scraper 130, an air cylinder for adjusting the scraper 132 and A clad sample collection device comprising a cylinder portion 133 that is a combination of springs The apparatus of claim 4, wherein the scraper 132 uses zirconium alloy steel made of the same material as the fuel rod. 4. The clad according to claim 1, wherein the clad sampling chamber part 100 is attached to the base plate 500, and the base plate 500 is made of aluminum. Sample collection device The method according to claim 6, wherein the support is built on each of the four corners of the upper base plate 500, the handling support 600 consisting of a reinforcement for connecting between the support is attached to the sample sampling device The apparatus of claim 1, wherein a guide roller is attached to the fuel rod inlet and outlet of the upper guide flange 110 and the lower guide flange 120. The apparatus of claim 8, wherein the rollers are three rollers arranged at an angle of 120 degrees. The apparatus of claim 2, wherein the chamber sampling unit has a rack guide spacer 400 connected to a lower portion of the chamber sampling chamber 100 in which the chamber 140 is located and seating the fuel rods in a rack.

Images