SK280733B6 - Device for holding down a set of fuel rods - Google Patents

Abstract

Disclosed is a device for holding down a set of fuel rods (1), which set consists of aligner bars (5) arranged among the fuel rods (1), whilst each of the aligner bars (5) is provided with a portion to accommodate a retaining plate (13). The retaining plate (13) has orifices (15) to afford the flow of coolant. The device is further provided with a retaining ring (21) that is adjusted to attach said etaining plate (13) to said aligner bars (5) by single movemenmt.

Description

The invention relates to an apparatus for holding nuclear fuel rods in an assembly comprising adjustment rods disposed between fuel rods, each adjustment rod having a retaining plate receiving portion, and a retaining plate for positioning on portions of the adjusting rods for receiving the retaining plate, wherein the retaining plate is equipped with openings to allow coolant flow. Such an arrangement may be part of a so-called "upper nozzle" for such an assembly.

BACKGROUND OF THE INVENTION

The fuel rods are usually held together in an assembly that forms the core of the nuclear reactor. The fuel itself is usually located within the outer casing of each fuel rod. In the operation of the nuclear reactor, the fuel rods are hot and have an increased volume and the coolant usually passes around them in an upward flow. An arrangement known as an upper nozzle is attached to the fuel rod assembly at its upper end and is intended to hold the fuel rods in position in said assembly, particularly during operation of the nuclear reactor. The upper nozzle also directs the coolant flow out of the assembly, is provided with elements for handling the assembly, and is provided with a shroud tube location, usually around the entire assembly.

SUMMARY OF THE INVENTION

The drawbacks of the known embodiment are overcome by a nuclear fuel rod retaining device in an assembly comprising adjusting rods disposed between fuel rods, each adjusting rod having a retaining plate receiving portion, and a retaining plate for placement on the retaining plate portion of the retaining plate, wherein the retaining plate it is provided with coolant flow openings according to the invention, further comprising a retaining ring adapted to attach the retaining plate to the adjusting rods in a single rotary motion.

The adjusting rods may be tubular rods through which the coolant / moderator flows during operation of the nuclear reactor.

Typically, the retaining plate receiving portions may be formed by a protrusion or head with a pin-like end.

The retaining plate is preferably provided with a plurality of holes, each of which is flush with the free end in the form of a guide pin of a projection of a corresponding adjusting rod, the retaining plate abutting a shoulder provided at the end of each guide pin.

The retaining plate may form part of the mountable upper nozzle.

The retaining ring may be provided with apertures which comprise a positioning portion adapted to be freely positioned on the guide pins of the adjusting rods, the apertures having a portion adapted to engage the projection. For example, each adjusting rod may be provided with an annular groove on its projection to facilitate this engagement, the aperture engaging region being a narrower portion than the positioning portion.

The retaining plate may be provided with a recess in which the retaining ring is placed, the surface of the retaining plate being substantially flush with the surface of the retaining ring when the retaining ring is located in the recess of the retaining plate.

The retaining ring preferably has a central hollow region and may be provided with a plurality of angled portions forming the retaining tongues when the retaining ring is disposed in a recess in the retaining plate and when engaged to engage the retaining plate to the adjusting rods, for gripping the retaining plate in a recessed portion thereof. The retaining plate may be provided with engagement points with retaining tabs.

The retaining ring consists of a ring provided with a plurality of apertures formed within its body, the bent portions projecting inwardly from the inner edge of the body of the retaining ring.

The retaining plate may be provided with a plurality of finger-shaped coolant through holes larger in length toward the outer edge of the retaining plate. The openings extend substantially parallel to the adjacent outer edge of the retaining plate.

The retaining plate may be connected to other components which together with it form a so-called "upper nozzle" when the nuclear reactor is operating. For example, the connection may be made at the outer edge of the retaining plate. The other components of the upper nozzle may be detachable from the retaining plate or may be permanently attached thereto, for example by welding. The upper nozzle is separable from the rest of the fuel assembly by means of a device according to the invention.

The device according to the invention allows a simple and quick locking in a given position or the release of the retaining plate and the upper nozzle components attached thereto. For example, if it is necessary to replace one or more of the fuel rods in the assembly after some time of operation and during normal shutdown of the nuclear reactor, the fuel rods may be removed after a rapid separation of the holding plate and the upper nozzle.

The fuel assembly is formed in a device whose hexagonal outer sides are in cross-section and is intended for use, for example, in so-called VVER-type reactors in Eastern Europe. The retaining plate also has a hexagonal shape corresponding to the shape of the fuel assembly. The fuel rods may be positioned, for example, in a series of hexagonal spacer bars. One such spacer grid is described, for example, in GB-A-4,950,519. 9303452.3. The entire fuel rod assembly is encased by a hexagonal outer outer tube at the ends of the fuel rods at the retaining plate.

It has been found that six adjusting rods can replace fuel rods in such an assembly, and these adjusting rods can advantageously be located in radial intermediate positions between the center axis of the assembly and the outer edge of the retaining plate in its six corners. In these water-crossing positions, the moderator to fuel ratio is increased and the same overall cycle cycle energy is unexpectedly achieved as in a conventional fuel rod only configuration without adjusting rods. Thus, much more efficient use of fuel is achieved without any enrichment, thereby reducing the fuel requirement for each reactor by about 5% and substantially reducing production costs, storage, handling and fuel costs.

SK 280733 Β6

BRIEF DESCRIPTION OF THE DRAWINGS

BRIEF DESCRIPTION OF THE DRAWINGS The invention will now be described in more detail with reference to the accompanying drawing, in which: FIG. 1 is a cross-sectional view of the holding plate and holding device along line I-I of FIG. 2 and FIG. 2 shows a longitudinal section along line II-II with the retaining plate and retaining device of FIG. First

DETAILED DESCRIPTION OF THE INVENTION

As shown in FIG. 1 and 2, the fuel rod assembly 1 for a VVER reactor is arranged in a hexagonal configuration within the hexagonal outer tube 3. Six fuel rods 5 are disposed in the fuel rod assembly 1. The fuel rods 5 are provided instead of some fuel rods 1 at approximately middle means. between the center of the assembly and its six peaks. Each adjusting rod 5 consists of a tube having an inlet and an outlet (not shown) so that water can pass through them in the upward direction when the nuclear reactor is operating. Each adjusting rod 5 is provided with a shoulder 7 and a guide end 9 in the form of a guide pin. This guide end 9 is provided with an annular groove 11. To the guide ends 9 of the six adjusting rods 5 is attached a retaining plate 13 which abuts on the shoulder 7 of each adjusting rod 5. The retaining plate 13 is provided with a series of longitudinal through holes 15 parallel to the sides neighboring hexagon. The upper nozzle 17 is welded to the retaining plate 13 by means of welds 19. The retaining plate 13 is secured to the adjusting rods 5 by retaining rings 21. The retaining ring 21 is received in the first recess 22 in the upper surface of the retaining plate 13 so that the upper surface of the retaining ring 21 is Along with the upper surface of the retaining plate 13. The retaining ring 21c is provided with six apertures 25, each consisting of a wider portion 25a and a narrower portion 25b.

For adjustment, the circlip 21 is first loosely inserted into the wider portion 25a at the guide ends 9 of the adjusting rods 5. Then, the circlip 21 is rotated counterclockwise (see FIG. 1) until the annular groove 11 of each adjusting rod engages. 5 with a narrower portion 25b of each aperture 25. To the upper surface of the retaining plate 13, the retaining tabs 23 are then bent into the second recess 22a, which protrude into the second recess 22a from the retaining ring 21 at the narrower portions 25b thereby contributing to securing the retaining plate 13. circlip 21.

As the reactor operates, the refrigerant flows upwardly through the assembly shown in FIG. 1, and then the retaining plate 13 through its through longitudinal openings 15. The retaining plate 13 securely holds the adjusting rods 5 in their desired position.

The retaining plate 13 and the upper nozzle 17 attached thereto, which together form a single integral structure, can be securely attached to the adjusting rods 5 simply by positioning and rotating the retaining ring 21. Similarly, once the fuel rods 1 have been used, after shutting down the nuclear reactor in which they are located to remove and replace them with new fuel rods 1, the holding plate 13 together with the upper nozzle 17 can be quickly removed by a simple quick operation (which is opposite to the mounting plate of the holding plate 13 and the upper nozzle 17) thus allowing access to the upper end of the respective fuel rod 1.

Claims (10)

A device for holding nuclear fuel rods (1) in an assembly comprising adjustment rods (5) distributed between the fuel rods (1), each adjustment rod (5) having a retaining plate receiving portion (13), and a retaining plate (1). 13) for positioning on portions of the adjusting rod (5) for receiving the retaining plate (13), the retaining plate (13) being provided with openings (15) for allowing coolant flow, further comprising a retaining ring (21) adapted to attach the retaining plate (13) to the adjusting rods (5) in a single rotary motion. Device according to claim 1, characterized in that the adjusting rods (5) are tubular rods. Apparatus according to claim 1 or 2, characterized in that each retaining plate (13) comprises a projection or head provided with a guide end (9) in the form of a guide pin. Apparatus according to claim 3, characterized in that holes are provided in the retaining plate (13), each of which is flush with a free guiding end (9) in the shape of a pin of the respective one adjusting rod (5), the retaining plate (13). 13) abuts the shoulder (7) at the end of each guide end (9). Device according to any one of the preceding claims, characterized in that the retaining plate (13) forms part of the assembled structure of the upper nozzle (17). Apparatus according to one of claims 3 or 4, characterized in that the retaining ring (21) is provided with openings (25) which consist of a bearing part (25a) adapted to be loosely mounted on the guide ends (9) of the adjusting members. the holes (25) having a portion (25b) adapted to engage the adjusting rod (5). Device according to claim 6, characterized in that each adjusting rod (5) is provided with an annular groove (11) for facilitating the engagement of the holes (25) in the retaining rings (21) with the adjusting rods (5), wherein the engagement portion (25b) of the apertures (25) is the narrower portion of the receiving portion. Device according to any one of the preceding claims, characterized in that the retaining plate (13) is provided with a first recess (22) in which the retaining ring (21) is received, the surface of the retaining plate (13) being substantially flush. with a snap ring flat (21) when the snap ring (21) is positioned in said first recess (22) of the retaining plate (13). Device according to claim 8, characterized in that the retaining ring (21) is formed by a hollow part and bending parts formed by the retaining tongues (23), wherein when the retaining ring (21) is positioned in the first recess (22) of the retaining plate (13), and when the retaining plate (13) is attached thereto to the adjusting rods (5), the locking tabs (23) engage the periphery of the hollow portion for gripping the retaining plate (13) in the areas of its second recesses (22a). Apparatus according to any one of the preceding claims, characterized in that the retaining plate (13) is provided with a plurality of finger-shaped orifices (15) for the coolant flow, the lengths of which extend towards the outer edge of the retaining plate (13).