DE4227793A1 - Control column consisting of a fuel element and an absorber element for a nuclear reactor - Google Patents

Abstract

In a control column in which an absorber element (AE) is coupled to the head of a fuel element (BE) via a coupling component (CE), the region between the lower edge (HA) of the absorber (26) in the absorber element and the upper edge (HF) of the fuel in the fuel rods (7) of the fuel element has an absorber material (15, 32) which extends virtually throughout the entire coupling component. In the fuel element there are absorbing stubs (15) for this purpose which extend through the cover plate (6) of the fuel element and engage in the interstices between the fuel elements (7). The appropriate absorber element has a hollow cylinder (32) which is surrounded by coupling components (30, 31). This prevents the occurence of power distortions which can be produced during the operation of a reactor if the top (HF) of the fuel abuts a region which contains no fuel from the fuel element and as yet no absorber components of the absorber element.

Description

The invention relates to a control column from a Fuel element and an absorber element corresponding to the Preamble of claim 1 and a fuel assembly and an absorber element of this control column.

Such control columns, in which an absorber element over Coupling parts to the upper end of a fuel assembly coupled, are more Soviet in pressurized water reactors Type used. The fuel assembly contains one in metal structural parts included fuel, the itself from a lower fuel edge to a burner fabric top edge extends while the absorber element arranged below an absorber upper edge, made of metal body made of absorber mat rial contains, which extends up to a lower edge of the absorber extend. The structural parts protrude from the head of the Brennele mentes beyond the top of the fuel and are there designed as coupling parts. They intervene mating counter coupling parts, which are below the Absorberun edge of protruding structural parts of the absorber element are formed.

The top edge of the fuel and the bottom edge of the fuel fall not together with the ends of fuel rods that as gas-filled pipes filled with fuel are trained. Rather, these pipes contain above the top of the fuel and below the fuel Un edge gas plenum for arising during operation  fission products. The active fuel containing The zone of the fuel assembly therefore begins above the lower one Fuel rod ends and ends below the top ends. It are also taxation columns, where the full power drove the top edge of the fuel assembly under is half of the limit that is the active zone of the core limits because the fuel rods are shortened.

At full reactor output, the control column is in one Position in which your fuel assembly is at approximately the same level like the fuel assemblies that are in the reactor core next to the Control column are arranged. The active zone of the focal element coincides with the active zone of the Core from the active zones of the other fuel assemblies is determined. To slow down the performance, the Axially displaced column, now in the active zone part of the control column is retracted into the core neither fuel nor absorber material, but coupling and Contains structural parts. These parts only displace a relatively small volume of water, so that in hires an increased moderation in this area. This Position is practically always at partial level.

It can be seen that at the upper ends of the fuel rods in the Control column fuel assembly power peaks occur. It has therefore already been suggested that the fuel Shorten the fuel rods of this fuel assembly and instead about 100 mm long steel at the upper end Arrange pins that increase performance in the upper Counteract the area of the active zone of these fuel rods.

In addition, there is also an increase in performance upper parts of the neighboring fuel rods, whose  The cause is probably one caused by the steering column Distortion of the neutron flux is.

The invention has for its object a tax Pillar, which - compared to the conditions at usual Control columns - a more even distribution of neutro flow and performance, or a suitable for this tes absorber element and fuel element.

This object is achieved in that absorber mate rial through the coupling element practically up to Fuel top edge extends (claim 1). Beneficial Developments of the invention are in the further Claims specified.

The invention and its advantages are illustrated by three Figures explained in more detail. Show it:

Fig. 1 shows a longitudinal section through an embodiment of the fuel assembly according to the invention of such a steering column,

Fig. 2 shows a longitudinal section through a corresponding control element, and

Fig. 3 shows a longitudinal section through the coupling parts of the two elements in the coupled state.

The fuel assembly (BE) has, according to FIG. 1, a foot part 1 , to which a fuel element box 2 extending to the head part 3 connects. In the case of the Soviet-type reactors mentioned, the foot part, box and head part have a hexagonal cross section.

A central sleeve 5 connects a base plate 4 to a cover plate 6 , between which fuel rods 7 are arranged.

These fuel rods are tubes parallel to the axis of the column, which are filled with fuel approximately up to the upper edge HF of the fuel and are sealed gas-tight above this upper edge HF. Accordingly, the filling often only extends to a lower fuel edge HL lying above the base plate 4 . The levels HL and HF thus limit the active zone of the fuel assembly. If the fuel element is fully retracted, these levels lie on the edges of the active zone of the reactor core.

It can be advantageous if the gas-tight sealed pipes below the top of the fuel a blanket volume follows, in which the usual, attached enriched fuel by natural uranium, depleted or spent fuel is replaced. This will turn on less axial power in this axial area set. In addition, it is largely avoided that in in the axial direction upward neutron losses to adjust. Rather, the gradient of the neutron flux ses increased at the top of the fuel rod. There is one Improve fuel economy while at the same time Fuel savings (lower medium fuel enrichment of the staff) and a reduction in losses in the Fuel cycle.

On the cover plate in the head portion 3 of the fuel assembly BE of Fig. 1 projecting parts 11 and 12 as sleeves for a bayonet catch form of the associated absorber element can engage in the respective plug members. With 13 and 14 noses are indicated, which partly represent retaining lugs of a corresponding bayonet closure, partly represent contact surfaces for gripping and lifting tools for manipulating the fuel assembly.

With the tubes 8 in Fig. 1 it is shown that in some positions between the normal fuel rods open tubes are arranged at the top, which are not filled with fuel, but may contain displacement rods or water (moderator). These tubes are attached to the bottom plate 4 by brackets 9 , while the corresponding brackets 10 on the Deckplat 6 carry pins 15 which protrude at these positions between the fuel rods, normal fuel rods. These pens contain a material with increased neutron absorption, e.g. B. a per se corrosion-prone Sil ber-indium-cadmium filling, which is surrounded by a constantly corrosion-resistant jacket.

A preferred fuel assembly of the control column according to the invention thus contains a bundle of fuel rods that sit in the fictitious meshes of a regular grid, in particular a hexagonal grid, and each have a column of fuel surrounded by a gas-tight cladding tube, with a gas collecting space above the fuel rods is provided. These fuel rods extend approximately from the base plate 4 to the vicinity of the cover plate 6 .

The fuel rods are through at some axial positions Spacers (not shown) with a correspond held the lattice structure, but some stitches of the Lattice of fuel rods not containing fuel occupied or at most occupied by such fuel rods are burning only in a lower part of the element contain fabric. In these meshes of the fictitious grid are made of absorber material, which are arranged through the cover plate practically up to the burner Extend the top edge of the fuel assembly. This stif te can form the upper part of the fuel rods mentioned,  which only contain fuel in the lower part.

So when the reactor power is reduced, the If the control column moves down, the absorbers are the same draw off the influences that arise from the fact that in the active zone of the core are now the gas collection spaces and the fuel-free area around the tax top plate pillar come to rest.

The absorber element according to Fig. 2, a Absorberele extends ment box 22, the bearing together with a sleeve 25 by a central rod 24 guided central metallic parts of the absorber element formed between a foot 21 and a head portion 23. Between the central sleeve 25 and the box 22 there are absorber bodies 26 which extend from an upper absorber edge HO to an lower absorber edge HA in the foot part. On the foot part, a coupling part 30 is attached, which together with a protruding downward form the end of the central rod 24 each form a plug for a bayonet catch, in the corresponding sleeve parts belonging to the head of the associated fuel assembly.

In order to avoid that the corresponding coupling parts 30 , 31 of the absorber element and the associated coupling parts 11 , 12 , 13 , 14 of the combustion element form an absorber-free space in the coupled state, a hollow cylinder 32 is made of a material, in particular a corro sion-resistant material such as hafnium or a hafnium alloy or hafnium compound provided. This hollow cylinder is mechanically protected on the side by the coupling parts 24 , 25 and 30 .

Fig. 3 shows the fully assembled coupling element CE, which connects the absorber element AE of FIG. 2 with the fuel element BE of FIG. 1.

It can be seen that between the foot part 21 of the absorber element AE, over which the absorber body 26 extending to the lower absorber edge HA and the upper fuel edge HF, which lies below the head 3 of the fuel element BE, extends absorber material. That this creates an absorber-free belt along a small axial area G is of no further importance, but can be avoided by appropriate design of the coupling parts.

Claims (8)

1. Control column for a nuclear reactor

• a) a fuel assembly (BE) with a fuel held by metallic structural parts, which extends from a lower fuel edge to an upper fuel edge (HF), and
• b) an absorber element (AE) coupled via a coupling element (CE) to the upper end of the fuel element (BE) with absorber bodies ( 26 ) arranged below an upper edge of the absorber, which are held by metallic structural parts ( 21 , 22 , 24 , 25 ), characterized in that absorber material ( 15 , 32 ) extends through the coupling element (CE) practically to the upper edge of the fuel.

2. Column according to claim 1, characterized by at least one of parts ( 30 , 31 ) of the hitch be element surrounding hollow cylinder made of absorbent material, in particular hafnium-containing material or another corrosion-resistant material. 3. Column according to claim 1 or 2, marked net by parallel to the column axis fuel rods ( 7 ) and pins in the fuel assembly (BE), with at least one group of fuel rods ( 7 ) up to approximately the upper fuel edge (HF) with Pipes are filled with fuel and sealed gas-tight above the upper edge and the pins ( 15 ) grip from above between the fuel rods of the group and consist of absorber material or up to the upper fuel edge with an absorber material, preferably a material containing silver, indium and cadmium , are filled. 4. Fuel element for a control column of a nuclear reactor, with

• a) a bundle of fuel rods sitting in the mesh of a fictitious regular grid, in particular a grid with hexagonal meshes, each fuel rod containing a gas-tightly enclosed column of fuel with a gas collecting space arranged above the fuel and a base plate ( 4 ) extends to the vicinity of a cover plate ( 6 ), and
• b) projecting over the cover plate coupling parts ( 11 , 12 , 13 , 14 ) for engagement in corresponding counter-coupling parts of an absorber element of the control column, characterized in that some meshes of the grid are not of fuel rods or at most of fuel rods, which are only in a lower part of the Fuel element contain fuel, are occupied and that engage in these some meshes pins, which extend from above through the cover plate to about the level of fuel in the fuel rods and contain an absorber material.

5. Fuel element according to claim 4, characterized characterized in that as pens with absorber material, especially silver, indium and cadmium holding material, largely filled closed Pipe pieces are used. 6. Fuel element according to claim 4 or 5, characterized characterized in that the pins in open grab top ends of pipes that are not fueled are filled. 7. Fuel element according to one of claims 4 to 6, characterized in that  at least part of the fuel rods in the upper part of the Cladding tube contain a fuel made from natural uranium or depleted fuel. 8. absorber element for a control column of a nuclear reactor, with

• a) absorber bodies, which are surrounded by metallic structural parts ( 22 , 24 , 25 ) and extend to a lower edge of the absorber (HA), and
• b) projecting beyond the lower edge of the absorber coupling parts ( 30 , 31 ) for engaging in corresponding counter coupling parts of a fuel element of the column, characterized in that the outstanding coupling parts below the lower edge of the absorber coupling parts are a hollow cylinder made of absorbent material, especially a hafnium-containing or other surrounded by corrosion-resistant absorption material.