DE3216855A1 - Store for new fuel elements - Google Patents

Abstract

The fuel elements (6) of a water-cooled nuclear reactor comprise a plurality of fuel cans (40), enclosing the fuel, and end sections (41, 42) for fixing purposes. Before being introduced into the reactor, they are arranged in a vertical direction at defined locations of a store (36) with a fixed holder (17). In this case, according to the invention each fuel element (6) is surrounded over at least the length of its fuel can (40) by a sleeve (20) made from absorbent material. This sleeve is surrounded by a cladding (48) which is fastened in an easily detachable way to the holder (17). The new store (36) is provided, in particular, for highly enriched fuel elements (6). <IMAGE>

Description

Storage for new fuel assemblies

The invention relates to a store for new fuel elements of a water-cooled Nuclear reactor, the several cladding tubes and end pieces enclosing the nuclear fuel to define the ducts and include at defined locations in a storage room are arranged with a fixed bracket in the vertical direction.

Such a storage facility is needed because of the new fuel elements usually in small numbers, for example in pairs, from the fuel assembly factory be brought to the nuclear reactor, while on the other hand for the once a year in a few days, a fuel element change takes place a third of the total, for the Core number of more than 100 fuel elements are available at the reactor got to.

So far, the storage of new fuel assemblies has been viewed as problem-free, because with these no radiation has to be taken into account that the handling of consumed Fuel elements made so difficult. However, fuel elements are modern pressurized water reactors with a square cross-section of about 20 cm edge length and a height of Mechanically very sensitive 5 m with envelope rod diameters of 1 cm. Also of purity the highest demands are made. These demands have so far been made by it met that the fuel assemblies with suitable handling equipment from the for the delivery used carrier adopted and defined Places in the fixed bracket have been attached in the vertical direction are.

The invention is based on the object of bearing the aforementioned Kind to improve in such a way that there is a risk of disruption even in the case of special circumstances is avoided. In addition, the new warehouse is intended for even higher levels of enrichment of fuel assemblies known to be designed with respect to the critical mass become more and more sensitive with increasing enrichment.

According to the invention it is provided that each fuel assembly has at least the length of its ducts is surrounded by a sleeve made of absorber material, which the cross-section of the fuel assembly with a smaller clearance than the thickness of a Cladding tube encloses, and that the sleeve is easily releasably fastened in the holder is.

With such bushings you get an enclosure, the side forces over a large area and therefore without strong mechanical stress on the fuel assemblies allowed to transfer. At the same time, the sleeve provides a radiation shield, so that the fuel elements even at higher degrees of enrichment of, for example, 4.5% or more are definitely in the non-critical area. At the same time you can get through the bushing ensures that a desired minimum distance between adjacent ones Fuel assemblies is not exceeded even if for the holder of the fuel assemblies a damage is assumed in safety considerations.

The invention is not with the known inclusion from to compare spent fuel elements in cans, for example after the British Patent 1,250,009 to improve cooling a chimney effect should result. These cans surround the fuel bundles by a wide margin, too if, as in the case of the order according to German Offenlegungsschrift 27 18 305, expressly provided with absorber material and used as part of a storage rack will. In the invention, on the other hand, it is important that the cans contain the fuel assemblies Enclose tightly so that mechanical protection is also guaranteed and the absorber effect optimally used to reduce the space required. Also should the cans according to the invention are not integrated into a large frame but only be easily detachable so that they can be easily removed for transport of the new fuel assemblies are available in the store. Already with the Rifles reduce the risk of an accident with radiation effects.

A particular embodiment of the invention is that the Bushing is surrounded by a spacing sleeve that serves as a support structure. The distancing sheath ensures that the fuel assembly contained therein can never get closer to another fuel assembly than the distance between the liner and the distancing sheath. So not only is the sleeve mechanically relieved and created a stable support structure independently of the rifle, but also the minimum distance required depending on the enrichment is ensured.

The casing can advantageously have a closed wall. and with the can a double-walled one Form body. Such a Body can be manufactured well with the strength required for safety. The bushing can sit in the sleeve with play and via spacers on it be supported.

For easily detachable fixing, the sleeve or sheath can at least sit at their lower end in a retaining ring surrounding them. In these will they are then introduced by a vertical lowering movement when the fuel assembly is put down, so that a form fit that can cope with all forces is present.

To fix the sleeve or sleeve at the upper end can be advantageous proceed so that a thickened area is provided there, which is in a two-pronged Bracket is set. The thickened area can advantageously be a recess have for a grapple hook. Under certain circumstances, however, such a gripping hook can also attack a protruding pin.

The absorber material of the sleeve can, for example, consist of boron-containing There are aluminum, which is processed in the form of so-called Boral sheets. Common is a sandwich construction for this. However, it seems even cheaper, the rifle made of boron-containing sheet steel with preferably at least 1 = total% boron, because this is because of its great hardness the operational stresses when introducing and pulling out the fuel assemblies has grown better.

In a preferred embodiment of the invention, the sleeve is made or shell made of a coat and a this tightly closing at the bottom Floor. This can be used to ensure that contamination by dust, steam or even liquid must be kept away from the fuel assemblies. To the same For this purpose, the sleeve can also be tightly sealed at the top thanks to a cover that extends into the jacket be locked.

For a more detailed explanation of the invention is based on the enclosed Drawing an embodiment described in Fig. 1 in a plan view and shown in Fig. 2 in a vertical section of part of a pressurized water reactor is. Fig. 3 shows a single sleeve with casing in a vertical longitudinal section on a larger scale.

The new warehouse is in the annulus of a nuclear power plant with a Pressurized water reactor arranged between an inner concrete building 1 and the in the form of a steel ball 2 designed safety sheath is present. It is the bearing only over part of its extending in the circumferential direction of the ball Length shown.

On a so-called container platform 3 is a fuel assembly transport container 4 parked. It comprises an angle bracket 5 with that shown in FIG T-profile. In the corners of the T-profile two fuel assemblies 6 are drawn, which at Transport with angles 7 are clamped. The container 4 is of a not shown Hoist delivered through a ceiling opening 8 in the direction of arrow 9.

On the container platform, the angle marked 7 'has been folded away, so that one of the two fuel assemblies 6 is removed from the transport container 4 can be.

In addition to the container platform 3, as FIG. 2 shows, there is an inspection device 10 provided. It comprises a funnel-shaped E, 4 on 11 and a -lwr B1ct2rzierung serving barrier 12 and a console 13 for parking two controls. The inspection device 10 forms a guide for the fuel assemblies on a specific location so that a visual inspection can be carried out there can.

But you can also use any other measuring devices, for example ultrasonic measuring devices, Use eddy current test equipment or the like to ascertain the integrity convince the fuel assemblies.

Next to the inspection device 10 is one that is used for handover Fuel element position 14 is provided, which is still in the area of the through the ceiling opening 8 limited travel of the hoist to operate the container platform 3 and the inspection device 10 lies. This is where the new fuel assemblies are placed after delivery and inspection deposited in cans 20, with which they are then transported further in the direction of arrow 21 will.

To store the fuel assemblies 6 are on walls 15 with spacers 16 holding frame 17 attached. They have protruding prongs 18 that are spaced apart of for example 25 cm are arranged. Between every two prongs 18 is one Bushing 20 arranged, which is adapted to accommodate the fuel assemblies 6, has a square cavity in cross section.

In Fig. 2 it can be seen that the sleeves 20 with their lower end 22: sit in a support 23 which surrounds the sleeve 20 in a ring and thus specifies.

At the top of the sleeves 20 are those from the spacers 16 outgoing prongs 18 arranged on both sides so that on the holder 17 remote side of the prongs located bracket 24 in the thickened area 25 of the Rifle protrude. This also defines the upper end of the sleeve 20.

The thickening 25 made of austenitic steel is provided with a jacket body for example permanently connected by welding. It forms 26 recesses with slots for the engagement of a gripper 28 which is attached to a storage crane 29. Of the Storage crane is designed as a trolley. The associated rail 30 is with two Drives 31 and 32 suspended from a pair of rails 33 attached to the storage ceiling 34 is attached. The range of motion of the trolley for which the arrow 21 is a Example is is through the barrier 13 and a railing 35 from which through the ceiling opening Certain range of motion of the other Hebeseugee so restricted that only the there is an overlap required for the transfer.

The store designated as a whole by 36 is located next to a fuel assembly storage pool 37, from which it is separated by the concrete wall 1. However, it is contrary to not filled with water. The new fuel elements are used to load the reactor in the fuel assembly position 14 from the lifting gear reaching through the ceiling 34 removed from the can 20 and in the direction of arrow 38 into a transfer station 39 used. With this they are lowered to the bottom of the storage basin 37, so that the further transport with a loading machine, not shown, despite the pulling out from the transfer station 39 only takes place under water.

The bushes 20 in the embodiment are made of boron steel, i.e. an austenitic steel with a significant boron content. You have one that Fuel assembly 6 adapted square cross-section with which the fuel assembly 6 over the entire length of its fuel rods delimited by cladding tubes 40, for example 4 m is tightly enclosed. In any case, the distance A is smaller than the diameter the fuel rods 40, which form the essential part of the fuel assembly 6 and between a head piece 41 and a fuel assembly foot 42 run parallel to one another. For example, the fuel rod diameter determined by the outer diameter of the cladding tubes 40 is 10 mm, the distance A on the other hand 4 mm.

At the upper end, the cross section of the sleeve 20 is widened. Through this a funnel-shaped collar 43 is created, which facilitates the insertion of the fuel assemblies 6. In the position shown, the fuel assembly 6 is seated with its foot 42 on centering bolts 44, which enclose the foot 42 ending in a tube, as in the patent application P 31 38 749.7 is explained.

The centering bolts 44 are screwed into a base plate 45, which has a preferably circular shoulder 46 for centering on the underside.

The edge of the plate 45 is covered with a one-piece jacket 47 made of austenitic Screwed steel. The jacket 47 and the plate 45 form the actual supporting structure in the form of a sleeve 48 which surrounds the sleeve 20 and is made of austenitic, but boron-free Stole. For this purpose it is at its upper end with the one opposite the coat 47 thickened flange 25 connected, preferably screwed, which has the slots 26 for the engagement of the gripper 23.

The flange protrudes, as shown in FIG. 3, inwardly against the bushing 20, so that it is fixed there with little play. Appropriate spacers 50 at the lower end of the sleeve 20, which is connected to the base plate 45 and / or the jacket 47 can be screwed, ensure a lateral fixing that all side forces has grown and a minimum distance D between the fuel assembly 6 in the can 20 and an outer fuel assembly ensures. The rifle needs in the longitudinal direction 20, on the other hand, only to be set so far that they can be removed when the fuel assembly is lifted out 6 remains in the sheath 48 with certainty.

The sleeve 48, which encloses the sleeve 20, thus results in a double-walled one Container 52 for the transport and storage of the fuel assemblies 6. The container 52 is at its lower end due to the tight fit of the base plate 45 in the jacket 47 sealed dust-tight. A contamination of the fuel assembly 6 from above is prevented by a cover 54. This sits with an edge 55 on the flange 25 of the sleeve 48 and protrudes with a cross-section of the sleeve 20 adapted Shaft part 56 in the area of an O-ring seal 57 below the collar 43.

10 claims 3 figures L e r s e i t e e

Claims (10)

Claims warehouse Storage for new fuel elements of a water-cooled Nuclear reactor, the several cladding tubes and end pieces enclosing the nuclear fuel to define the ducts and include at defined locations in a storage room are arranged with a fixed bracket in the vertical direction, d a d u r c h g e k e n n n z e i c h n e t that each fuel assembly (6) has at least surround the length of its cladding tubes (40) with a sleeve (20) made of absorber material is that the cross section of the fuel assembly (6) with a smaller clearance than that Thickness of a cladding tube encloses, and that the sleeve (20) in the holder (17) is easily detachable attached. 2. Bearing according to claim 1, d a d u r c h g e k e n n -z e i c h n e t that the sleeve (20) is surrounded by a spacing sheath (48) as Support structure is used. 3. Bearing according to claim 2, d a d u r c h g e k e n n -z e i c h n e t that the shell has a closed wall (45, 47) and with the bushing (20) forms a double-walled body (52). 4. Bearing according to claim 2 or 3, d a dur c h g e -k e n nz e me ne t that the sleeve (20) sits with play in the shell (48) and spacers (25, 50) is deposited on this. 5. Bearing according to one of claims 1 to 4, d a -d u r c h g e k e It is noted that the sleeve (20) or sheath (48) at least at its lower end (22) is seated in a retaining ring (23) surrounding it. 6. Bearing according to one of claims 7 to 5, d a -dur c h g e k e n It should be noted that the sleeve (20) or sheath thickened one at its upper end Area (25) and that the thickened area (25) in a two-pronged holder (17) is fixed. 7. Bearing according to claim 6, d a d u r c h g e k e n n -z e i c h n e t that the thickened area (25) has a recess (26) for a gripping hook (28) having. 8. Bearing according to one of claims 2 to 7, d a dur c h g e k e n n show that the sleeve (20) is made of boron-containing austenitic sheet steel, while the shell (48) consists of boron-free, preferably austenitic steel. 9. Bearing according to one of claims 1 to 8, d a -d u r c h g e k e n n z e i h n e t that the shell (48) consists of a jacket (47) and one of these below tightly sealing bottom (45). 10. Bearing according to claim 9, d a d u r c h g e k e n n -z e i c h ne t that the jacket (47) carries a cover (54) protruding into the sleeve (20).