NO132339B - - Google Patents

Description

Device for shutting down nuclear reactors.

The present invention relates to devices for shutting down nuclear reactors.

It is common practice in technology in connection with nuclear reactors to arrange

an emergency derailment which,' consists of control rods that can fall into or as

ker into the reactor core, and where the control rods consist of, or contain, material that has a high neutron absorption If, however, the pressure tank is destroyed, e.g. in the event of seismic disturbances

see, ken it results in displacements or

causes misalignments in the reactor core, which can cause the emergency shutdown device to fail in its work. It is therefore desirable to have some form of secondary shut-off device that can be effectively put into operation if the normal emergency shut-off device is put out of operation a: the above or other reasons.

The choice of suitable neutron absorbing material for use in secondary shutdown devices is determined by possible conditions that may arise if applications of the device become necessary. Where loss of circulating coolants has occurred, and caused an increase to high temperatures that enable the reactor core to seize, the use of gaseous or liquid media entails risks such as. considered too stoi to benefit their choice. A gas is difficult to bring quickly into place, and furthermore, there is a lack of concentration for effective use.

occur where the reactor core has become distorted and allows the gas to spread and leak out of the reactor core. A purposeful

- moderate liquid would presumably boil at them

- abnormally high temperatures, which will probably be found where the use of sec-

in those shut-off devices will be

- absolutely required, as it produced

- gas, although in itself one, efficient

- neutron absorber, cause the above

- mentioned' disadvantages. The choice of material shows

- therefore to be bound to a solid substance

. in such a form that introduction into the reactor core

. is possible, regardless of the possible

- twists of this. Furthermore, the device

- gers to implement a secondary shutdown

l ning preferably separated from the pressure tank,

in such a way that this can be put into operation itself; if the pressure tank has been damaged; the should-

: le remain relatively stable regardless of which

- abnormal (although these in general

- can be foreseen) conditions that may arise by accident.

It has been produced security

; arrangements for experimental reactors, consisting of a funnel arranged in the screen 3 above the reactor core, where the funnel is filled

i with balls of boron steel, which can be released j by means of mechanical devices and r fall into a depression in the graphite that surrounds the reactor core.

1 The apparatus according to the invention

- thus includes a vertical channel into f the reactor core, a magazine for a plurality l of neutron-absorbing spheres and devices

l ings to fill these balls into can-

- len for shutting down the reactor, and the special feature is that a retractable tube is placed in the channel, that the retractable tube - has an open upper end where the balls can be filled in from the magazine for shutting down the reactor and that the retractable tube has releasable closing devices at its lower end, where the said closing devices are normally closed for retention of the balls and can be opened for returning the balls after the extendable tube has been withdrawn from the reactor core.

The filling device can include a passage that forms a connection between the magazine and the open upper end of the extendable tube and a removable obstacle device that acts inside the passage and is caused by electromagnetic devices that are arranged outside the passage, since the obstacle device, when it works, prevents the bullets in passing from the magazine and when it is not working allows the bullets to pass into the retractable tube by their own weight.

The obstacle device can be in the form of a magnetic field across each outlet, as the balls are then of magnetic material, with preferably low remanence and coercivity and where removal of the magnetic field serves to remove the obstacle and allow the bodies to pass through the outlet or outlets.

The filling end of the extendable tube is preferably provided with a thickened part which enables it to be attached and grasped for withdrawal, removal or replacement by means of a grab, which is normally used during reactor operation.

An exemplary embodiment of the apparatus according to the invention shall now. described under, reference; to the accompanying drawings (where like reference numbers refer to like parts). Fig. 1 shows a partial side view through the middle part of the apparatus for secondary shutdown in the operating position. Fig. 2 shows a plan view in section along the line II—II in fig. 1 drawn on a larger scale than fig. 1. Fig. 3 shows a partial side view in section, drawn on a larger scale than in fig. 1, and shows a detail. Fig. 4 shows a similar view as fig.

3 and shows another embodiment.

Fig. 5 shows a similar drawing as fig.

1 and shows another embodiment.

Reference is made to figures 1-4, where an embodiment of the apparatus for secondary shutdown is shown as an example and where a nuclear reactor has a moderator structure of graphite, in which essentially vertical openings are formed, arranged for the usual control rods, or shut-off rods, and where such an opening 1 in the moderator structure 2 has a filling funnel 3 at its upper end, where the lower end of the funnel engages an upper part 4 with a larger diameter of a long pipe 5.

The lower end of the tube 5 is closed with a plug 6 and rests on a seat 7 which is supported at the lower end of the reactor core. The part 4 in the pipe 5 has an inner recess 8 which serves as a facility for the lower end of a magazine device, generally denoted by reference number 9. The magazine device 9 has a flange 10 which rests against the filling funnel 3, an elongated, tubular part 11 which fits into the bore in the filling funnel 3 and an end part 12 with a reduced diameter, placed in the inner recess 8 of the pipe part 4. The rest of the magazine arrangement consists of a container 13 which has a deflection chute 14 which leads to four outlet pipes 15 with rectangular cross-section that is bent almost straight. angle (see especially fig. 1) and has mouths 16 which lead into a central tube 17 which extends both upwards and downwards in relation to the mouths 16. Peripherally distributed supports 18 for the upper end of the tube 17 extends from the walls of the container 13, and the container 13 is provided with a cover 19 provided with a bored out pin 20 shaped to provide engagement for the usual filling or. dump truck. On the flange 10 of the device 9, four electromagnetic devices 21 are arranged which have pole pieces 22 placed at each side of the bent part. of each channel 15. Coils 24 are wound on the support piece 23 for each pair of pole pieces 22.

Inside the pipe 5, an inner pipe 26 is arranged, the upper end of which lies at a distance from and below the part 4 and is shaped with a fbr-thick part 27 for the purpose of providing engagement for said filling and emptying grab. The tube 26 fits into the tube 5 with a clearance and is provided towards its lowest end with oppositely directed flaps 28, 29 which can be opened and which are either hinged separately at 30, respectively. 31 as shown in fig. il or hinged on a single pin 32, see fig.

4. Flaps 28 and 29 are made so that they i

closed position do not project significantly beyond the outer diameter in the tube 26, while in the open position they project outside this diameter. The end part of the pipe 26 is extended beyond the flaps 28, 29 and has an end plug 33 which can be engaged with the plug 6 in the pipe 5 in the working position for the pipe 26. The pipe 26 can be pulled out of the pipe 5

and into the pipe 17 to a position which is shown by dashed-dotted lines in fig. 1, by means of the emptying grab, where the flaps 28, 29 are held in the closed position during the retraction, but as they pass by the upper end of the tube 17, they open and come to the position shown by dashed dotted lines in fig. 1.

The device works in the following way: The magazine container 13 is filled with a large number of balls of boron steel and appropriately with approx. 3 mm diameter. (A few spheres are shown in Fig. 1 with reference number 34). The discharge of the balls through the tubes 15 and the mouths 16 into the interior of the tube 17 is thus prevented. as long as the coils 24 are energized to produce a magnetic field between pairs of pole pieces 22. When it becomes necessary to put the shut-off device into operation, the energy supply to the coils 24 is interrupted, whereby the magnetic field is removed and the balls 34 are allowed to fall from the magazine containers 13, through the pipes 15 and the mouths 16 into the central pipe 17 and from there into the pipe 26, from which they do not escape because of the flaps 28, 29 which are closed. The balls 34 form a column inside the tube 26 and are effective in the same way as a massive shutdown rod of the same diameter and height in absorbing neutrons, and causes shutdown. When it is desired to put the shut-off device out of action, the part 27 on the pipe 26 is grasped by the usual emptying grab and pulled as a body upwards to the position shown by dash-dotted lines in fig. 1 in that the flaps 28, 29 are opened as soon as the forced influence of the central tube 17 ceases, and the flaps 28, 29 serve: then to allow the balls 34 to fall out of the tube 26 and to guide them into the magazine container 13. extended end part of the tube 26 covers the mouths 16 and prevents the balls 34 from passing into the central tube 17. Meanwhile, the coils 24 have also been energized to restore part of the magnetic field and again prevent the balls 34 from emptying from the magazine container 13 The tube 26 is then returned to its operative position into the reactor core, the flaps 28, 29 are automatically closed when they re-enter the tube 17 and are holed in their closed position upon contact with the wall, the tube 17, the bore in the section 11, and walls : in the pipe 5 as the pipe 26 leads, downwards.

Non-magnetic separator plates 25 are arranged radially in relation to the central tube 17 to divide the tubes 15 vertically (see Fig

1 and 2), and their purpose is. to limit it

magnetic fluxes formed by the pairs of pole pieces 22 to a limited area

by dividing the passages immediately above the pole pieces 22.

As an indication of suitable, relative measurements for the diameter of the magnet container 13 and for its inner tube 26, the height of the magazine container 13 may be approx. 35 cm, and can contain enough balls to provide a column of balls of approx. 4.25 m in the inner tube 26.

The filling of the magazine can. also take place during the pressure circulation of the refrigerant, whereby it also becomes. possible to try the device in a clear and simple way.

In a modified embodiment, which is not shown, the outlet mouths 16 with their connecting pipes 15 can lie in a zig-zag pattern instead of lying at the same height as shown in fig.

1. This device serves to to produce

more of a "flow" of balls down through the tube when the device is in use than in the described embodiment, and can enable the use of balls with a larger diameter if desired. In the modified embodiment shown in fig. 5- is the apparatus of a similar nature to that described with reference to fig. 1-4 except that the magazine has an annular opening 40 into the central tube 17 only interrupted by diametrically opposite parts 41 in the wall of the tube 17

(only one part 41 is shown in Fig. 5). The Poles

42, 43 of an annular electromagnet 44 are placed on both sides of a conical passage 45 leading to the opening 40, radial studs 46 of non-magnetic material being placed in the passage 45 in line with the parts 41 and serving to support the pole pieces 42 which are placed in a sleeve 47 which surrounds the central pipe 17. The pole pieces 43 are supported by a ■ support piece 48 attached to the flange 10 in the magazine device 9. The working method corresponds ■ to that described with reference to in fig. y—4. The modified design enables the use of balls with a larger diameter (up to approx. 6 mm).

In a power-producing nuclear reactor, sufficient apparatus units are used according to the invention to reduce the reactivity to an extent that will ensure shutdown, and concentration is preferably ensured particularly in the central area of the reactor core. In a typical example where the reactor core is approx.

9.5 m in diameter and has 1,696 fuel element channels and 48 control rods, using two apparatus units of the above. written art.

Claims (3)

1. Apparatus for shutting down nuclear reactors, comprising a vertical channel inside the reactor core, a magazine for a plurality of neutron-absorbing balls and devices for filling these balls into the channel for shutting down the reactor, characterized in that a retractable tube (26) is placed in the channel, that the extendable tube (26) has an open upper end where the balls (34) can be filled in from the magazine (13) to shut down the reactor and that the extendable tube (26) has releaseable closing devices (28, 29) at its lower end, where the said closing devices (28, 29) are normally closed for retention of the balls (34) and can be opened for the return of the balls (34) after the extendable tube (26) has been withdrawn from the reactor core. 2. Apparatus as stated in claim 1, characterized in that the filling device comprises a passage which forms a connection between the magazine (13) and the open end of the extendable tube (26) and a removable obstacle device which acts inside the passage and is caused by electromagnetic devices ( 22, 23, 24, 42, 43) which is arranged outside the passage, the obstruction device, when operating, prevents the balls from passing from the magazine and when not operating allows the balls to pass into the extendable tube (26) by its own weight. 3. Apparatus as stated in claim 1, characterized in that the extendable tube (26) is provided with a thickened part (27) which is arranged to engage with a grab for withdrawing and replacing the tube (26 ). Apparatus as stated in claim 1, characterized in that the magazine has a central tube (17) whose upper end terminates just in front of the top of the magazine (13) and through which tube the extendable tube (26) can be guided, where the closing devices (28, 29) for the extendable tube (26) is kept closed by engagement with the central tube (17) as the extendable tube (26) is pulled upwards in the central tube (17) and where the closing devices (28, 29) are opened at the end of the engagement opposite the upper end of the aforementioned central tube (17), whereby the balls (34) contained in the extendable tube (26) are released from there, to be fed into the magazine (13) to fill the apparatus again.