FI66258B - ANORDNING FOER LAECKDETEKTERING VID BRAENSLESTAVAR - Google Patents

Description

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Pif »och I» | lrtirityr «lwn '' AmMm ** §iod> Mdj & tanprtiwr ^ 31.05.84 (32) (33) (31) wofcw> nW prtartat 11.10.74 Sweden-Sweden (SE) 7412827-3 (71) Aktiebolaget Asea-Atom, VSsterSs, Sweden-Sweden (SE) (72) Roland Deleryd, Västeräs, Antti Suvanto, Västeräs, Stig Wel6n, VästerSs, Sweden-Sweden (SE) (74) Berggren Oy Ab (54) Leak detection device in fuel rods - Anordning för läckdetektering vid bränslestavar

The present invention relates to an apparatus for detecting leaks in fuel rods in a water-protected water reactor with a lid removed and comprising a pressure vessel and a plurality of vertically mounted fuel cartridges holding a core frame containing a core portion and a hood when lifting the respective fuel cartridges to be hydraulically connected to these fuel cartridges, the hood being provided with a lifting member for each fuel cartridge, and means for conveying the water contained in the fuel cartridge to a water separator arranged above said water radiation shield. Such a device is already known from U.S. Patent 3,762,993.

When leak detection is performed in the jacket tubes of the fuel rods, a known device stops the flow of cooling water to the fuel cartridges to be inspected for leaks. The cartridge or cartridges with possible casing damage show enrichment in the water inside for fission products, and the casing damage can be revealed by performing an activity test on samples taken from various f 2 66258 fuel cartridges. Normally, a water sample from each fuel cartridge must be sent to a special laboratory which makes the investigation very time-consuming.

i

It is known through the ASEA-Journal, Vol. 37 (1964) No. 5, pp. 88-89, to take a sample of reactor water by means of a fixed device,! wherein this device is connected to a degassing device and a gas! to measure the radioactivity of the gas separated into the measuring chamber.

i! f There is no standing water in the magazine's appliance; therefore even a small sample volume is sufficient to obtain the correct mean value. According to the present invention however, the device is intended for conditions where the water in the fuel cartridge under test is standing. For this reason, both because the leakage 1 is more easily detected when the amount of fission products collected is large, it is preferable to use a measuring device which makes it possible to examine a large amount of water in a short time. If a measuring device according to said periodical were to be used, it would then be necessary to use a very large degassing device.

The device according to the present invention is intended to use a hood in the same way as in the above-mentioned patent publication. essentially apply the measurement method described in that magazine, but it is possible to rapidly degas a large amount of water, for example the water content of a fuel cartridge, without using a special degasser, while the separated amount of gas is immediately fed to a measuring device to measure radioactivity. In addition, the aim is to reduce the number of essential components as much as possible and thus provide better operational reliability.

The invention is characterized by what is stated in the claims and will be described below with reference to the accompanying schematic drawings, in which Figure 1 shows a vertical section of the upper part of the nuclear reactor in which the leak test is carried out with the device according to the invention. Figure 2 shows a vertical section of a part of the device according to the invention for placing on the driver's grid and a general connection diagram of the device. Figure 3 shows a specific embodiment of the device according to the present invention, showing the lower part of the housing. A detail of this is shown in vertical section. Figure 4 shows the line IV-IV in Figure 3

3 taken along the cross section. 66258

In the drawings, the number 1 denotes a pressure tank in a nuclear reactor, 2 reactor core fuel frames and 3 domes which can be placed in the desired position on the core frame by means of a telescopic lift 4 attached to the work platform 5. The bundle 6 of hydraulic and electric cables depends on the hoisting rope 7, forming a connection between the hood 3 and several control cabinets 8 belonging to the device. Above the reaction vessel is a radiation shielding amount of water 61.

The dome 3 shown in Figure 2 includes four dome units 9 for use in detecting leakage of four fuel cartridges placed in one and the same core frame box. The dome units 9 are each provided with a pneumatic hoisting unit 10, each of which is connected to its lifting member comprising a pneumatic hoisting cylinder attached to the dome with hollow through hoisting lifting rods 13.

The pneumatic cylinder 15 drives a handlebar 14. The rods 13 and 14 are provided at their upper ends with electrical position indicators 16 and 17, respectively. Dashed line 19 indicates the position of the top edge of the fuel cartridge in the removal position, while line 20 indicates the position of the fuel cartridge in the test position. The sealing ring 22 is attached between the two flanges 21 and 23, resting at its inner edge tightly against the cover of the fuel cartridge 20. The hood 3 stands on the heart frame by means of the guide legs 37.

Reference numerals in Figures 3 and 4 denote the same components as in Figures 1 and 2.

The dome 3 is provided with a flange 24 and a lid 25 resting tightly against it. The lid 25 has an opening to which a hose 27 is connected. The opening 26 communicates with the space surrounding the dome unit 9 via a horizontal channel 28 formed in the flange 24 running along the lid 25. The mouthpiece 29 is attached to the flange 24 and is concentrically positioned relative to the opening 26 in the lid. The mouthpiece 29 is connected to a compressed air hose 30 which communicates via a valve 32 with the high pressure side of the compressed air compressor 31. When the valve 32 is open, compressed gas is blown through the mouthpiece 29, which together with the duct 28 and the hose 27 is used as a mammoth pump.

4 66258

The effervescent water and gas mixture passes through the hose 27 and the water is collected in a water separator, for example a scrubber bottle arranged in a control cabinet 8 located close to the surface of the radiation shielding water 61. The effervescent space results in efficient mixing of the working gas and possible fission gas.

The water separator 33 is optionally pumped with a fission gas-containing working gas into and through the measuring chamber 34, the chamber being intended for measuring the radioactivity of the gas. In addition, there is a connection to the test bottle 35 for gas analysis and another connection to the test bottle 35 for water analysis. From the measuring chamber 34, the operating gas is returned to the compressor 31.

Thanks to the mammoth pump effect achieved, the connection between water and the operating gas becomes very efficient. In addition, the pressure of the water decreases considerably during its transition, as a result of which the fission gases dissolved in the water are easily separated. Pumping takes place at all times with the help of one and the amount of operating gas included in the closed system of the sauna.

Claims (4)

5 66258 A device for detecting leaks in fuel rods in a water-protected water reactor with a lid removed and comprising a pressure vessel (1) and a plurality of vertically mounted fuel cartridges (2Q) holding a core frame (2) containing a hood (3), for fitting to a part of the core frame (2) and to the fuel cartridges (20) corresponding to said part of the core frame for lifting hydraulically connected to these fuel cartridges, the dome being provided with a lifting member (12) for each fuel cartridge; 33) »characterized in that said means comprise a mammoth pump (26,27,30) belonging to a closed gas recirculation system arranged on the dome, the nozzle of which is connected to the outlet of the compressor, and that said water separator (33) is connected to the to the weather outlet for measuring the radioactivity of the gas through a functioning measuring chamber (34). Device according to claim 1, characterized in that said hood (3) is provided with a flange (24) at its pride and a cover (25) against the flange, the horizontal channel (28) being formed by a flange between the cover and connected to the interior of the hood (3) , and that the nozzle of the mammoth pump (26,27,30) is fixed to the flange (24), passed through said channel and arranged concentrically with the opening (26) in said cover (25), and that the hose (27) is connected to this opening and between said water separator (33). Device according to Claim 1, characterized in that the hood (3) is divided into a plurality of dome units (9) for its own fuel cartridge. Device according to claim 1, characterized in that the seal (22) fixed to the wall of the dome is arranged to seal against a plurality of fuel elements raised and surrounded by said dome.