DE8906938U1 - Device for sealing fuel elements in the fuel pool of a nuclear power plant - Google Patents

Description

89 G 3 2 7 7 EN

( ,· 1 Siemens AG

Device for sealing fuel elements in the fuel pool of a nuclear power plant

The operation of a nuclear power plant requires that used or spent fuel elements be exchanged for new ones at appropriate intervals. Since these spent fuel elements still emit strong radioactive radiation, it is necessary to store them for a longer period of time and to remove the resulting decay heat. In the German laid-open specification 35 00 981, an interim storage facility for radioactive waste and fuel elements is proposed _- in which the fuel elements are sealed in cylindrical cans in a gas-tight manner. The task now arises of carrying out the sealing process in the respective nuclear power plant itself and avoiding long transport routes and the associated shielding measures.

According to the innovation, this device is installed in the cooling pool of the nuclear power plant in accordance with the characterizing part of claim 1. The fuel element to be inserted is handled underwater in a manner known per se, and this process is controlled by visual observation without exposing the operating personnel to radiation.

The possible design of the innovation can be seen in FIGS. 1 and 2, whereby FIG. 2 only shows the design of the can cover.

A two-part diving bell 2/3 is installed at a suitable location in the pool. All that is required is a space in the pool that extends over the entire depth of the pool with a base area of 0.6 m*. The lower part 2 is positioned correspondingly deep in the pool. It has fairly precise guides

Hü 2 Sbt / 31.05.1989
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)l 32 for the bushing to be inserted and for the upper part of the diving bell 3. Approximately at the deepest point a line 21 is connected which leads via a suction device into the pool cleaning system 22.
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The diving bell upper part 3 fits into the lower part 2 with considerable play. Observation windows 31 and lighting devices are provided in the upper face of the diving bell lower part 3. The upper part also contains the following devices, which can be swiveled in or adjusted from the outside using the corresponding socket connections:

- Connections 44 for pre-gas to expel the tank water and alternatively for a filling gas if required

- Connection for parts evacuation, which can also be combined with an existing sipping device

- Welding device 5 for socket connections 20

- Welding device, e.g. a centered inert gas machine for cover welding

- possible testing and temperature measuring equipment. 25

) The can 4 itself is expediently provided with a decontaminant coating, at least on the outside. The cover 41 has an elastic seal and carries connections 44 for compressed gas, etc. A thin drainage line 11 leads from the cover or from the top of the can to the lowest point of the can 4. A possible vacuum indicator can be secured against possible internal overflow in a manner not shown.

The insertion process now proceeds approximately as follows: The can 4 is inserted into the diving bell lower part 2. The fuel element 1 is lifted into the can 4 and the can cover 41

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with a seal and possibly held down. The suction to the cleaning system 22 is switched on. It ensures that no impurities, especially no sweat waste, can get into the pool water.

Now the diving bell upper part 3 - which was initially above the water level - is lowered to the stop yi . It has enough play compared to the lower part 2 that an exchange of water with the basin is possible at all times in accordance with the suction power. The upper part of the sleeve 4 with its connections 44 is thus in slightly compressed air.

Pressurized gas is now introduced into the sleeve 4 through the connections 44, which have already been adjusted and sealed during lowering, and the water contained therein is expelled via the line 11. This process can be carried out through one and the same line via the connections 44 by repeatedly inflating and releasing. The sleeve cover 41 is held down using appropriate devices 43 in the diving bell upper part 3. Then, if desired, it is filled with protective gas. The cover 41 and all possible connections 44, except for the evacuation nozzle, are then automatically welded tight. After the parts have been evacuated, this last connection is also welded tight using the radially extendable welding device 5.

The upper part of the diving bell 3 can now be lifted off and the can 4 with the gas-tight enclosed fuel element can be placed in a transport container provided. This transport container, known per se, ensures that one or more fuel elements are enclosed in a way that is safe from radiation and accidents and can therefore also be handled outside the safety area of the nuclear power plant. It can be used, for example, to bring the enclosed, canned fuel elements to a special storage facility where they remain until they can be reprocessed.

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Claims (5)

89 6 3 2 7 7 OE It · · Protection claims 1. Device for the tight casing of fuel elements in the fuel element pool of a nuclear power plant, characterized by a two-part immersion bell (2/3), the lower part (2) of which is permanently installed in the fuel element pool, connected to the pool cleaning system via a line (21) and provided with guides and holders for the casing (4) to be inserted, and that the upper part of the immersion bell (3) contains pre-centered connections or connections that can be pivoted onto the corresponding casing connections (44) for blowing out and possibly evacuating the casing (4) and welding devices (5) for closing it. 2. Device according to claim 1, characterized in that the diving bell upper part (3) carries observation windows and lighting devices (31). 3. Device according to claim 1 and 2, characterized in that the diving bell upper part (3) is provided with devices (43) for holding down the can lid (41). 4. Device according to claim 1 to 3, characterized in that the can cover (41) in the can (4) is sealed with a sealing ring (42) made of elastic material. 5. Device according to claims 1 to 4, characterized in that the sleeve is provided on the outside with a is provided with a decontaminant coating. 02 01