JP6442179B2 - Method for drying fuel rods contained in a fuel rod cylinder - Google Patents

Description

  The present invention relates to a method for drying a fuel rod housed in a fuel rod cylinder.

  Methods of the type described above are basically known from practice. The drying of the fuel rods is necessary especially when damaged fuel rods, so-called special fuel rods, have to be stored over a long period of time, for example over 40 years. Damaged fuel rods have deformations and / or tears, for example, in a sleeve tube containing radioactive fuel. Within the storage frame of the special fuel rod in the sedation tank, water penetrates into the fuel or into the capillaries formed in the fuel through the cracks in the sleeve tube of the special fuel rod. In practice, it is proven that it is effective to bring the special fuel rods into the fuel rod storage tube and to evacuate the storage space to separate the water that has entered the special fuel rod. Has been. However, it is worth trying to improve the reliability of pulling water away from special fuel rods in preparation for dry or intermediate storage. During dry storage, the fuel rod is preferably placed in a Castor (R) container or a Constor (R) container.

European Patent Application No. 0061819A2 German Patent Application No. 3226986A1

  The technical problem of the present invention is therefore distinguished by simple implementation and high performance, and the amount of water entering the special fuel rod, for example during storage in a sedation tank, is for dry storage. It is to provide a process of the type described above that can be reduced to an acceptable residual water content.

  In order to solve this technical problem, the present invention is a method for drying a fuel rod accommodated in a fuel rod cylinder, wherein one side is liquid-tight, particularly air-tightly closed in the inner chamber of the fuel rod cylinder. At least one storage tube is provided, in which case the fuel rod is inserted into the storage space of the storage tube from the open end of the storage tube, where the storage space of the storage tube is A method is taught, characterized in that it is preferably evacuated by a evacuation device and the fuel rod and / or the internal chamber of the fuel rod is warmed, preferably warmed by a warming medium. The optimum temperature medium circulates on the surface of the fuel rod or the surface opposite to the inner chamber of the fuel rod. In this case, the heat of the temperature-adjusting medium is preferably exchanged or transmitted to the wall of the fuel rod. For the purpose, the heat transferred to the wall of the fuel rod is directed to the inner space side surface of the wall, so that the inner chamber is preferably released by heat release from the inner space side surface of the fuel rod. It is warmed, preferably warmed.

  Particularly preferably, in the drying stage, the housing space of the housing tube is preferably evacuated by a evacuating device, and the appropriate temperature medium is circulated through the housing tube and is heated to the inner chamber of the fuel rod cylinder. And after the circulation of the containing pipe, it is led out from the inner chamber of the fuel rod as a cooled temperature-warming medium.

  The fuel rod can have a sleeve tube. Fuel is contained in the sleeve tube. The rod tube of the fuel rod has hairline-shaped crevices and / or holes, so-called pinholes. These hairline-shaped crevices and / or pinholes have a size in the range of, for example, 10 μm to 100 μm. Due to the method according to the invention for the drying of the fuel rods contained in the fuel rod cylinder, the drying of the fuel rods, in particular the drying of the special fuel rods, is efficient by such hairline-shaped crevices and / or pinholes. It becomes possible. The fuel rod cylinder has a cylinder lid portion, a cylinder side surface portion, and a cylinder bottom portion within the frame of the present invention. In this case, the fuel rod is particularly advantageously formed as a monolithic (integral) structure, preferably forged. The cylinder lid part, the cylinder side part, and the cylinder bottom part preferably form a wall part of the fuel rod cylinder. According to one embodiment, a lid opening is provided in the cylinder lid. This lid opening can be sealed by a sealing element, such as a screw lid, which is preferably screwed into the lid opening.

  Preferably, the receiving tube is a component of the receiving basket. This storage basket is preferably insertable through a lid opening into an internal chamber such as a fuel book. According to one advantageous embodiment, the storage basket has a plurality of storage tubes. Suitably, each receiving tube or each receiving space of the receiving tube is evacuated in the drying section. It is recommended that each receiving tube has one open end, which is connected to a vacuuming device, for example, for evacuating the receiving space.

  The fuel rod can be a broken fuel rod. This broken fuel rod is particularly referred to as a special fuel rod within the framework of the present invention. The special fuel rod has, for example, a deformation and / or a sleeve in a sleeve tube surrounding the fuel. Within the storage frame of the special fuel rod in the sedation tank, water penetrates through the sleeve tube tear into the fuel and preferably into the capillaries formed in the fuel. For the purpose, once the fuel rods are dried, the fuel rods, and preferably the special fuel rods, are placed in a receiving tube closed on one side.

  Preferably, the sealing element is pulled away from the lid opening and replaced by a drying head for drying the fuel rods. The drying head is connected with the open end of one or more receiving tubes individually and preferably exclusively with a vacuuming device.

  The flow path of the optimum temperature medium is formed through the inner chamber of the fuel rod and away from the accommodation space of the accommodation pipe. Preferably, the temperature of the appropriate temperature-adjusting medium is adjusted by, for example, a heating device. In accordance with one embodiment, the tempered media is supplied to the internal chamber, preferably as the tempered media that is tempered through the first tempered media path. For purpose, the tempering media is supplied on the lid side through the first tempering media path into the interior chamber of the fuel rod and out of the inner chamber through the second tempering media path. Preferably, the tempered media flows into an opening on the bottom side of the cylinder of the second tempered media path and circulates through the second tempered media path before passing through the lid opening, preferably by the drying head. It is conveyed back to the heating device for the purpose. According to one embodiment, the tempering medium is warmed to a preset temperature (drying temperature) in the heating device and is introduced by the drying head, preferably into the interior of the fuel rod, for purposes. .

  In the drying stage, the temperature of the temperature-controlled medium is adjusted under the condition that the temperature of the temperature-controlled medium is at least as high as the storage temperature of the fuel rod. Preferably, the temperature of the tempering medium is higher than the storage temperature of the fuel rod in the drying stage. The storage temperature is preferably the temperature at which the fuel rods are stored, preferably after drying, in a transport container and / or storage container, for example for 40 years, outside storage, or outside a sedation tank. Preferably during the dry intermediate storage, the transfer container and / or the inner chamber of the storage container and / or preferably the inner chamber of the fuel rod are for example stored at a storage temperature of about 60 ° C. to 140 ° C., preferably from about 80 ° C. It has a storage temperature of 120 ° C.

  According to one embodiment, the tempered media has a temperature of at least 30 ° C and preferably at least 60 ° C during the performance of the drying stage. According to one advantageous embodiment, the tempered media has a temperature of at least 100 ° C. and preferably at least 120 ° C. during the performance of the drying stage. It has proved effective that the tempered media is introduced into the interior of the fuel rod during the drying phase, for example at a temperature of 140 ° C. to 160 ° C. Particularly advantageously, the temperature during the introduction of the tempered media into the inner chamber of the fuel rod during the impression phase is 150 ° C. or about 150 ° C. It has proved advantageous to carry out the drying step for a minimum drying time of at least 24 hours.

During the management phase, the residual water content present in the storage space of the storage pipe and / or in the internal chamber is examined, preferably in the storage space or in the internal chamber, at a preset pipe pressure or internal chamber. It is recommended that the pressure be adjusted and that the change in pipe pressure or internal chamber pressure be known over time. Preferably, the preset tube pressure and / or inner chamber pressure is lower than atmospheric pressure. In the management phase, it is within the framework of the present invention that the preset tube pressure and / or internal chamber pressure is adjusted and the containment space and / or internal space is closed fluid-tight. It is recommended that changes in the tube pressure and / or the internal chamber pressure of the internal chamber in the containment space containing the fuel rods, which are closed in a liquid-tight manner, are measured. It is recommended that a pressure increase can be confirmed in the containment space and / or the internal chamber in the management stage, and this pressure increase is lower than the preset allowable pressure change, preferably 4 × 10 ⁻ every 30 min. ^If the pressure change is lower than ⁴ MPa, it is possible to determine the end of the drying stage, for example by the management stage.

  Depending on the purpose, the tube pressure and / or the internal chamber pressure can be allowed to change over time in the liquid tightly closed housing space and / or the internal chamber of the liquid tightly closed internal chamber in the management phase. Under an acceptable temporal change in pressure, the fuel rod is closed by a sealing element. The drying head is pulled away from the tube lid under the opening of the lid opening, and the lid opening is closed by a sealing element and preferably by a screw lid. When the sealing element is completely screwed into the lid opening, the sealing element or the screw lid has a flange (collar part), and this flange contacts the end face of the cylinder lid on the side opposite to the inner chamber side. It is possible to touch. Particularly advantageously, the sealing element and the flange of the sealing element according to one embodiment are welded to the tube lid.

  It has proven effective to use air and / or nitrogen as the warming medium. Depending on the purpose, the warming medium is warm air or warm air. The tempering media carries water or moisture out of the inner chamber of the fuel rod during the drying phase. The tempered media functions as a carrier medium during the drying phase.

  According to one embodiment, during the drying stage, water is pulled away from the inner chamber of the fuel rod, preferably pumped and / or discharged by carrier gas. The carrier gas is particularly preferably the same as the temperature-controlled media. For the purpose, during the preparation phase, a drainage lance is inserted into the inner chamber of the fuel rod, preferably through the second tempered media path, and mistakes present in the inner chamber are sucked by the drainage lance.

  Particularly preferably, the preparation stage is first carried out, followed by the drying stage. It is basically possible to carry out only the drying stage.

  According to one embodiment of the method according to the invention, the preparation stage and / or the drying stage are carried out when the fuel rod is stored in water. Storage of fuel rods in water preferably means that the fuel rods are stored in storage tanks or sedation tanks. It is possible that a thermal insulation is placed around the fuel rod, which allows the fuel rod to be heated to a temperature in excess of 100 ° C., preferably under the evaporation of water surrounding the fuel rod. is there. For the purpose, the insulation sheath is designed under the condition that the water present between the insulation sheath and the fuel rod can be at least partially evaporated during the drying stage.

  Preferably, a preparation stage and / or a drying stage are performed. At that time, the fuel rod is processed outside the water tank. According to one embodiment of the invention, the fuel rod is surrounded by an air environment or air during the drying phase and / or during the preparation phase. It is recommended that the fuel rod be lifted from the sedation tank and protected within a protective block, preferably after slicing. After separating the seal plate on the cylinder lid side, a preparation step and / or a drying step are performed outside the water tank (sedation tank). After performing the preparation and / or drying steps, it is recommended to fill the inner chamber of the fuel rod with helium and / or close the fuel rod with a sealing element. After drying the inner chamber of the fuel rod, it is inserted into the transfer container and / or storage container in the usual manner.

  The present invention is based on the idea that the fuel rod or the special fuel accommodated in the fuel rod can be dried with high reliability by the method according to the invention. The method according to the invention then stands out with a reliable and simple feasibility. For example, special fuel rods containing uranium dioxide pellets (Uranioxidpellet in German) or nuclear fuel pellets can be reliably dried and water entering, for example, in capillary structures or through existing sleeve tube leaks. Has been shown to be able to be reliably detached from special fuel rods. According to one embodiment, the method according to the invention for drying fuel rods contained in a fuel cylinder is suitable for drying mixed oxide fuel (MOX fuel) or fuel from a reprocessing facility. In a particularly advantageous manner, with the method according to the invention, the drying takes place at a temperature which is above the temperature during the subsequent storage, so that a subsequent discharge of water from the special fuel rod in the fuel rod cylinder occurs. Occurs only to the extent that it can be ignored or ignored. It has been shown that special fuel rods from a pressurized water reactor facility can have up to 50 g of water for each special fuel rod. Special fuel rods from boiling water reactor facilities can contain up to 80 g of water. With the method according to the invention, a residual water volume of less than 1 gram per fuel rod can be realized without problems.

  In the following, the present invention will be described with reference to the drawings which merely represent embodiments.

The perspective view of the drying processing station for enforcing the method concerning invention. FIG. 3 is a simplified cross-sectional view of a fuel rod during a preparation stage. FIG. 3 is a simplified cross-sectional view of a fuel rod during a drying stage.

  The fuel rod 1 is inserted into water in a protective basket 2 in a sedation tank (not shown). A protective cover 3 is mounted on the protective basket 2 preferably and according to the embodiment. The fuel rod 1 accommodated in the protection basket 2 is lifted from the water in the sedation tank by the crane 4, drips the remaining water, and then inserted into the protection block 5 of the drying treatment station 6, and tilted. Protected against.

  FIG. 2 simply shows that the lid opening 7 of the fuel rod 1 is opened after removing the protective cover 3 and the sealing lid (not shown). In FIG. 2, it can be seen that a storage basket 8 is arranged in the fuel rod cylinder 1 with a plurality of storage tubes for fuel rods not shown. In the preparatory stage represented schematically in FIG. 2, the storage basket 8 has a central tube 10. The central tube 10 extends from the end of the storage basket 8 on the lid opening side to the end of the storage basket 8 on the tube bottom 11. A drainage lance 12 is introduced into the central pipe 10 at the preparation stage. At the end on the cylinder bottom side, the central tube 10 has a connection for guiding the liquid with the inner chamber 13 of the fuel rod cylinder 1. By the arrow 14, the water present in the inner chamber 13 of the fuel rod 1 through the drainage lance 12 is conveyed to a pump device (not shown), and is thereby separated from the inner chamber 13 of the fuel rod 1. It is represented.

  FIG. 3 shows the fuel rod 1 of FIG. At that time, the drainage lance 12 is pulled away from the central tube 10, and the drying head 15 is placed in the lid opening 7. The drying head 15 causes the fuel rod 1 or the inner chamber of the fuel rod 1 as the optimum temperature medium and the hot air in the flow path formed between the accommodation basket and the first optimum temperature medium path to be the fuel. It can be introduced into the inner chamber 13 of the rod 1. This is represented by arrow 16. The hot air is supplied to the drying head by a heating device (not shown). The hot air is supplied through the drying head 15 under the condition that the hot air circulates in the housing tube 9 from the head side or lid opening side end to the foot side or bottom side end. 1 is introduced into the internal chamber 13. Warm air is redirected at the bottom or cylinder bottom end of the storage basket 8 and returned to the heating device through the central tube 10 and the drying head 15. This is represented by arrow 17. The central tube 10 represents a second temperature-controlled media path according to the embodiment. Preferably and in accordance with the embodiment, warm air is introduced into the inner chamber 13 of the fuel rod cylinder 1 through the drying head 15 so that the warm air does not enter the housing tube 9 that houses the fuel rods.

  The drying head 15 is connected to a vacuuming device (not shown). With this evacuation device, the accommodation space A of the accommodation tube 9 of the accommodation basket 8 is evacuated. The cooperation of the drying head 15 with the fuel rod 1 and the housing tube 9 of the housing basket 8 allows the housing space A to be evacuated and allows the housing tube 9 to have an appropriate temperature regardless of the pressure drop in the housing tube 9. Acts as done by tempering media or hot air. In this way, a high drying rate is achieved while preventing the activity from being released. For example and according to the embodiment, the inner chamber 13 of the fuel rod 1 and the storage basket 8 are dried at a temperature of 150 ° C. At that time, the amount of residual water in the inner chamber 1 of the fuel rod 1 is lowered so that it is ready for long-term storage after the fuel rod 1 is closed.

Claims (14)

A method for drying fuel rods contained in a fuel rod cylinder (1),
In the internal chamber (13) of the fuel rod (1), at least one containing pipe (9) whose one side is liquid-tightly closed is provided,
A fuel rod is inserted through the open end of the storage tube (9) into the storage space (A) of the storage tube (9);
In the accommodation space (A) is dried out of the housing tube (9), preferably is evacuated by a vacuum evacuation device, and the fuel rod tube (1) and / or fuel rods cylinder internal chamber (1) (13) is suitable temperature Temperature-adjusted, preferably warmed by the soaking medium, and the soaking medium is fed into the inner chamber (13) of the fuel rod (1) while circulating through the containing tube (9) and performing the temperature- warming , and after a suitable temperature of the medium is circulating in the housing pipe, wherein the Rukoto derived from the internal chamber of the fuel rod tube (1) as cooled appropriate temperature of the media (13). The flow path of the optimum temperature medium is formed through the inner chamber (13) of the fuel rod (1) and separated from the accommodation space (A) of the accommodation pipe (9). The method according to 1 . 3. A method according to claim 1 or 2 , characterized in that the temperature in the drying stage of the conditioned medium is adjusted under the condition that the temperature of the conditioned medium is at least as high as the storage temperature of the fuel rod. . 4. Process according to any one of claims 1 to 3 , characterized in that the tempering medium is at a temperature of at least 30 ° C, preferably at least 60 ° C during the performance of the drying stage. 5. Process according to any one of claims 1 to 4 , characterized in that the tempering medium is at a temperature of at least 100 <0> C, preferably 120 <0> C during the performance of the drying stage. During the management phase, the residual water content present in the storage space (A) of the storage pipe (9) and / or in the internal chamber (13) is inspected, and a pre-settable pipe pressure is stored in the storage space (A ) within or presettable internal chamber pressure is adjusted within the chamber (13) inside, and that the temporal variation of the tube pressure or internal chamber pressure is grasped claim 1, wherein the 5 The method according to any one of the above. During management phase, presettable tube pressure and / or internal chamber pressure is adjusted, and to claim 6 accommodation space (A) and / or the inner chamber (13), characterized in that the closed liquid-tight The method described. The change in tube pressure or internal chamber pressure is in the management phase under a preset time change of the tube pressure in the liquid tightly closed containment tube (9) or under a preset time change of the internal chamber. When located, the drying step is completed, and the method according to any one of claims 1 to 7, the fuel rod tube (1) is characterized in that it is closed by the blockade element. The method according to any one of claims 1 to 8, the air and / or nitrogen as a suitable temperature of the media, characterized in that it is used. Water in the preparation stage is pulled away from the fuel rod tube inner chamber (1) (13), either preferably being pumped, and is discharged by / or carrier gas from claim 1, wherein the 9 The method according to one item. In preparation stage, according to claim 10 drainage lances (12) is inserted into the chamber (13) inside, and water present in the internal chamber (13) inside, characterized in that sucked by the drainage lances (12) The method described in 1. 12. A method according to claim 10 or 11 , characterized in that a preparatory step is first carried out, followed by a drying step. When the fuel rod tube (1) is stored in water, the preparation phase and / or method according to any one of claims 1 to 12 in which the drying stage is characterized in that it is carried out. Preparation stage and / or drying steps are carried out, method according to any one of claims 1 to 12 for the fuel rod tube (1) is characterized in that it is handled outside of the tank.

Images