DE2105581A1 - Transit container for irradiated nuclear fuel - with - cylindrical compartments arranged around a central space - Google Patents

Abstract

The main radiation shield has an external cladding of heat insulating material e.g. sand, within an outer steel jacket. The central container is divided into a number of cylindrical compartments embedded in a body of high thermal conductivity and arranged in a circle around a central empty space. The thermally conductive material may be cast in situ or of powdered material poured in. The configuration reduces self induced heating in the material and such heat as is developed is conducted into the heat sink.

Description

Transport containers for irradiated nuclear fuels The invention relates to a transport container for irradiated nuclear fuel, in which the inner container concentrically surrounding jacket for radiation shielding on its outer circumference is encased by an insulating layer and the inner container on the front side by a lid is completed, which consists of a radiation shielding material.

The radiation shielding provides the transport of irradiated nuclear fuel together with the removal of the residual heat resulting from radioactive decay that The main problem is. For safety reasons, there are transport containers of this type Regulations that include a ball test on a spike from a height of 1t5 m as well on a flat plate from a height of 9 m. In addition, the transport container withstand an external load of 30 minutes at 800 °, Bs are Transport container known, which has a central interior space for receiving the nuclear fuel which is surrounded by a thick homogeneous or combined wall. at the known designs contain the interior either connected with special air Rib-like heat conduction devices or water as a heat carrier, for insulating the in the event of heat penetrating from the outside, it is already known an insulating layer (hyd. Ca 804. H20) between an outer and an inner container to be provided, whereby the Ca S04 Substances are added by the one certain thermal conductivity is achieved. It also contains the one for the insulating layer provided space water in bound or unbound form, which in the case of a Fire must be discharged as steam via special devices. Furthermore are Transport container known in which a cooling system to improve heat dissipation is provided that must be in action during transport.

However, it has been shown that the known transport containers in have disadvantages in many respects. So is the heat transfer from nuclear fuel on the wall of the transport container unfavorable if the interior contains air, The arrangement of heat conducting plates only brings about a partial improvement here. If water is used as a heat transfer medium, there is better heat conduction present, but there is now the disadvantage of steam formation, which in particular a pressure build-up in the transport container in the event of a higher external temperature effect causes. Another disadvantage of filling with water is the risk of oxyhydrogen gas being formed and in the arrangement of additional safety and control devices.

The combination of Ca S04 used as the outer insulating layer. H20 with fillers has the disadvantage of the risk of erosion. There are also fitters required, which ensure safe vapor removal from the insulating layer, A particular disadvantage of the insulating layer is the strong change in the Thermal conductivity after exposure to fire. Additional cooling systems during working or having to be ready for operation during the entire transport are sensitive in the event of accidents due to fall or fire and require a large amount of maintenance.

The purpose of the invention is to provide one that meets the requirements To ensure heat transport of nuclear fuel to the wall of the transport container without disadvantages such as the formation of steam, the build-up of pressure, the formation of oxyhydrogen and the like

accept, at the same time on additional security and control devices to do without and a great maintenance effort as well as a high sensitivity avoid is.

The invention is based on the task, a Transportbe container for creating radioactive substances in which using the inner container concentrically surrounding jacket, which is on its outer periphery by an insulating layer is enveloped and a lid that closes off the inner container at the front a radiation-shielding material that removes the effects of radioactive decay residual heat generated without the interposition of special transport media is, at the same time i.a. the coefficient of thermal conductivity of the insulating layer despite the effect of heat must be kept constant.

According to the invention this is achieved in that the nuclear fuel receiving inner container consists of a number of chambers that are concentric are arranged to a centrally provided central space, the space around the Chambers is filled with a material of good conductivity, such that the material good thermal conductivity pourable or pourable, preferably in the form of Powder, is. A material with good thermal conductivity is advantageously used Low density material, e.g. B. aluminum, for the application that after Pouring in is tamped.

By this measure it is possible that the heat directly over the material with good conductivity passed into the jacket for radiation shielding and can thus be discharged.

In addition, these measures also result in technological advantages Art. This is how the inner wall of the transport container is now only to be processed by sandblasting, while previously a machining process was required. Furthermore, the chambers can also be of any shape for the goods to be transported be adapted, because with the material good conductivity, which is introduced as a filler any shape of the space can be filled. These advantages also occur if the material has good thermal conductivity from the base material of the jacket for radiation shielding and together with this base material is introduced by casting, the central space having a centrally arranged opening which penetrates the body produced by casting over its entire length.

According to a further feature of the invention, the insulating layer is on outer circumference of the jacket for radiation shielding also on the front sides of the transport container provided and consists of sand (silo2), the insulating layer of a steel jacket is wrapped. The advantages of this feature consist of one after the other Temperature exposure again and again constant thermal conductivity of the insulating layer as well in greater security against corrosion. Forms in the insulating layer of sand there is no water vapor, so that the conventional blow-off devices are not required. the An insulating layer of sand can withstand greater forces with good forces when exposed to a thorn Record attenuation. In order to avoid shifting the sand, there are between the steel jacket and the jacket for radiation shielding in the axial and circumferential directions Bars made of insulating material provided.

Taking into account the use of concentrically arranged Chambers that hold the irradiated nuclear fuel are the transport containers designed such that the chambers on a common base plate on the floor of the transport container are attached, the base plate on to the Bottom of the transport container centered and between the base plate and the floor of the transport container, the material of good conductivity is also arranged.

The space around the chambers, i.e. H. the space covered with material good thermal conductivity is filled, is watertight by this z. B. on the lid of the transport container trimmed side by a welded cover plate is hermetically sealed. The hollow space is also hermetically sealed trained middle space regardless of whether this middle space by a centrally arranged tube is formed, to which the chambers are arranged concentrically are, or whether the central space through which the jacket for radiation shielding on its the entire length of the opening, in which case the material has good conductivity, which surrounds the chambers, made of the base material of the jacket for radiation shielding consists.

So that the chambers can also be loaded and unloaded under water can, the chambers have bores on their lower side, which have a common at the same time serving for centering collecting container via a centrally arranged connected to the outside with a shut-off device for drainage are. If the chambers are loaded with irradiated nuclear fuel, the can through the discharge pipe-related opening in the bottom of the transport vessel also through one of the Radiation shielding material to be filled.

The transport container can also be designed so that the bottom is carried out separately from the jacket for radiation shielding and from the chambers. Regardless of this contact, the chambers can be shared through the lid of the transport container must be closed, or it is for the closure of everyone Chamber has a separate lid. The lid space itself is complete lined with stainless steel and is inside the lid arranged a device for receiving the lid. The device for recording of the lid also serves to center the outer steel jacket, which is made at the bottom of the transport container by a pin.

Carrying pins are arranged on the outer circumference of the transport container, which are hollow and filled with insulating materials.

The invention is to be closer to two exemplary embodiments below explained. The accompanying drawings show: FIG. 1: a section through a transport container in which the space around the chambers is good with a material Thermal conductivity is filled, Fig. 2: half of a plan view according to Fig. 1 in section, FIG. 3: the lower part of the transport container according to FIG. 1, however with a device that allows the chambers to be loaded and unloaded under water, Sig. 4: a section through a transport container, in which the material is good Thermal conductivity consists of the base material of the jacket for radiation shielding and is introduced together with this base material by casting, Fig. 5: the Top view according to FIG. 4 in half and in section.

In the case of the transport container shown in FIGS. 1 and 2, there is the inner container consists of the chambers arranged concentrically to a central space 1 2 together with an inner tube 3, which forms the central space 1, on a base plate 4 are welded tight. About the guide 5 on the bottom 6 of the Transportbe container the base plate 4 is centered. The inner container has above one Cover plate 7, which with the inner wall of the transport container, the chambers 2 and with the inner tube 3 is welded, so that the good conductivity with the material 8 filled space 9 between the chambers 2 hermetically sealed to the outside is. The middle space 1 is on its side facing the cover 10 with a Plate 11 separately welded tight. The one from the chambers 2 is surrounded by the Material of good conductivity 8 existing inner container through the jacket 12 for Radiation shielding being cast steel both for this jacket 12 and for the floor 6 is used. The lid 10 is designed so that it seals the Chambers 2 makes a total of. Both the inside of the lid 10 is as the lid space 13 is also lined with stainless steel.

The transport container constructed in this way has an insulating layer on all sides 14 surrounded by sand, which is surrounded by an outer steel jacket 15. About shifts of the sand are to be avoided both in the axial and in the circumferential direction 16 arranged from heat insulating material. The outer steel jacket 15 will not only held on the perimeter of the transport container, but it is also both on the ground 6 and on the cover 10 a centering is provided by the centering on the bottom 6 by a pin 17 and on the cover 10 by the device provided in the cover 10 18 for receiving the cover 10 takes place. Bm the outer circumference of the transport container are hollow shaped support pins 19 are arranged, which with heat insulating materials are filled out.

In a modification of the transport container according to FIG. 1, the transport container according to Fig, 3 for loading and unloading under water each chamber 2 on its lower Side provided with a bore 20, which has a common collecting container 21, which also serves to center the inner container, via the discharge pipe 22 leads to the outside. The discharge pipe 22 is provided with a shut-off device for drainage 23 provided.

In the case of the transport container according to FIGS. 4 and 5, the material is good Thermal conductivity from the base material of the jacket for radiation shielding, d. That is, a single cast steel body 24 is provided in which further openings 26 are provided concentrically to a centrally arranged opening 25 are, in the tubes 28 provided with welded-in bottoms 27, which the chambers 2 form, have moved in. The one formed by the centrally arranged opening 25 Middle room 1 is welded tightly at the top.

The lid space 13 is also in this transport container with stainless Steel lined in this training of the transport container with the pipes 28, which form the chambers 2, is welded. The bottom 6 separated from the body 24 is, serves here only as radiation protection, so that no forces as a result of the bottom 6 Internal pressure are to be recorded.

Claims (18)

Patent claims: Transport container for irradiated nuclear fuel, in which the Inner container concentrically surrounding jacket for radiation shielding on its outer The circumference is encased by an insulating layer and the inner container through a cover is closed, which consists of a radiation-shielding material, characterized in that the inner container receiving the nuclear fuel consists of a number of chambers (2) which are concentric to a centrally arranged Central space (1) are arranged, the space (9) around the chambers (2) with a Material with good thermal conductivity (8) is filled in such a way that the material is good Thermal conductivity (8) pourable or pourable, preferably in the form of powder, is. 2. Transport container according to claim 1, characterized in that the material with good thermal conductivity (8) from the base material of the jacket (1) for radiation shielding and together with the base material by casting is introduced, wherein the central space (1) has a centrally arranged opening (25) which penetrates the body (23) produced by casting over its entire length, 3. Transport container according to claim 1, characterized in that the material is good Thermal conductivity (8) is a material with a low density, such as. B. aluminum or its alloys. 4. Transport container according to claim 1 to 3, characterized gekennzeinet, that the insulating layer (14) on the outer circumference of the jacket (12) for radiation shielding is also provided on the front sides of the transport container and is made of sand (silo2) consists, wherein the insulating layer (14) is surrounded by a steel jacket (15). 5. Transport container according to claim 4, characterized in that between the steel jacket (is) and the jacket (12) for radiation shielding in axial and webs (16) made of insulating material are provided in the circumferential direction. 6, transport container according to claim 1 and 3 to 5, characterized in that that the chambers (2) on a common base plate (4) on the floor (6) of the Transport container are attached. 7. Transport container according to claim 6, characterized in that the base plate (4) is centered on the floor (6) of the Transportbehäl age. 8. Transport container according to claim 1, characterized in that the space (9) around the chambers (2) is watertight. 9. Transport container according to claim 1 and 2, characterized in that that the central space (1) is designed as a sealed cavity. 10. Transport container according to claim 1 and 3 to 9, characterized in that that between the base plate (4) and the bottom (6) of the transport container, the material good thermal conductivity (8) is arranged. 11. Transport container according to claim 1 to 10, characterized. net that the bottom (6) of the transport container from the jacket (12) as well is carried out separately from the chambers (2), 12. Transport container according to claim 1 to 11, marked thereby. net that the chambers (2) have bores (20) on their lower side, the collecting container, which is used for centering at the same time (21) are connected to the outside via a centrally arranged discharge pipe (22). 13. Transport container according to claim 1 to 12, characterized in that that the shut-off device for drainage (23) is arranged in the bottom (6) of the transport container is. 14. Transport container according to claim 1 to 13, characterized in that that the chambers (2) together through the lid (10) of the transport container or are individually closed. 15. Transport container according to claim 1 to 14, characterized in that that the cover space (13) is completely lined with stainless steel. 16. Transport container according to claim 1 to 2, characterized in that that within the lid (10) a device (18) for receiving the lid (10) is arranged. 17. Transport container according to claim 1 to 16, characterized in that that on the outer periphery of the transport container support pins (19) are arranged, the are hollow and filled with insulating materials. 18. Transport container according to claim 1 to 17, characterized in that that the steel jacket (15) on the bottom (6) by a pin (17) and on the cover (10) is centered by the device (18) for receiving the lid (10).