DE4037805A1 - Spent nuclear fuel element transport and storage container - comprises steel inner component, in nodular cast iron@ casing and intermediate obtd. by carbon@ diffusion for continuous heat transfer - Google Patents

Abstract

Container (a) an outer casing and integral bottom of cast iron, (nodular cast iron); (b) an auxiliary component which forms fuel element accommodation chambers and which comprises austenitic CrNi steel component included during casting of iron; and (c) an intermediate layer which is formed between the auxiliary component and the container casing and bottom during during casting and which has decreasing carbon content in the direction towards the auxiliary component. ADVANTAGE - High resistance of the austenitic steel to corrosion by highly active waste conc. at up to 450 deg.C.

Description

The invention relates to a transport and storage container for irradiated nuclear reactor fuel elements with an outside coat with molded bottom and attached or inserted set lid and with a holding chamber for the Auxiliary component forming nuclear reactor fuel elements. - It it goes without saying that the lid attached in general is picked up by a cover holder. Such a Transport and storage containers have mechanical on the one hand Functions, also to perform shielding functions and must also dissipate the heat that the release irradiated nuclear reactor fuel assemblies. The he The invention also relates to a method for producing a such transport and storage container.

In the transport and storage area known from practice The auxiliary structure is the container from which the invention is based part of an independent component, which subsequently in the interior of the transport and storage container inserted, even if it is mostly stipulated in this. That is after partial in terms of heat dissipation because between the Auxiliary component and the outer jacket or the bottom of the Trans port and storage container air gaps not excluded can be and this the heat transfer in disruptive Affect dimensions. However, it is known (DE-OS 21 05 581), the space around the reception chambers of the auxiliary building partly with a material with good thermal conductivity to fill. It is also suggested as a good material  Thermal conductivity to use the cast iron from which the Transport and storage containers in the rest, and open bar made of steel in appropriate combs postings or holes. Also at However, this embodiment is the heat transfer between the auxiliary component and the transport and storage container easily affected.

The invention has for its object a transport and storage container of the construction described above further train that the heat transfer between the Auxiliary component and the outer jacket or the bottom of the Trans port and storage container is no longer impaired, while improving corrosion resistance.

The object of the invention is to achieve this object Transport and storage container for irradiated nuclear reactor Fuel elements with an outer jacket with a molded bottom and attached or inserted lid and with a Receiving chambers for the nuclear reactor fuel assemblies Auxiliary component, the outer jacket with the bottom of cast iron iron, preferably made of Spherolithic cast iron, and the auxiliary component made of an austenitic chrome / nickel Steel exist, the auxiliary component in the cast iron is cast in and being between the auxiliary component and the outer jacket or the bottom of the transport and storage an intermediate pouring layer with the auxiliary component decreasing carbon content is formed. After preferred The embodiment of the invention consists of the auxiliary component from a chrome / nickel steel with about 18% chrome and about 11% nickel.  

Basically, it is known for transportation and storage holders for irradiated nuclear reactor fuel elements for the purpose of corrosion protection with austenitic steels too ar beiten (DE 21 05 581), in the form of not cast, but retrofitted linings on the inside of the lid and in the lid holder.

The invention is based on the surprising fact that in a transport and storage container made of cast iron, ins special from spherulitic cast iron, in the manufacture an auxiliary component made of an austenitic chrome / Nickel steel cohesively and completely can be welded in if the casting is done in this way leads to the fact that the intermediate layer described is formed. It is a question of the casting temperature. With sufficient Pouring temperature is surprisingly reached that the liquid cast iron transfers some of its carbon to the Stainless steel gives off, apparently initially through diffusion sion. The enamel is reduced by the absorption of carbon temperature of the stainless steel. The described one is formed Intermediate layer from the cast iron on the one hand and the work material of the auxiliary component on the other hand with the stainless steel decreasing carbon concentration. Surprisingly the austenitic chrome / nickel steel retains the rest its corrosion resistance in relation to the corrosive type grabbed from the so-called High Active Waste Concentrate in the auxiliary component results and at a temperature of up to 450 ° C must be guaranteed. The heat conductive speed is optimal and not by gaps or the like  impaired. The intermediate layer affects the Thermal conductivity in no way. That is special then the case when the auxiliary component has an exit wall has a thickness of about 5 mm and a pouring between Layer of about 2 mm thick is formed, about 3 mm the original wall thickness of the auxiliary component Have stainless steel composition.

In the context of the invention, the design of the auxiliary structure partly adapted to the requirements of the Trans port and storage containers in total and to the auxiliary component be provided with a receptivity. After before Zugter embodiment of the invention, the auxiliary structure partly from each other, arranged parallel to each other Stainless steel pipes welded along the surface lines. At a preferred embodiment, which is characterized by produc characterized technical simplicity and it on a allows the intermediate layer described the auxiliary component is a component a mold core when casting the outer shell and the bottom of the transport and storage container has been poured.

In the following, the invention is based on only one Embodiment representing drawing in more detail explained. They show a schematic representation

Fig. 1 is a vertical section through a transport and storage container without lid,

Fig. 2 is a horizontal section in the direction A-A through the subject matter according to Fig. 1,

Fig. 3 shows the greatly enlarged detail B from the article according to Fig. 1,

Fig. 4 corresponding to FIG. 2 a section through another embodiment of a transport and storage container according to the invention,

Fig. 5 is a schematic diagram for explaining the process of the invention.

The transport and storage container shown in FIGS . 1 to 4 is intended for irradiated nuclear reactor fuel elements. In its basic structure, it consists of an outer jacket 1 with molded-on base 2 . One recognizes a cover receptacle 3 for a cover that has not been drawn. Essential is a receiving chambers 4 for be radiated nuclear reactor fuel assembly auxiliary component 5th The outer jacket 1 with the bottom 2 consists of cast iron, preferably of spherulitic cast iron. The auxiliary part 5 consists of austenitic chrome / nickel steel. If one adds the Fig. 5, it is seen that the auxiliary component is molded as it lost 5 as part of a mold core 6 in the transport and storage containers. Fig. 3 makes it clear that a material connection between the auxiliary component 5 and the outer jacket 1 or the bottom 2 is formed. The intermediate pouring layer is thus formed. In addition, arise in the cooling of the cast outer jacket 1 with its bottom 2 stress conditions, which contribute to the solution of the problem underlying the invention.

In the embodiment according to FIGS. 1 and 2, the auxiliary component 5 is made of square-shaped receiving chambers 4 in plan from auxiliary component walls 7 that intersect. In the embodiment according to FIG. 4, the auxiliary building part 5 forms circular receiving chambers 4 in plan from tubes 8 connected to one another. From Fig. 5 it can be seen that with the auxiliary component 5 as the core component of the core 6, the mold was built. The outer jacket 1 with the bottom 2 was cast from cast iron, the auxiliary component 5 as a lost core component was poured in materially sig. It can be seen that during the casting process, the receiving chambers 4 of the auxiliary component 5 are filled with molding sand 9 , which is later removed. - In the example, the transport and storage container is poured over head in a rising pour. In this respect, it is connected to known technologies.

An embodiment in which the Cast iron with a directional analysis

The rest of iron and usual admixtures apply. For the auxiliary building part has proven an embodiment in which for a directional analysis with the chrome / nickel steel

The rest of iron and usual admixtures apply.

Claims (5)

1. Transport and storage container for irradiated nuclear reactor Fuel elements, - with an outer jacket with molded Bo the and attached or inserted lid and with a receiving chamber for the nuclear reactor fuel elements forming auxiliary component, the outer jacket with the Cast iron base, preferably spherulitic cast iron iron, as well as the bilge component made of an austenitic Chrome / nickel steel exist, with the auxiliary component in the Cast iron is poured in and being between the auxiliary structure part and the outer jacket or the bottom of the transport and Storage container with a pouring intermediate layer to help Component decreasing carbon content is formed. 2. Transport and storage container according to claim 1, wherein the Auxiliary component made of a chrome / nickel steel with about 18% Chromium and about 11% nickel. 3. Transport and storage container according to one of the claims 1 or 2, wherein the auxiliary component has an exit wall thickness of about 5 mm and an intermediate pouring layer about 2 mm thick and about 3 mm of original thickness of the auxiliary component the original Have stainless steel composition. 4. Transport and storage container according to one of the claims 1 to 3, the auxiliary component from parallel to each other arranged ver with each other along the generatrices welded stainless steel pipes.   5. Transport and storage container according to one of the claims 1 to 4, wherein the auxiliary component as part of a form core when casting the outer jacket and the bottom of the Transport and storage container is formed.