DE1097582B - Nuclear reactor fuel element - Google Patents

Description

GERMAN

The invention relates to a fuel element for a nuclear reactor, in which the fuel elements are arranged like a net or grid, which are cooled by a fluid.

It is known to convert nuclear fuel rods or strips, for example made of uranium, into a material with low Enveloping neutron absorption and the nuclear fuel through a coolant flow in To cool contact with the shell material. If sometimes the collapse or the destruction of the jacket or shell material for safety reasons in unusual conditions or circumstances is accepted, then a material with a suitable operating temperature range is used selected, whereby the neutron absorption effect comes into consideration only in the second place. In such a case is accepted with the decrease in nuclear efficiency.

The fuel element according to the invention is characterized in that it is one of solid Moderator material has existing core, on the outer surface of which fissile material is applied, and that the moderator fissile material body is comprised of a shell (a container) made of a material high thermal neutron cross-section is surrounded.

According to the invention, panels of fissile material are "attached to the inner surface of a container, which is made of the aforementioned shell material and filled with moderator material, one A plurality of these containers are spaced apart to keep a coolant between them to let through. The containers can have a hexagonal prismatic shape, and a plate of fissile Material is made by means of solid moderator material, which is located inside the container, held or pressed against the inside of each hexagonal face. These plates can be made from weakly enriched Uranium dioxide inserts in the surfaces of a hexagonal rod made of berryllium consist, wherein the container is made of steel.

According to a modified embodiment of the invention, the fuel elements are pierced or hollow and are penetrated by coolant channels, the walls of which are made of a material of high Thermal neutron cross-section that interacts with the coolant at operating temperature tolerates.

The fuel element according to the invention is essentially over a first portion of his Surface through a first material which has optimal core properties, i. H. a low one Has cross-section for thermal neutrons, and a second part of its surface

Nuclear reactor fuel element

Applicant:

United Kingdom Atomic Energy Authority, London

Representative: Dipl.-Ing. E. Schubert, patent attorney,
Siegen, Oranienstr. 14th

Claimed priority:
Great Britain 25 November 1957

Roy Alfred Ulfketel Huddle,
East Ilsley, Newbury, Berkshire,

and Gerald Arthur Hughes,

Abingdon, Berkshire (UK),

have been named as inventors

delimited by a second material, which has optimal physical and chemical properties with respect to the selected coolant. The invention is now based on it, for example reproducing drawing are explained in more detail. The drawing represents a graphical one Cross section through a fuel element, that of six similar, only partially indicated fuel elements is surrounded, and is thus sufficient over the grid-like structure of the reactor core Exposure.

In the case shown, the fuel element consists of a composite hexagonal rod 1 made of beryllium with a density of, for example, 2.5 g / cm ³ , which is equipped on each of its six outer surfaces with an insert 2 containing uranium in the form of a flat plate. This moderator fissile material body is in a stainless steel or a chrome-plated. Mild steel shell 3 housed. Suitable dimensions of the envelope 3 are 15.24 to 20.32 cm, measured across the flat sides, and 1.83 to 2.44 m in length.

A plurality of such fuel elements are parallel to one another by ceramic spacers 4 held at the corners of the hexagons.

A coolant, such as oxygen or air, which are under pressure, is through the Channels 5 brought through between the components of each fuel element pair to flow.

003 699/412

Thus, the ..Hülle.3 is essentially at points of a micro-neutron flux. A fuel that is only ^{enriched to 3 fl} / o can therefore be used.

The fuel components 2 can be produced by known pressing or sintering processes from weakly enriched uranium dioxide, which is dispersed up to 50 percent by volume in beryllium or aluminum. The fuel components 2 are preferably held in the prescribed position in recesses in the beryllium rod 1 with the aid of a cement mortar which consists of a mixture, for example MgO-Al ₃ O ₃ -SiO ₃ , which is usually used as a flux.

The beryllium rods 1 can consist of smaller segments, as indicated by the dashed lines is to be set up for the purpose of facilitating the production and form the moderator. This Thought of surrounding the moderator with nuclear fuel and sheathing the entire assembly group has a significant advantage in connection with, among other things, the reduction or Reduction of thermal or thermal stresses in the moderator.

During operation, the components in the fuel are used 2 heat generated by the beryllium rod 1 is evenly heated, so that during reactor operation a negligible temperature gradient and thus correspondingly minor stresses or stresses Tensions are reached. In addition, the beryllium gets hot, which is from the nuclear power point of view is an advantage from a standpoint. The coolant, which is preferably a pressurized gas, has the effort to press the shell 3 hard or firmly against the fuel components 2, whereby a good Heat transfer or conduction takes place after the shell. Preferably the sheath is made of thin (0.25 mm) mild steel sheet with an outwardly directed weld seam, which is on a Vertex is provided and is fitted into one of the stand components 4 from. Mild steel wires from approximately the same dimension can then be attached to the surfaces of the shell at right angles to the coolant flow direction be attached by spot welding to create a vortex and improve heat transfer or conduction. The entire component group can then be chrome plated.

The coolant preferably used in the embodiment described above is air or oxygen. With such a coolant there are practically no difficulties in Behavior of the fuel and the moderator; In addition, there are also no difficulties under accident or emergency conditions, in which there is an entry of air into the primary circuit comes. At an inlet temperature of 350 ° C and an outlet mixed gas temperature of for example 700 ° C it would be possible to bring the pressure vessel to a temperature between 300 and 400 ° G to hold. It can therefore be made of a suitable carbon steel with nickel-chromium alloy or stainless steel impact plates are made. At these temperatures and with these materials there are no oxidation problems.

The reactor core can build up to 100 MW (megawatts) of heat with 3% enriched nuclear fuel 2, have one hundred and nineteen of the fuel elements described above, so that are dimensioned that they form a 1.83 m high upright cylindrical core, and he can with be equipped with a 0.61 m high reflector.

The invention can, with breeding elements of a reactor core can be used, with thorium dioxide being used, for example, instead of uranium dioxide will.

Claims (5)

Patent claims: 1. Fuel element for a nuclear reactor, in which the fuel elements are mesh-like or grid-like are arranged, which are cooled by a fluid, characterized in that it has a core made of solid moderator material on its outer surface Fissile material is applied, and that the moderator fissile material body from a shell (a container) is surrounded by a material with a high thermal neutron cross-section. 2. Fuel element according to claim 1, characterized in that fissile material plates on the Inner surface of a container, which is made from the mentioned shell material and with moderator material is filled, are attached, with a plurality of the containers mentioned at a distance are arranged from each other to pass a coolant between them at a column where the thermal neutron flux is a minimum. 3. Fuel element according to claim 2, characterized in that it is of hexagonal prismatic Shape is and that a plate of cracked material against the inside of each hexagonal face through solid moderator substance is held within the container. 4. Fuel element according to claim 3, characterized in that the fissile material plates weakly enriched uranium dioxide inserts in the surfaces of a hexagonal rod consist of beryllium and the container is made of steel. 5. Fuel element according to claim 4, characterized in that it is pierced or hollow and that it is penetrated by coolant channels, the walls of which are made of a material with a high thermal neutron cross-section exist which is compatible with or with the coolant at operating temperature this does not respond. Considered publications:
British patents Fr. 768 078, 778 881. 1 sheet of drawings © 009 699/412 1.61