RU74735U1 - DEVICE FOR IRRADIATION OF SAMPLES IN A SOLID REDUCER REACTOR - Google Patents

Abstract

A device for irradiating samples in a solid moderator reactor, comprising a moderator block with a central hole, a standard fuel assembly mounted in a block along the axis of the hole, a cartridge with ampoules for the irradiated material, the cartridge being ring-shaped and placed in the gap between the moderator block and the standard fuel assembly.

Description

The claimed technical solution relates to the class of devices for irradiating materials in nuclear reactors with a solid moderator and is intended for use, in particular, in the accumulation of radionuclides.

A device is known for irradiating samples in an MP reactor with a solid moderator, containing a moderator block with a central hole, the axis of which has a loop channel with ampoules containing irradiated materials (Bat G.A., Kochenov A.S., Kabanov L.P. Research Nuclear Reactors: Textbook for Universities. - 2nd ed. M: Energoatomizdat, 1985). The disadvantage of this device is that due to the placement of the device in the moderator, it is effective only in cases where it is required to irradiate in the thermal spectrum of neutrons, the fast neutron flux density is low.

A device is known for irradiating samples in a MIR reactor with a solid moderator, containing a moderator block with a central hole, the axis of which is equipped with a standard fuel assembly with annular, coaxially mounted fuel rods, containing instead of a central displacer a cartridge in which ampoules with irradiated materials are placed. (V.A. Kuprienko. The main stages of history and research results at the MIR reactor // Proceedings of the NIIAR, 1997, issue 4, p. 3-17).

The disadvantages of the device include the small volume, resulting in large quantities of irradiated materials and the requirement of a high and equal neutron fluence, the need to use several

full-time fuel assemblies and maintain in all of them equally high power, which leads to an increase in fuel costs.

The above-mentioned disadvantages are eliminated in a device for irradiating samples in a solid moderator reactor containing a moderator block with a central hole, a standard fuel assembly mounted in a block along the axis of the hole, a cartridge with ampoules for the irradiated material, the cartridge being made in a circular shape and placed in the gap between the block and Fuel assembly.

Placing a cartridge with ampoules outside the standard fuel assembly allows at the same power to increase the neutron flux density at the location of the irradiated materials by 30-35%. The number of ampoules located next to one fuel assembly is increased by 16 times. When the starting material is irradiated to obtain radionuclide products, an increase in the achievable specific activity of the preparation is ensured and its unevenness in various ampoules decreases. Fuel consumption per unit of activity of the drug is significantly reduced.

The attached figure shows a device for irradiating samples in a reactor with a solid moderator, where:

1 - block moderator;

2 - cassette;

3 - ampoule;

4 - full-time fuel assembly.

The device is assembled and operates as follows. Ampoules (3) are installed in the cartridge (2), which is then placed in the central hole of the moderator block (1). The internal fuel assembly (4) is placed in the internal cavity of the cartridge (2). If necessary, this design allows permutation, extraction of individual ampoules and replacement with fresh ampoules.

The use of the inventive device for irradiating samples in a reactor with a solid moderator will ensure an equally high

neutron fluence for a large number of irradiated materials while reducing fuel costs.

Claims (1)

A device for irradiating samples in a reactor with a solid moderator, containing a moderator block with a central hole, a standard fuel assembly installed in the block along the axis of the hole, a cartridge with ampoules for the irradiated material, the cartridge made in a ring shape and placed in the gap between the moderator block and the standard fuel assembly.