RU2023129127A - SYSTEM AND METHOD ALLOWING DETERMINING THE BEHAVIOR OF RADIOACTIVE SUBSTANCE INSIDE A STRUCTURE - Google Patents

Claims (24)

1. A system that allows you to determine the behavior of a radioactive substance inside a structure, characterized in that the system contains at least one column (2) through which the radioactive substance moves; at least one radioactivity detector (5) capable of detecting a radioactive substance inside the column (2); And at least one drive (31) allowing the radioactivity detector (5) to move along the column (2). 2. The system according to claim 1, characterized in that the system contains at least one rotating shaft (33), which rotates depending on the rotational movement of the drive (31) and along which the radioactivity detector (5) moves, at least one first a locking element (35) and at least one second locking element (36), which allow the rotating shaft (33) to be fixed. 3. The system according to claim 2, characterized in that the system contains at least one bearing element (351), which allows supporting a rotating shaft (33) in such a way that said rotating shaft (33) is able to freely rotate around its central axes. 4. A system according to claim 2, characterized in that one end of the rotating shaft (33) is connected to a drive (31), the system comprising at least one coupling (32) that allows connection between the drive (31) and the rotating shaft (33) and allows the rotational motion from the drive (31) to be transmitted to the rotating shaft (33). 5. The system according to any of the previous paragraphs, characterized in that the system contains at least one detector holder (4), on which a radioactivity detector (5) is located and with which said radioactivity detector (5) moves. 6. System according to claim 5, characterized in that the detector holder (4) has at least one rotating shaft bearing (41), through which the rotating shaft (33) must pass and be supported. 7. The system according to claim 6, characterized in that the rotating shaft (33) and the rotating shaft bearing (41) have mating gear structures that allow the rotating shaft bearing (41) and, accordingly, the detector holder (4) to move along the rotating shaft ( 33) depending on the rotational movement and the direction of rotation of the rotating shaft (33). 8. The system according to claim 5, characterized in that the system contains at least one fixed shaft (34) allowing the detector holder (4) to move in another direction along only one axis, without performing a rotational movement. 9. The system according to any of the previous paragraphs, characterized in that the system contains at least one detector collimator (51), inside which a radioactivity detector (5) is located. 10. The system according to claim 9, characterized in that the detector collimator (51) has a two-part structure, and the detector collimator (51) contains at least one front collimator (52) and at least one collimator cover (53), wherein the front collimator (52) has at least one aperture (54). 11. The system according to any of the previous paragraphs, characterized in that the column (2) contains at least one column housing (21), at least one column inlet (22), through which the radioactive substance enters the column housing (21), and at least one column outlet (23), through which the radioactive substance exits the column body (21). 12. The system according to claim 11, characterized in that the column body (21) contains at least one plug (24) at the end of the column inlet (22) and/or at the end of the column outlet (23), and to provide the ability to resist pressure inside the column housing (21), the plugs (24) are secured with at least one cover (25). 13. The system according to claim 2 or 8, characterized in that the system contains at least one table (1) on which a column (2) and/or a rotating shaft (33) are located, and along said rotating shaft (33) the radioactivity detector (5) and/or the stationary shaft (34) moves. 14. The system according to claim 13, characterized in that the column (2) and/or the rotating shaft (33), with the radioactivity detector (5) moving along the rotating shaft (33), and/or the stationary shaft (34) are located on table (1) so that the distance of the radioactivity detector (5) from the column (2) remains constant at all times, and said radioactivity detector (5) is capable of scanning the column (2) along its entire length. 15. A method that allows you to determine the behavior of a radioactive substance inside a structure, characterized in that the method includes the following technological steps: loading a radioactive substance together with an acid of a certain molarity into column (2) through the inlet (22) of the column, collection of radioactive substance in the upper part of the column housing (21), more specifically at the end of the column inlet (22), directing the acid used for loading into wastewater through the column outlet (23), changing the molarity of the acid supplied to the inlet (22) of the column, which allows the loaded radioactive substances to be separated to move inside the column (2), moving the radioactivity detector (5) along the column body (21) after the start of the specified movement, implementation of the scanning process.