Control Rod Shadowing and Anti-shadowing Effects in a Large Gas-cooled Fast Reactor

摘要

An investigation of control rod shadowing and anti-shadowing (interaction) effects has been carried out in the context of a design study of the control rod pattern for the large 2400 MWth Generation IV Gas-cooled Fast Reactor (GFR). For the calculations, the deterministic code system ERANOS-2.0 has been used, in association with a full core model including a European Fast Reactor (EFR)-type pattern for the control rods. More specifically, the core contains a total of 33 control (CSD) and safety (DSD) rods implemented in three banks: (1) a first bank of 6 CSD rods, placed at 64 cm from core centre in the inner fuel zone (Pu content (16.3 percent)_(vol)), (2) a safety bank consisting of 9 DSD rods, at an average distance of 118 cm, and (3) a third bank with 18 CSD rods, placed at 171 cm, i.e. at the interface between the inner and outer (Pu content (19.2percent)_(vol)) core regions. Each control rod has been modelled as a homogeneous material containing 90percent-enriched B_(4)C, steel and helium. Considerable shadowing effects have been observed between the first bank and the safety bank, as also between individual rods within the first bank. Large anti-shadowing effects take place in an even greater number of the studied rod configurations. The largest interaction is between the two CSD banks, the anti-shadowing value delta being 46percent in this case, implying that the total rod worth is increased by a factor of almost 2 when compared to the sum of the individual bank values. Additional investigations have been performed, in particular the computation of the first order eigenvalue and the eigenvalue separation. The main finding is that the interactions are lower when one of the control rod banks is located at a radial position corresponding to half the core radius.