Design of Cesium target assembly with YH2 moderator and Gd thermal neutron shielding to produce 135Cs for LLFP transmutation study using the experimental fast reactor Joyo
In this design study, we investigated the feasibility of producing a sufficient amount of 135Cs long-lived
fission product (LLFP) in the Joyo fast reactor by irradiation of natural cesium (133Cs). The irradiation is
expected to contribute to providing 135Cs sample for transmutation cross-section measurements for
enhancing the accuracy of the LLFP nuclear data. Two irradiation fields, one located in the outer reflector
and another one in the inner reflector which was adjacent to the core were investigated, and appropriate
target subassemblies were designed by using the MCNP and FISPACT-II codes. In the inner reflector case,
the YH2 moderator material was adopted for the neutron spectrum adjustment within the target subassembly.
The gadolinia thermal neutron shielding is proposed to suppress the power peak of the adjacent
fuel assembly. The result confirmed that a sufficient amount of 135Cs can be produced at 1200
Effective Full Power Day (EFPD) in Joyo reactor (Mark IV core, 100 MWth).
2021 Elsevier
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