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Applicability of Hydride Materials for Radiation Shielding in Helical Reactor FFHR-d1

Teruya Tanaka, Hiroaki Muta, Yoshimitsu Hishinuma, Hitoshi Tamura, Takeo Muroga, Akio Sagara

Fusion Science and Technology / Volume 68 / Number 3 / October 2015 / Pages 705-710

Technical Paper / Proceedings of TOFE-2014 / dx.doi.org/10.13182/FST15-110

First Online Publication:July 31, 2015
Updated:September 30, 2015

Performance and applicability of hydride shielding materials are investigated in the helical reactor FFHR-d1 design. Performance of ZrH2 and TiH2 in fast neutron shielding are close to that of WC, which is most effective among candidate materials, for both in-vessel and out-vessel use. The investigation confirms that neutron shielding performance of a two-layered ferritic steel (FS)/ZrH2 or TiH2 shield is similar to that of a one-layered ZrH2 or TiH2 shield with the same total thickness. This shielding property is an important feature to maintain consistency with the structure design of FFHR-d1. In attenuation of direct neutrons from the core plasma in a bending duct, the hydride duct walls show superior performance compared with FS + B4C and WC duct walls. While controls for temperature (at <300 °C) and hydrogen concentration in the coolant gas would be required particularly for in-vessel use, the lower weight densities and quick decay of contact dose rates compared with other candidate materials would be reasons to select these hydride shielding materials.