Experimental investigation on the possible techniques of pebbles packing for the HCPB Test Blanket Module

Abstract

The Helium Cooled Pebble Bed Test Blanket Module (TBM) features a structural box that consists of the first wall, two caps and a stiffening grid. Inside the stiffening grid the breeding units (BUs), consisting of the beryllium and lithium ceramic pebble beds and cooling plates, are accommodated. The BUs are closed by the BU back plates and several structural plates of the manifold system as well as the TBM back plate consequently the BUs may not be accessed directly after the assembly of the TBM box; however, access is possible through dedicated penetrations in the TBM caps. According to the current manufacturing strategy, the assembly of the TBM structural sub-components is based on several welding processes which require post-welding heat treatments (PWHT) at temperatures which exceed the temperature limit of the beryllium pebbles. For that reason the beryllium pebble beds will be packed after the TBM box is assembled and heat treated. The packing of the BUs will be performed using a small-diameter (5 mm) tube that will be inserted into some penetrations in the TBM caps. It is expected that the lithium ceramic pebbles can withstand the high temperatures of the PWHT (this assumption needs to be verified) therefore the current strategy is to pack the ceramic pebble beds during the TBM box assembly. This study experimentally demonstrates the packing procedures for the beryllium beds using a full-scale Plexiglas mock-up as well as the optimization of the packing process by dedicated measures such as vibrating and tilting of the mock-up. In addition the impacts of the experimental results on the TBM design are summarized and the paper is concluded by proposing a packing strategy that can be used to achieve a packing factor of 63.6%.