(USNRC Certificate of Compliance No. 1014 for Storage)
The HI-STORM 100 System utilizes the HI-TRAC Transfer Cask for transporting the MPC from the spent fuel pool and for inter-cask MPC transfer required for on-site storage and off-site transport. A transfer cask is indispensable for implementing an ISFSI MPC loading in a HI-STORM 100 System and for future off-site shipment. The HI-TRAC System, engineered to be fully compatible with the HI-STORM 100 and HI-STAR 100 overpacks, fulfills several key operational needs, including:
- Smallest possible cross-sectional area to permit placement in tight-cask spaces in many pools.
- Flexibility in the design, such that sites which do not have more than 100-ton lifting capacity can be defueled using HI-TRAC.
- Maximum protection against contamination of the MPC’s external surface.
To deal with crane lifting capacity limitations, which exist at numerous plants, HI-TRAC has been licensed in two anatomically similar designs, which we refer to as HI-TRAC 100 and HI-TRAC 125, respectively. The annexes 100 and 125 imply the maximum weight of the loaded HI-TRAC in tons during its lifting and handling operations.
HI-TRAC 100 and HI-TRAC 125 are physically identical except that the latter, due to its greater mass, provides more shielding. HI-TRAC 100 and HI-TRAC 125 both accommodate the standard MPC (containing up to 24 PWR or up to 68 BWR spent fuel assemblies). The HI-TRAC transfer cask provides optimal shielding of the fuel housed in the MPC to minimize personnel exposure during handling and MPC closure operations.
The HI-TRAC transfer cask is designed and fabricated to allow vertical handling of the loaded HI-TRAC while meeting the heavy-lifting requirements of NUREG-0612 and ANSI N14.6. The HI-TRAC is designed to interface with either the HI-STORM storage module or with the HI-STAR dual purpose overpack. The HI-TRAC system is designed to transfer the loaded MPC within the fuel storage building or at the storage pad. This assures that canister transfers for off-site transport can be completed without requiring reactor handling facilities (therefore, returning to the reactor building is not required).