Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
272106 | Fusion Engineering and Design | 2012 | 6 Pages |
ITER equatorial port cell outside the bio-shield plug is a place to allow personnel access after shutdown that accommodates various sensitive equipment and pipes. Gamma dose rate after shutdown of 1 day in the port cell should be within 10 μSv/h for occupational safety which is one order of magnitude less than that in the port interspace by the shielding of bio-shield plug. To verify the shielding property of the bio-shield plug, the distributions of gamma dose rates in port cell were studied. Based on the ITER neutronics model Alite4 which is a three-dimensional ITER tokomak neutronics model for MCNP calculations with a 40 degree extent in the toroidal direction and vertical reflecting bounded planes on both sides, the equatorial port was updated according to a conceptual CAD model using Monte Carlo Automatic Modeling Program for Radiation Transport Simulation (MCAM). A 2-step method of gamma dose rate calculation was used for shutdown dose rates in CAD-based Multi-Functional 4D Neutronics Simulation System (VisualBUS). The result showed that gamma dose rates in the port cell were higher than the desired limit. Refinements to the bio-shield plug design were suggested to ensure that dose rates in the port cell were within the design value for maintenance access.
► Equatorial port neutronics model was created according to CAD model using MCAM and inserted into ITER neutronics Alite4 model. ► Distribution of shutdown gamma dose rates in port cell and port interspace was studied using VisualBUS. ► The gamma dose rates in the port cell were higher than the desired limit (10 μSv/h). ► Refinements to the bio-shield plug design are suggested to ensure that dose rates in the port cell are within the design value for maintenance access