Résumé du preprint Irfu-09-15

Irfu-09-15
Radiation protection aspects of the EURISOL Multi-MW target shielding
D. Ene, J.C. David, D. Doré, B. Rapp, D. Ridikas
An ambitious European project EURISOL DS (FP7) deals with the design of new generation RIB production facility based on ISOL method. The future factory is characterized by a 4 mA proton beam of 1 GeV (4 MW power) impinging on a liquid Hg target-converter, which in turn is surrounded by a number of small actinide fission targets, each aiming at ~1015fissions/s. In this context, Monte Carlo simulations using MCNPX version 2.5.0 were performed to optimize the bulk shielding of this EURISOL Multi-MW target. Using the obtained neutron flux and energy spectra,activation calculations with DCHAIN-SP2001 code were carried out to create an activation map of the entire shielding structures. Some quantitative comparisons between DCHAIN-SP2001 and CINDER\'90 material evolution codes were also performed. Two approaches of the shielding activation zoning were assumed for the radioactive wastes study: i) the activity estimates were done at the level of a fine annular mesh grid with radius and height of 10 cm (FM approach) and ii) thick layers of 100 cm thickness (TL approach) were used to derive the total activity. Finally, the classification of the radioactive wastes based on IAEA clearance levels was further elaborated for seven decay time periods after target operation shutdown. Comparison of the results obtained for the two approximations used is discussed. Using the same procedure, an estimation of the produced radioactivity inside the soil surrounding the shield (to be used as source term for the contaminant transport) was further derived. Estimates of the air activation in the shielding gap were also determined and the obtained results are compared and discussed. The results of this study will contribute to the estimates of the overall timescale and costs of the EURISOL facility having also a strong impact on the decision and strategy to be adopted for the facility dismantling, waste classifications, and their final disposal.