A. Mayoral scite author profile

ARTICLE INFO ABSTRACT Article history:Available online xxxxThe IFMIF-EVEDA accelerator will be a 9 MeV, 125 mAcw deuteron accelerator prototype for verifying the validity of the 40 MeV accelerator design for IFMIF. A beam dump designed for máximum power of 1.12 MW will be used to stop the beam at the accelerator exit. The conceptual design for the IFMIF-EVEDA accelerator beam dump is based on a conical beam stop made of OFE copper. The cooling system uses an axial high velocity flow of water pressurized up to 3.4 x 10 5 Pa to avoid boiling. The design has been shown to be compliant with ASME mechanical design rules under nominal full power conditions. A sensitivity analysis has been performed to take into account the possible margin on the beam properties at the beam dump entrance. This analysis together with the study of the maintenance issues and the mounting and dismounting operations has led to the complete design definition.

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Decay Gamma Dose Rates in the EVEDA Accelerator: Impact of the Deuteron Loss Uncertainties in Accelerator Maintenance

García

Sanz

Sauvan

et al. 2009

Nuclear Technology

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Computational Tools and Nuclear Data for Radioprotection Studies in Low Energy Light Ions Accelerators

Sauvan¹,

Mayoral²,

Sanz³

et al. 2011

J. Korean Phy. Soc.

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Deuteron cross section evaluation for safety and radioprotection calculations of IFMIF/EVEDA accelerator prototype

Blidéanu

García

Joyer

et al. 2011

Journal of Nuclear Materials

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In the frame of IFMIF/EVEDA activities, a prototype accelerator delivering a high power deuteron beam is under construction in Japan. Interaction of these deuterons with matter will generate high levels of neutrons and induced activation, whose predicted yields depend strongly on the models used to calculate the different cross sections. A benchmark test was performed to validate these data for deuteron energies up to 20 MeV and to define a reasonable methodology for calculating the cross sections needed for EVEDA. Calculations were performed using the nuclear models included in MCNPX and PHITS, and the dedicated nuclear model code TALYS. Although the results obtained using TALYS (global parameters) or Monte Carlo codes disagree with experimental values, a solution is proposed to compute cross sections that are a good fit to experimental data. A consistent computational procedure is also suggested to improve both transport simulations/prompt dose and activation/residual dose calculations required for EVEDA.

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A. Mayoral

First IFMIF/EVEDA Radioprotection Studies for the Preliminary Design of the Accelerator Beam Dump

The IFMIF-EVEDA accelerator beam dump design

Decay Gamma Dose Rates in the EVEDA Accelerator: Impact of the Deuteron Loss Uncertainties in Accelerator Maintenance

Computational Tools and Nuclear Data for Radioprotection Studies in Low Energy Light Ions Accelerators

Deuteron cross section evaluation for safety and radioprotection calculations of IFMIF/EVEDA accelerator prototype

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