Issue |
EPJ Web Conf.
Volume 153, 2017
ICRS-13 & RPSD-2016, 13th International Conference on Radiation Shielding & 19th Topical Meeting of the Radiation Protection and Shielding Division of the American Nuclear Society - 2016
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Article Number | 03011 | |
Number of page(s) | 6 | |
Section | 3. Accelerators & Fusion Facilities | |
DOI | https://doi.org/10.1051/epjconf/201715303011 | |
Published online | 25 September 2017 |
https://doi.org/10.1051/epjconf/201715303011
Shielding calculations for industrial 5/7.5MeV electron accelerators using the MCNP Monte Carlo Code
1 Nuclear Research Centre Negev, P.O.B 9001, Beer-Sheva, 84190, Israel
2 Ben-Gurion University of the Negev, Beer Sheva, Israel
* Corresponding author: eyalperi22@gmail.com
Published online: 25 September 2017
High energy X-rays from accelerators are used to irradiate food ingredients to prevent growth and development of unwanted biological organisms in food, and by that extend the shelf life of the products. The production of X-rays is done by accelerating 5 MeV electrons and bombarding them into a heavy target (high Z). Since 2004, the FDA has approved using 7.5 MeV energy, providing higher production rates with lower treatments costs. In this study we calculated all the essential data needed for a straightforward concrete shielding design of typical food accelerator rooms. The following evaluation is done using the MCNP Monte Carlo code system: (1) Angular dependence (0-180°) of photon dose rate for 5 MeV and 7.5 MeV electron beams bombarding iron, aluminum, gold, tantalum, and tungsten targets. (2) Angular dependence (0-180°) spectral distribution simulations of bremsstrahlung for gold, tantalum, and tungsten bombarded by 5 MeV and 7.5 MeV electron beams. (3) Concrete attenuation calculations in several photon emission angles for the 5 MeV and 7.5 MeV electron beams bombarding a tantalum target. Based on the simulation, we calculated the expected increase in dose rate for facilities intending to increase the energy from 5 MeV to 7.5 MeV, and the concrete width needed to be added in order to keep the existing dose rate unchanged.
© The Authors, published by EDP Sciences, 2017
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