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Biological shielding calculations for a 10 MeV Rhodotron electron accelerator facility

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dc.contributor.supervisor Hillhouse, Gregory Campbell
dc.contributor.supervisor Nemulodi, Fhumulani
dc.contributor.author Tikologo, Otsile
dc.date.accessioned 2021-03-22T14:58:09Z
dc.date.available 2021-03-22T14:58:09Z
dc.date.issued 2019-06-01
dc.identifier.citation Tikologo, O. (2019) Biological shielding calculations for a 10 MeV Rhodotron electron accelerator facility, Masters Theses, Botswana International University of Science and Technology: Palapye en_US
dc.identifier.uri http://repository.biust.ac.bw/handle/123456789/287
dc.description Thesis (MSc Physics)--Botswana International University of Science and Technology, 2019 en_US
dc.description.abstract This thesis focuses on biological shielding calculations for a 10 MeV Rhodotron electron beam accelerator operating in dual mode to produce a 10 MeV primary electron beam and 7.5 MeV secondary X-rays, generated by hitting an optimized tantalum-73 (73Ta) target with the primary electron beam. The first part of this thesis describes the Rhodotron electron accelerator and its oper ating principle. A model is presented for the transverse optics of a TT-100 Rhodotron accelerator. Potential industrial applications of a Rhodotron accelerator for Botswana are highlighted, including sterilization of food products, medical devices, pharmaceuti cals, wastewater and sludge treatment, cargo screening and postal mail decontamination. Sterilization of food reduces harmful micro-organisms, thus prolonging shelf-life and min imizing health risks to humans. A particular emphasis is placed on the sterilization of meat for local consumption and export as the meat industry plays an important role in Botswana’s economy and represents the country’s third main income earner. The second and main part of this thesis focuses on designing an optimal biological radi ation shielding structure for the Rhodotron and irradiation vaults to protect the general public, radiation workers and the environment from unnecessary radiation exposure in compliance with recommendations by the International Commission on Radiological Pro tection (ICRP). viTwo methods of shielding calculations are employed, namely analytical estimates using empirical formulas from the literature and Monte Carlo (MC) predictions based on the FLUktuierende KAscade (FLUKA) simulation package. FLUKA has the added advantage that the transport of particles (photons and electrons in this project) and their interactions with matter are included for complex geometrical shielding structures. On the other hand, FLUKA simulations are numerically intensive and require more computational time. After the primary beam strikes the target, the main biological dose rate is attributed to the secondary photons. The shield is designed to reduce the biological dose equivalent rates to less than 5 µSvh−1 during normal operation. The analytic calculations show that an ordinary concrete wall with a thickness of approximately 2.1 m is sufficient to shield the Rhodotron accelerator vault. Using the latter value as the input for FLUKA, the thickness is varied in steps of 0.01 m from a lower limit of 1.9 m until the biological dose rate of 5 µSvh−1 is achieved. The FLUKA results show that a 2 m thick ordinary concrete wall, roof and slab are sufficient to shield both the accelerator and irradiation vaults to permissible levels for optimal and safe operation. en_US
dc.description.sponsorship Botswana International University of Science and Technology (BIUST) en_US
dc.language.iso en en_US
dc.publisher Botswana International University of Science and Technology (BIUST) en_US
dc.subject Rhodotron accelerator en_US
dc.subject Biological shield en_US
dc.subject Dose rate en_US
dc.subject FLUKA en_US
dc.title Biological shielding calculations for a 10 MeV Rhodotron electron accelerator facility en_US
dc.description.level msc en_US
dc.description.accessibility unrestricted en_US
dc.description.department paa en_US


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