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The MANE process of generating continuous energy hot-operating temperature cross sectionsChapman, Christopher Weeks 12 January 2015 (has links)
MANE (MCNP ACE from NJOY & ENDF), a code for generating continuous energy cross sections at arbitrary temperatures, was created. Cross sections were evaluated using NJOY99 such that they would agree with the cross sections provided by MCNP5. The MANE cross sections were found to be in very good agreement with those provided by MCNP5 with some minor exceptions caused by round-off errors and some differences in the unresolved resonance region. Differences in the resonance region are caused by differences in the random number generator used to start the cross section calculations. The MANE cross sections were verified against the MCNP5 cross sections in five unique MCNP configurations: an 8.7% enriched MOX fuel pin cell, a UO₂ assembly (controlled and uncontrolled), a MOX assembly, and a whole core configuration containing the 3 assemblies. In each of these cases, eigenvalue and tally density results were found to be in very good agreement with one another.
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Producing Medical Radioisotopes with CANDU Nuclear ReactorsSutherland, Zachary January 2018 (has links)
In the field of nuclear medicine, radioisotopes are used for applications such as diagnostic imag-
ing, treatment, and equipment sterilization. The most commonly used radioisotope in medicine is
technetium-99m (Tc-99m). It is used in 80% of all nuclear medicine procedures. Its parent isotope is
molybdenum-99 (Mo-99). NRU, which is now closed, formerly produced 40% of the worlds demand
for Mo-99. The production capacity of this reactor has been supplemented by a network of cyclotrons
and a modified research reactor. This study aims to provide an alternative means of production for
Mo-99, as well as other radioisotopes by modifying the center pin of a standard 37-element bundle of
a CANDU reactor.
The neutron transport code DRAGON, and the neutron diffusion code DONJON were used to
model a CANDU-9 reactor. The lowest, median, and highest power channels were chosen as candi-
dates for the modified bundles. It was found that the reactor parameters were altered by a negligible
amount when any one channel was used to house the modified bundles. Significant quantities of the
radioisotope lutetium-177 as well as the generating isotopes of the alpha-emitting radioisotopes lead-
212/bismuth-212, and radium-223 were produced. However, only minute amounts of molybdenum-99,
and the generating isotope of bismuth-213 were produced. / Thesis / Master of Applied Science (MASc)
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Experimentální a výpočetní výzkum vlastností solí pro jaderné reaktory typu MSR z pohledu jaderných dat / Experimental and calculational salts' properties investigation for MSR reactors from nuclear data point-of-viewBurian, Jiří January 2021 (has links)
Nowadays there is research into molten salt reactors. The use of chlorine-based salts, which would be more available than known fluoride salts, is envisaged. The subject of research is not only the chemical and physical properties of chloride salts, but also their behavior in the neutron field and the influence of neutron balance inside the reactor. Many properties can also be determined using calculations that draw information from scientific nuclear libraries (endf). The purpose of this work is to compare important nuclear libraries with each other, and also to compare the reaction rates calculated from the library data with the reaction rates obtained by self-measurement. The preview will include a description of the necessary activities associated with the preparation of measurements, instructions for compiling the computer program NJOY and the process of the measurement itself. At the end of the work will be summarized the results and statements of which nuclear library is the closest in its values to the results of experiments.
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