TRIGA MARK-II source term

ORIGEN 2.2 are employed to obtain data regarding γ source term and the radio-activity of irradiated TRIGA fuel. The fuel composition are specified in grams for use as input data. Three types of fuel are irradiated in the reactor, each differs from the other in terms of the amount of Uranium compared...

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Bibliographic Details
Main Authors: Usang, M D, Hamzah, N S, Abi M, J B, Rawi, M Z M, Abu, M P
Format: Conference Proceeding
Language:English
Subjects:
BWR TYPE REACTORS
Composition
DESIGN
FISSION PRODUCTS
IRRADIATION
Nuclear fuels
Nuclides
Pressurized water reactors
PWR TYPE REACTORS
Radiation shielding
RADIOACTIVITY
SPECIFIC NUCLEAR REACTORS AND ASSOCIATED PLANTS
SPECTRA
TRIGA TYPE REACTORS
URANIUM
Weight
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Summary:ORIGEN 2.2 are employed to obtain data regarding γ source term and the radio-activity of irradiated TRIGA fuel. The fuel composition are specified in grams for use as input data. Three types of fuel are irradiated in the reactor, each differs from the other in terms of the amount of Uranium compared to the total weight. Each fuel are irradiated for 365 days with 50 days time step. We obtain results on the total radioactivity of the fuel, the composition of activated materials, composition of fission products and the photon spectrum of the burned fuel. We investigate the differences of results using BWR and PWR library for ORIGEN. Finally, we compare the composition of major nuclides after 1 year irradiation of both ORIGEN library with results from WIMS. We found only minor disagreements between the yields of PWR and BWR libraries. In comparison with WIMS, the errors are a little bit more pronounced. To overcome this errors, the irradiation power used in ORIGEN could be increased a little, so that the differences in the yield of ORIGEN and WIMS could be reduced. A more permanent solution is to use a different code altogether to simulate burnup such as DRAGON and ORIGEN-S. The result of this study are essential for the design of radiation shielding from the fuel.
ISSN:0094-243X
1551-7616
DOI:10.1063/1.4866102