Y.V. Ibrahim scite author profile

The Nigeria Research Reactor-1 (NIRR-1) is one of the Commercial Miniature Neutron Source Reactors (MNSRs) sited outside China and scheduled for conversion under the auspices of Reduced Enrichment for Research and Test Reactors (RERTR) program. Since 2006, the reduction in the fuel enrichment of MSNR facilities from greater than 90% HEU cores to less than 20% LEU cores has been embarked upon. Consequently in this work, the physics parameters of three dispersion LEU fuels, which include U 3 Si, U 3 Si 2 , and U 9 Mo enriched to 19.75% were determined by the MCNP code to investigate their suitability for the conversion of NIRR-1 to LEU. The following reactor core physics parameters were computed for the LEU fuel options: clean cold core excess reactivity (ρ ex ), control rod (CR) worth, shut down margin (SDM), neutron flux distributions in the irradiation channels and kinetics data (i.e. effective delayed neutron fraction, β eff and prompt neutron lifetime, l f ). Results are compared with experimental and calculated data of the current HEU core and indicate that it would be feasible to use any of the LEU options for the conversion of commercial MNSR in general and NIRR-1 in particular from HEU to LEU.

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Y.V. Ibrahim

Comparative analysis of core life-time for the NIRR-1 HEU and LEU cores

Core power prediction for Nigeria research reactor-1 (NIRR-1) using measurements of dose-rate and temperature

Monte Carlo simulation of additional safety control rod for commercial MNSR to enhance safety

The impact of HEU to LEU conversion of commercial MNSR: Determination of neutron spectrum parameters in irradiation channels of NIRR-1 using MCNP code

MCNP Simulation of Physics Parameters of Dispersion Fuels for Conversion of NIRR-1 to LEU

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