The design of a multisource americium–beryllium (Am–Be) neutron irradiation facility using MCNP for the neutronic performance calculation

Abstract

The americium–beryllium neutron irradiation facility at the National Nuclear Research Institute (NNRI), Ghana, was re-designed with four 20Ci sources using Monte Carlo N-Particle (MCNP) code to investigate the maximum amount of flux that is produced by the combined sources. The results were compared with a single source Am–Be irradiation facility. The main objective was to enable us to harness the maximum amount of flux for the optimization of neutron activation analysis and to enable smaller sample sized samples to be irradiated. Using MCNP for the design construction and neutronic performance calculation, it was realized that the single-source Am–Be design produced a thermal neutron flux of (1.8±0.0007)×106n/cm2s and the four-source Am–Be design produced a thermal neutron flux of (5.4±0.0007)×106n/cm2s which is a factor of 3.5 fold increase compared to the single-source Am–Be design. The criticality effective, keff, of the single-source and the four-source Am–Be designs were found to be 0.00115±0.0008 and 0.00143±0.0008, respectively.