A simulation of a pebble bed reactor core by the MCNP-4C computer code

• Main Authors: Bakhshayesh Moshkbar Khalil, Vosoughi Naser
• Format: Article
• Language: English
• Published: VINCA Institute of Nuclear Sciences 2009-01-01
• Series: Nuclear Technology and Radiation Protection
• Subjects: HTR-10; MCNP-4C; neutron flux; pebble bed; shadowing effects
• Online Access: http://www.doiserbia.nb.rs/img/doi/1451-3994/2009/1451-39940903177B.pdf

Lack of energy is a major crisis of our century; the irregular increase of fossil fuel costs has forced us to search for novel, cheaper, and safer sources of energy. Pebble bed reactors - an advanced new generation of reactors with specific advantages in safety and cost - might turn out to be the desired candidate for the role. The calculation of the critical height of a pebble bed reactor at room temperature, while using the MCNP-4C computer code, is the main goal of this paper. In order to reduce the MCNP computing time compared to the previously proposed schemes, we have devised a new simulation scheme. Different arrangements of kernels in fuel pebble simulations were investigated and the best arrangement to decrease the MCNP execution time (while keeping the accuracy of the results), chosen. The neutron flux distribution and control rods worth, as well as their shadowing effects, have also been considered in this paper. All calculations done for the HTR-10 reactor core are in good agreement with experimental results.