Web1 de mar. de 2024 · OpenMC Burnup calculation 1. Introduction Small modular nuclear-fission reactors, known as SMRs, are designed to generate electric power typically up to … WebOpenMC is a community-developed Monte Carlo neutron and photon transport code. It is capable of performing fixed source, k-eigenvalue, and subcritical multiplication calculations on models built using either a constructive solid geometry or CAD representation.
openbmc/meta-openpower: Layer for OpenPower machine …
Web1 de mai. de 2015 · The OpenMC code has been used to perform three dimensional neutron physics analysis while WIMSD-4 is used for generation of number … WebOpenMC supports transport-coupled and transport-independent depletion, or burnup, calculations through the openmc.deplete Python module. OpenMC uses transmutation reaction rates to solve a set of transmutation equations that determine the evolution of … flooded start compressor
openmc.deplete.PredictorIntegrator — OpenMC Documentation
Web11 de abr. de 2024 · The burnup calculations for both KLT-40S fuel assemblies are without burnable poison at an average fuel assembly power of 1.23 MW. The results of the initial infinite multiplication factor, lifetime, and 235 U utilization rate for the four-ring and five-ring fuel assemblies are shown in Table 5. Web3 de mar. de 2024 · In this study, the transport-burnup simulation was performed using OpenMC, which is a community-developed Monte Carlo neutron and photon transport simulation code . With the efforts of the community, OpenMC has implemented the burnup solver in Python and connected it with the OpenMC transport solver through a C++ … Web# OpenMC simulation parameters batches = 100 inactive = 10 particles = 10000 # Instantiate a Settings object settings_file = openmc.Settings() ... Output results are going to be located in two types of folder. Per step folders include densities, power, neutron flux, burnup, one-group cross sections and burnup matrices for each macrostep, ... greatly blessed highly favoured