Add to ORKGBGCore is a software package for comprehensive computer simulation of nuclear reactor systems and their fuel cycles. The BGCore interfaces Monte Carlo particles transport code MCNP4C with a SARAF module - an independently developed code for calculating in-core fuel composition and spent fuel emissions following discharge. In BGCore system, depletion coupling methodology is based on the multi-group approach that significantly reduces computation time and allows tracking of large number of nuclides during calculations. In this study, burnup calculation capabilities of BGCore system were validated against well established and verified, computer codes for thermal and fast spectrum lattices. Very good agreement in k eigenvalue and nuclide densit...
This paper presents the preliminary solutions of BEAVRS cycle 1 depletion by Monte Carlo (MC) code M...
This paper presents a whole-core depletion analysis of Yonggwang Unit 3, cycles 1 and 2, by using MC...
Most nuclear reactors are designed to be operated under either thermal or fast neutron spectrum, dep...
BGCore reactor analysis system was recently developed at Ben-Gurion University for calculating in-co...
Coupled Monte Carlo depletion systems provide a versatile and an accurate tool for analyzing advance...
Recently,a new method for accounting for burnup history effects on few-group cross sections was deve...
Allowing Monte Carlo (MC) codes to perform fuel cycle calculations requires coupling to a point depl...
Allowing Monte Carlo (MC) codes to perform fuel cycle calculations requires coupling to a point depl...
The double-heterogeneity characterising pebble-bed high temperature reactors (HTRs) makes Monte Carl...
A whole-core depletion analysis of OPR-1000 using MCS coupled with FRAPCON is presented in this pape...
This paper presents the verification and validation of UNIST in-house Monte Carlo code MCS and multi...
Several computer codes have been developed to perform nuclear burnup calculations over the past few ...
A depletion chain simplification method is applied to UNIST lattice code STREAM (Steady state and Tr...
In this work, we performed an evaluation of decay heat power of advanced, fast spectrum, lead and mo...
This research focuses on the verification of a recently developed methodology accounting for spectra...
This paper presents the preliminary solutions of BEAVRS cycle 1 depletion by Monte Carlo (MC) code M...
This paper presents a whole-core depletion analysis of Yonggwang Unit 3, cycles 1 and 2, by using MC...
Most nuclear reactors are designed to be operated under either thermal or fast neutron spectrum, dep...
BGCore reactor analysis system was recently developed at Ben-Gurion University for calculating in-co...
Coupled Monte Carlo depletion systems provide a versatile and an accurate tool for analyzing advance...
Recently,a new method for accounting for burnup history effects on few-group cross sections was deve...
Allowing Monte Carlo (MC) codes to perform fuel cycle calculations requires coupling to a point depl...
Allowing Monte Carlo (MC) codes to perform fuel cycle calculations requires coupling to a point depl...
The double-heterogeneity characterising pebble-bed high temperature reactors (HTRs) makes Monte Carl...
A whole-core depletion analysis of OPR-1000 using MCS coupled with FRAPCON is presented in this pape...
This paper presents the verification and validation of UNIST in-house Monte Carlo code MCS and multi...
Several computer codes have been developed to perform nuclear burnup calculations over the past few ...
A depletion chain simplification method is applied to UNIST lattice code STREAM (Steady state and Tr...
In this work, we performed an evaluation of decay heat power of advanced, fast spectrum, lead and mo...
This research focuses on the verification of a recently developed methodology accounting for spectra...
This paper presents the preliminary solutions of BEAVRS cycle 1 depletion by Monte Carlo (MC) code M...
This paper presents a whole-core depletion analysis of Yonggwang Unit 3, cycles 1 and 2, by using MC...
Most nuclear reactors are designed to be operated under either thermal or fast neutron spectrum, dep...