The MPACT code, jointly developed by Oak Ridge National Laboratory and University of Michigan, is designed to perform high-fidelity light water reactor (LWR) analysis using wholecore pin-resolved neutron transport calculations on modern parallel-computing hardware. MPACT uses the subgroup method for resonance self-shielding, while the primary neutron transport solver uses a 2D/1D method that is based on the method of characteristics (MoC) for the x-y planes coupled with a 1D diffusion or transport solver in the axial dimension. Additional geometry capabilities are currently being developed in MPACT to support hexagonal-pitched lattices, as well as interstitial geometry (i.e., control rods at the corner of four adjacent pin cells). In this r...
The accurate modeling of nuclear reactors is essential to the safe and economic operation of current...
The UNIC code is being developed as part of the DOE’s Nuclear Energy Advanced Modeling and Simulatio...
The need to solve larger-scale and highly heterogeneous reactor problems is urgent nowadays; differe...
The MPACT code, jointly developed by Oak Ridge National Laboratory and University of Michigan, is de...
MPACT is a state-of-the-art core simulator designed to perform high-fidelity analysis using whole-co...
The Consortium for Advanced Simulation of Light Water Reactors (CASL) has developed the CASL toolset...
This paper describes benchmark calculations for the APR1400 nuclear reactor performed using the high...
This work is dedicated to the code verification of MPACT, which is developed under the Consortium fo...
VERA is a suite of multiphysics codes which uses MPACT to model neutron transport in light water rea...
Monte Carlo neutron transport codes are widely used in various reactor physics applications, traditi...
This paper presents a methodology developed and implemented in the neutron transport code STREAM to ...
This paper presents the most recent progress on the development of gamma transport capability for th...
Safety analysis of innovative reactor designs requires three dimensional modeling to ensure a suffic...
Recent efforts in the development of the deterministic transport code MPACT have been devoted to pre...
International audienceSafety analysis of innovative reactor designs requires three dimensional model...
The accurate modeling of nuclear reactors is essential to the safe and economic operation of current...
The UNIC code is being developed as part of the DOE’s Nuclear Energy Advanced Modeling and Simulatio...
The need to solve larger-scale and highly heterogeneous reactor problems is urgent nowadays; differe...
The MPACT code, jointly developed by Oak Ridge National Laboratory and University of Michigan, is de...
MPACT is a state-of-the-art core simulator designed to perform high-fidelity analysis using whole-co...
The Consortium for Advanced Simulation of Light Water Reactors (CASL) has developed the CASL toolset...
This paper describes benchmark calculations for the APR1400 nuclear reactor performed using the high...
This work is dedicated to the code verification of MPACT, which is developed under the Consortium fo...
VERA is a suite of multiphysics codes which uses MPACT to model neutron transport in light water rea...
Monte Carlo neutron transport codes are widely used in various reactor physics applications, traditi...
This paper presents a methodology developed and implemented in the neutron transport code STREAM to ...
This paper presents the most recent progress on the development of gamma transport capability for th...
Safety analysis of innovative reactor designs requires three dimensional modeling to ensure a suffic...
Recent efforts in the development of the deterministic transport code MPACT have been devoted to pre...
International audienceSafety analysis of innovative reactor designs requires three dimensional model...
The accurate modeling of nuclear reactors is essential to the safe and economic operation of current...
The UNIC code is being developed as part of the DOE’s Nuclear Energy Advanced Modeling and Simulatio...
The need to solve larger-scale and highly heterogeneous reactor problems is urgent nowadays; differe...