A method for generating subgroup weights is presented employing the idea of conserving resonance shielded cross sections for representative pin cells. Consistency in the generation and usage steps of the subgroup weights is imposed in a subgroup formulation involving the subgroup fixed source problem to resolve the subgroup level and space dependent self shielding. Consequently, the subgroup level dependent background cross sections are determined and used in the generation step. The requirement of reconstructed cross section error minimization forms a constrained least square problem which is solved by the Lagrange multiplier technique augmented with a regularization term introduced to enhance solution stability. The generated subgroup wei...
International audienceThis paper presents a newly developed resonance self-shielding method based on...
International audienceThe equivalent Dancoff-factor cell (EDC) method was implemented in APOLLO3® an...
A method for generating few-group homogenized cross sections using three-dimensional Monte Carlo ass...
Owing to its ability to handle arbitrary geometry and high computation efficiency, subgroup method i...
CD-ROM, American Nuclear Society, LaGrange Park, IL (2015)International audienceWe are investigating...
Based on the observation that ignoring the angle dependency of multigroup resonance cross sections w...
To meet the requirements of one step lattice calculation on resonance effect, a self-developed desig...
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...
Motivated by the increased importance of high-fidelity modeling capabilities that can improve the ec...
International audienceThe new deterministic platform APOLLO3 ® offers three different self-shielding...
The SCALE-XSProc multigroup (MG) cross section processing procedure based on the CENTRM pointwise sl...
Time and precision of the results are the most important factors in any code used for nuclear calcul...
The new cell code ECCO /l / uses the subgroup method to treat the resonance self-shielding, this bei...
Bibliography: p. 45."May, 1959.""AEC Research and Development Report""(TID-4500, 14th Ed.)""Physics ...
International audienceThis paper presents a newly developed resonance self-shielding method based on...
International audienceThe equivalent Dancoff-factor cell (EDC) method was implemented in APOLLO3® an...
A method for generating few-group homogenized cross sections using three-dimensional Monte Carlo ass...
Owing to its ability to handle arbitrary geometry and high computation efficiency, subgroup method i...
CD-ROM, American Nuclear Society, LaGrange Park, IL (2015)International audienceWe are investigating...
Based on the observation that ignoring the angle dependency of multigroup resonance cross sections w...
To meet the requirements of one step lattice calculation on resonance effect, a self-developed desig...
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...
Motivated by the increased importance of high-fidelity modeling capabilities that can improve the ec...
International audienceThe new deterministic platform APOLLO3 ® offers three different self-shielding...
The SCALE-XSProc multigroup (MG) cross section processing procedure based on the CENTRM pointwise sl...
Time and precision of the results are the most important factors in any code used for nuclear calcul...
The new cell code ECCO /l / uses the subgroup method to treat the resonance self-shielding, this bei...
Bibliography: p. 45."May, 1959.""AEC Research and Development Report""(TID-4500, 14th Ed.)""Physics ...
International audienceThis paper presents a newly developed resonance self-shielding method based on...
International audienceThe equivalent Dancoff-factor cell (EDC) method was implemented in APOLLO3® an...
A method for generating few-group homogenized cross sections using three-dimensional Monte Carlo ass...