The topic of this paper is the development of sensitivity and uncertainty analysis capability to the reactor physics code CASMO-4 in the context of the UAM (Uncertainty Analysis in Best-Estimate Modelling for Design, Operation, and Safety Analysis of LWRs) benchmark. The sensitivity analysis implementation is based on generalized perturbation theory, which enables computing the sensitivity profiles of reaction rate ratios efficiently by solving one generalized adjoint system for each response. Both the theoretical background and the practical guidelines for modifying a deterministic transport code to compute the generalized adjoint solutions and sensitivity coefficients are reviewed. The implementation to CASMO-4 is described in detail. The...
Dataset and codes to allow the reproducibility of the results presented in the publication: N. Abrat...
This thesis presents novel adjoint and spectral methods for the sensitivity and uncertainty (S&U) an...
The deterministic modeling of LWRs begins with the computation of energy‐collapsed and homogenizedma...
The topic of this paper is the development of sensitivity and uncertainty analysis capability to the...
This paper describes the implementation of classical perturbation theory based sensitivity and uncer...
The topic of this paper is the development of sensitivity and uncertainty analysis capability to the...
This paper describes the development of a sensitivity and uncertainty (S&U) analysis calculation...
The topic of this paper is the development of sensitivity and uncertainty analysis capability to the...
This paper shows how Total Monte Carlo (TMC) method and Perturbation Theory (PT) can be applied to q...
Best-Estimation Plus Uncertainty (BEPU) analysis method can provide more information to improve the ...
Nuclear data sensitivity analysis and uncertainty propagation have been extensively applied to nucle...
Capabilities for uncertainty quantification (UQ) with respect to nuclear data have been developed at...
Uncertainty analysis in Modelling (UAM) for Design, Operation and Safety Analysis of Sodium-cooled F...
Computational capability has been developed to calculate sensitivity coefficients of generalized res...
Neutronics calculation for nuclear reactor with high-fidelity technology can significantly reduce th...
Dataset and codes to allow the reproducibility of the results presented in the publication: N. Abrat...
This thesis presents novel adjoint and spectral methods for the sensitivity and uncertainty (S&U) an...
The deterministic modeling of LWRs begins with the computation of energy‐collapsed and homogenizedma...
The topic of this paper is the development of sensitivity and uncertainty analysis capability to the...
This paper describes the implementation of classical perturbation theory based sensitivity and uncer...
The topic of this paper is the development of sensitivity and uncertainty analysis capability to the...
This paper describes the development of a sensitivity and uncertainty (S&U) analysis calculation...
The topic of this paper is the development of sensitivity and uncertainty analysis capability to the...
This paper shows how Total Monte Carlo (TMC) method and Perturbation Theory (PT) can be applied to q...
Best-Estimation Plus Uncertainty (BEPU) analysis method can provide more information to improve the ...
Nuclear data sensitivity analysis and uncertainty propagation have been extensively applied to nucle...
Capabilities for uncertainty quantification (UQ) with respect to nuclear data have been developed at...
Uncertainty analysis in Modelling (UAM) for Design, Operation and Safety Analysis of Sodium-cooled F...
Computational capability has been developed to calculate sensitivity coefficients of generalized res...
Neutronics calculation for nuclear reactor with high-fidelity technology can significantly reduce th...
Dataset and codes to allow the reproducibility of the results presented in the publication: N. Abrat...
This thesis presents novel adjoint and spectral methods for the sensitivity and uncertainty (S&U) an...
The deterministic modeling of LWRs begins with the computation of energy‐collapsed and homogenizedma...