Determining the effects of changes in design and data parameters upon reactor performance can be very expensive when many perturbations must be considered for a complex system. In order to substantially reduce the cost involved in calculations such as these, generalized perturbation theory (GPT) capability has been implemented into the 3-D LWR nodal reactor analysis code SIMULATE. This capability makes 3-D sensitivity analysis of a realistic LWR practical for the first time. Applications to design analysis will be discussed
Safety analysis studies in nuclear engineering, more specifically system reliability, usually handle...
The High Temperature Gas cooled Reactor (HTGR) is an improved, gas cooled nuclear reactor. It was ch...
The recent availability of powerful computer and computational techniques has enlarged the possibili...
Computational capability has been developed to calculate sensitivity coefficients of generalized res...
A generalized depletion perturbation (DPT) theory formulation for light water reactor (LWR) depletio...
Sensitivity analysis studies the effect of a change in a given parameter to a response function of t...
International audienceSensitivity analysis studies the effect of a change in a given parameter to a ...
Sensitivity analysis studies the effect of a change in a given parameter to a response function of t...
Neutronics calculation for nuclear reactor with high-fidelity technology can significantly reduce th...
Perturbation theory for changes in linear and bilinear functionals of the forward and adjoint fluxes...
Currently in most of the neutronic codes the HGPT methodology is used to operate sensitivities analy...
Perturbation methods are part of the reactor physics foundation devoted to the study of fundamental ...
The generalized perturbation method is described relevant to ratios of bi-linear functionals of the ...
This paper reports the results of sensitivity analysis of the multidimension, multigroup neutron dif...
Graduation date: 1991Nodal methods which are used to calculate reactor transients, control rod patte...
Safety analysis studies in nuclear engineering, more specifically system reliability, usually handle...
The High Temperature Gas cooled Reactor (HTGR) is an improved, gas cooled nuclear reactor. It was ch...
The recent availability of powerful computer and computational techniques has enlarged the possibili...
Computational capability has been developed to calculate sensitivity coefficients of generalized res...
A generalized depletion perturbation (DPT) theory formulation for light water reactor (LWR) depletio...
Sensitivity analysis studies the effect of a change in a given parameter to a response function of t...
International audienceSensitivity analysis studies the effect of a change in a given parameter to a ...
Sensitivity analysis studies the effect of a change in a given parameter to a response function of t...
Neutronics calculation for nuclear reactor with high-fidelity technology can significantly reduce th...
Perturbation theory for changes in linear and bilinear functionals of the forward and adjoint fluxes...
Currently in most of the neutronic codes the HGPT methodology is used to operate sensitivities analy...
Perturbation methods are part of the reactor physics foundation devoted to the study of fundamental ...
The generalized perturbation method is described relevant to ratios of bi-linear functionals of the ...
This paper reports the results of sensitivity analysis of the multidimension, multigroup neutron dif...
Graduation date: 1991Nodal methods which are used to calculate reactor transients, control rod patte...
Safety analysis studies in nuclear engineering, more specifically system reliability, usually handle...
The High Temperature Gas cooled Reactor (HTGR) is an improved, gas cooled nuclear reactor. It was ch...
The recent availability of powerful computer and computational techniques has enlarged the possibili...