The application of the finite element method to the first-order form of the neutron transport equation is reviewed. The general theoretical foundation of the finite element application is summarized, including a derivation of the weak form, a discussion of the treatment of all boundary conditions as natural boundary conditions and a few remarks concerning convergence. Results of the 1-D application are presented including a description of the discontinuous phase-space finite elements. The 2-D application is discussed and its application to the classic ray effect problem is examined. It is concluded that the finite element method does alleviate the ray effect but at the considerable expense of computational time and memory requirements. To a...
Originally presented as the first author's thesis (Nucl. Eng.)--Massachusetts Institute of Technolog...
The numerical solution of time dependent neutron diffusion approximation to the transport equation i...
This research has the objective of solving the spatial Kinetic equations for two energy groups using...
This paper examines the theoretical and practical application of the finite element method to the ne...
A numerical solution of the first-order, mono-energetic neutron transport equation is found by the f...
The finite element response matrix method has been applied to the solution of the neutron transport ...
Ph.D.Applied SciencesEnergyNuclear engineeringUniversity of Michigan, Horace H. Rackham School of Gr...
"MIT-39-3-5."Also issued as a Sc. D. thesis by Chang Mu Kang in the Dept. of Nuclear Engineering, 19...
The use of the finite element method for solving two-dimensional static neutron diffusion problems i...
Typescript (photocopy).High order numerical solutions of the time-dependent one speed neutron transp...
In this paper two discontinuous Galerkin isogeometric analysis methods are developed and applied to ...
Massachusetts Institute of Technology. Dept. of Nuclear Engineering. Thesis. 1973. Nucl.E.Leaf [174]...
This work deals with the numerical solution of the neutron diffusion equation under conditions, whic...
The use of the finite element method for solving two-dimensional static neutron diffusion problems i...
Ph.D.EnergyNuclear physicsUniversity of Michigan, Horace H. Rackham School of Graduate Studieshttp:/...
Originally presented as the first author's thesis (Nucl. Eng.)--Massachusetts Institute of Technolog...
The numerical solution of time dependent neutron diffusion approximation to the transport equation i...
This research has the objective of solving the spatial Kinetic equations for two energy groups using...
This paper examines the theoretical and practical application of the finite element method to the ne...
A numerical solution of the first-order, mono-energetic neutron transport equation is found by the f...
The finite element response matrix method has been applied to the solution of the neutron transport ...
Ph.D.Applied SciencesEnergyNuclear engineeringUniversity of Michigan, Horace H. Rackham School of Gr...
"MIT-39-3-5."Also issued as a Sc. D. thesis by Chang Mu Kang in the Dept. of Nuclear Engineering, 19...
The use of the finite element method for solving two-dimensional static neutron diffusion problems i...
Typescript (photocopy).High order numerical solutions of the time-dependent one speed neutron transp...
In this paper two discontinuous Galerkin isogeometric analysis methods are developed and applied to ...
Massachusetts Institute of Technology. Dept. of Nuclear Engineering. Thesis. 1973. Nucl.E.Leaf [174]...
This work deals with the numerical solution of the neutron diffusion equation under conditions, whic...
The use of the finite element method for solving two-dimensional static neutron diffusion problems i...
Ph.D.EnergyNuclear physicsUniversity of Michigan, Horace H. Rackham School of Graduate Studieshttp:/...
Originally presented as the first author's thesis (Nucl. Eng.)--Massachusetts Institute of Technolog...
The numerical solution of time dependent neutron diffusion approximation to the transport equation i...
This research has the objective of solving the spatial Kinetic equations for two energy groups using...