Numerical methods to solve the fuel depletion equations for a nuclear reactor / P.P. Krüger
Different numerical methods for solving the fuel depletion equations in the depletion module of a reactor core analysis system are compared with each other, in order to find the best method and the best implementation of this method to be used in NECSA's OSCAR system. It is assumed that the neu...
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North-West University
2009
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| Online Access: | http://hdl.handle.net/10394/309 |
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ndltd-netd.ac.za-oai-union.ndltd.org-nwu-oai-dspace.nwu.ac.za-10394-3092014-04-16T03:52:55ZNumerical methods to solve the fuel depletion equations for a nuclear reactor / P.P. KrügerKrüger, Petrus PaulusDifferent numerical methods for solving the fuel depletion equations in the depletion module of a reactor core analysis system are compared with each other, in order to find the best method and the best implementation of this method to be used in NECSA's OSCAR system. It is assumed that the neutron flux is constant with time over each burnup step, giving a linear system of first order differential equations with constant coefficients that has to be solved. Using the special properties of the fuel depletion equations of stiffness, sparseness and essential-nonnegativity, it is shown how the various methods can be optimally implemented. By using a sample global reactor depletion and an assembly depletion problem, it is then shown that the Taylor expansion method, using a generalised uniformization technique, performs the best under most circumstances.Thesis (M.Sc. (Physics))--North-West University, Potchefstroom Campus, 2004.North-West University2009-02-04T08:22:33Z2009-02-04T08:22:33Z2004Thesishttp://hdl.handle.net/10394/309 |
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NDLTD |
| description |
Different numerical methods for solving the fuel depletion equations in the depletion module of a
reactor core analysis system are compared with each other, in order to find the best method and
the best implementation of this method to be used in NECSA's OSCAR system. It is assumed that
the neutron flux is constant with time over each burnup step, giving a linear system of first order
differential equations with constant coefficients that has to be solved. Using the special properties
of the fuel depletion equations of stiffness, sparseness and essential-nonnegativity, it is shown how
the various methods can be optimally implemented. By using a sample global reactor depletion
and an assembly depletion problem, it is then shown that the Taylor expansion method, using a
generalised uniformization technique, performs the best under most circumstances. === Thesis (M.Sc. (Physics))--North-West University, Potchefstroom Campus, 2004. |
| author |
Krüger, Petrus Paulus |
| spellingShingle |
Krüger, Petrus Paulus Numerical methods to solve the fuel depletion equations for a nuclear reactor / P.P. Krüger |
| author_facet |
Krüger, Petrus Paulus |
| author_sort |
Krüger, Petrus Paulus |
| title |
Numerical methods to solve the fuel depletion equations for a nuclear reactor / P.P. Krüger |
| title_short |
Numerical methods to solve the fuel depletion equations for a nuclear reactor / P.P. Krüger |
| title_full |
Numerical methods to solve the fuel depletion equations for a nuclear reactor / P.P. Krüger |
| title_fullStr |
Numerical methods to solve the fuel depletion equations for a nuclear reactor / P.P. Krüger |
| title_full_unstemmed |
Numerical methods to solve the fuel depletion equations for a nuclear reactor / P.P. Krüger |
| title_sort |
numerical methods to solve the fuel depletion equations for a nuclear reactor / p.p. krüger |
| publisher |
North-West University |
| publishDate |
2009 |
| url |
http://hdl.handle.net/10394/309 |
| work_keys_str_mv |
AT krugerpetruspaulus numericalmethodstosolvethefueldepletionequationsforanuclearreactorppkruger |
| _version_ |
1716663187504365568 |