Three-dimensional numerical model of neutron flux in hex-Z geometry
Hanuš, Milan ; Berka, Tomáš ; Brandner, Marek ; Kužel, Roman ; Matas, Aleš
Programs and Algorithms of Numerical Mathematics, GDML_Books, (2008), p. 83-90 / Harvested from

We present a method for solving the equations of neutron transport with discretized energetic dependence and angular dependence approximated by the diffusion theory. We are interested in the stationary solution that characterizes neutron fluxes within the nuclear reactor core in an equilibrium state. We work with the VVER-1000 type core with hexagonal fuel assembly lattice and use a nodal method for numerical solution. The method effectively combines a whole-core coarse mesh calculation with a more detailed computation of fluxes based on the transverse integrated diffusion equations. By this approach, it achieves a good balance between accuracy and speed.

EUDML-ID : urn:eudml:doc:271404
Mots clés:
@article{702860,
     title = {Three-dimensional numerical model of neutron flux in hex-Z geometry},
     booktitle = {Programs and Algorithms of Numerical Mathematics},
     series = {GDML\_Books},
     publisher = {Institute of Mathematics AS CR},
     address = {Prague},
     year = {2008},
     pages = {83-90},
     zbl = {1206.82154},
     url = {http://dml.mathdoc.fr/item/702860}
}
Hanuš, Milan; Berka, Tomáš; Brandner, Marek; Kužel, Roman; Matas, Aleš. Three-dimensional numerical model of neutron flux in hex-Z geometry, dans Programs and Algorithms of Numerical Mathematics, GDML_Books,  (2008), pp. 83-90. http://gdmltest.u-ga.fr/item/702860/