Title of article
CML approach to power reactor dynamics (I) - preservation of normality
Author/Authors
Konno، نويسنده , , H.; Kozma، نويسنده , , R.; Kitamura، نويسنده , , M، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 1996
Pages
13
From page
119
To page
131
Abstract
An application of coupled map lattice (CML) model for simulating power fluctuations in nuclear power reactors
is presented. (1) Preservation of Gaussianity in the point model is studied in a chaotic force driven Langevin equation in
conjunction with the Gaussian-white noise driven Langevin equation. (2) Preservation of Gaussianity is also studied in the
space-dependent model with the use of a CML model near the onset of the Hopf bifurcation point. It is shown that the spatial
dimensionality decreases as the maximum eigenvalue of the system increases. The result is consistent with the observation of
neutron fluctuation in a BWR.
Keywords
power fluctuation , Log-normal distribution , Chaotic Force Driven Langevin Equation , Normal (Gaussian)Distribution , Preservation of Nonnality , Coupled Map Lattice (CML)
Journal title
Annals of Nuclear Energy
Serial Year
1996
Journal title
Annals of Nuclear Energy
Record number
404960
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