A Study of Nonlinear Oscillation and Limit Cycles in Boiling Water Reactors—I: The Global Mode
Autor: | Yousef M. Farawila, Douglas W. Pruitt |
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Rok vydání: | 2006 |
Předmět: |
Physics
010308 nuclear & particles physics Oscillation 0211 other engineering and technologies Mode (statistics) Time evolution 02 engineering and technology 01 natural sciences Nonlinear system Nuclear Energy and Engineering Neutron flux Limit cycle 0103 physical sciences Harmonic 021108 energy Limit (mathematics) Statistical physics |
Zdroj: | Nuclear Science and Engineering. 154:302-315 |
ISSN: | 1943-748X 0029-5639 |
Popis: | A study of the nonlinear behavior of growing density-wave oscillations is presented in the framework of a reduced-order model. Nonlinear effects are included in both the hydraulic and neutron kinetics equations, where both were found to contribute to the observed limit cycles. In Part I of this paper, the basic concepts were developed and applied to the global oscillation mode where only the fundamental neutron flux mode excitation is considered. Approximate analytical solutions for the limit cycle amplitude and the time evolution of the transient were derived. In this paper, Part II, the model order is increased to allow the representation of the azimuthal neutron flux harmonic and the simulation of growing regional mode oscillations. Analysis demonstrates that the regional mode, unlike the global mode, may not always reach a stable limit cycle, and if it does, the regional limit cycle amplitudes are large compared with the global mode. An extended reduced-order model has been developed for use as an accurate quantitative tool for simulating actual reactor situations, whereas the current paradigm restricts the applicability of reduced-order models to gaining qualitative insights. |
Databáze: | OpenAIRE |
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