ICONE11-36583 NUCLEAR-COUPLED THERMAL-HYDRAULIC NONLINEAR STABILITY ANALYSIS USING A NOVEL BWR REDUCED ORDER MODEL : PART 1-THE EFFECTS OF USING DRIFT FLUX VERSUS HOMOGENEOUS EQUILIBRIUM MODELS
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概要
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BWR stability analysis at PSI, as at other research centres, is usually carried out employing complex system codes. However, these do not allow a detailed investigation of the complete manifold of all possible solutions of the associated nonlinear differential equation set. A novel analytical, reduced order model for BWR stability has been developed at PSI, in several successive steps. In the first step, the thermal-hydraulic model was used for studying the thermal-hydraulic instabilities. A study was then conducted of the one-channel nuclear-coupled thermal-hydraulic dynamics in a BWR by adding a simple point kinetic model for neutron kinetics and a model for the fuel heat conduction dynamics. In this paper, a two-channel nuclear-coupled thermal-hydraulic model is introduced to simulate the out-of phase oscillations in BWR. This model comprises three parts : spatial mode neutron kinetics with the fundamental and first azimuthal modes; fuel heat conduction dynamics; and a thermal-hydraulics model. This present model is an extension of the Karve et al. model, i.e., a drift flux model is used instead of the homogeneous equilibrium model for two-phase flow, and lambda modes are used instead of the omega modes for the neutron kinetics. This two-channel model is employed in stability and bifurcation analyses, carried out using the bifurcation code BIFDD. The stability boundary (SB) and the nature of the Poincare-Andronov-Hopf bifurcation (PAH-B) are determined and visualized in a suitable two-dimensional parameter/sate space. A comparative study of the homogeneous equilibrium model (HEM) and the drift flux model (DFM) is carried out to investigate the effects of the DFM parameters-the void distribution parameter C_0 and the drift velocity V_<gj>-on the SB, the nature of PAH bifurcation, and on the type of oscillation mode (in-phase or out-of-phase).
- 一般社団法人日本機械学会の論文
著者
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Chawla R.
Paul Scherrer Institute:swiss Federal Institute Of Technology
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Uddin Rizwan
University Of Illinois At Urbana-champaign
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Dokhane A.
Paul Scherrer Institute
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Hennig D.
Paul Scherrer Institute
関連論文
- ICONE11-36584 NUCLEAR-COUPLED THERMAL-HYDRAULIC NONLINEAR STABILITY ANALYSIS USING A NOVEL BWR REDUCED ORDER MODEL : PART 2-STABILITY LIMITS OF IN-PHASE AND OUT-OF-PHASE MODES
- ICONE11-36583 NUCLEAR-COUPLED THERMAL-HYDRAULIC NONLINEAR STABILITY ANALYSIS USING A NOVEL BWR REDUCED ORDER MODEL : PART 1-THE EFFECTS OF USING DRIFT FLUX VERSUS HOMOGENEOUS EQUILIBRIUM MODELS
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