TY - JOUR
T1 - Regional stability estimation of natural circulation BWRs using SIRIUS-N facility
AU - Furuya, Masahiro
AU - Inada, Fumio
AU - Van der Hagen, Tim H.J.J.
PY - 2005/4
Y1 - 2005/4
N2 - The SIRIUS-N facility was designed and constructed for highly accurate simulation of core-wide and regional instabilities of the BWR. A real-time simulation was performed in the digital controller for heat conduction in a fuel-rod and modal point kinetics of reactor neutronics using measured void fractions in reactor core sections of the thermal-hydraulic loop. In order to estimate decay ratios, an auto-regressive method has been successfully applied for time series data of the core inlet flow rate. Experiments were conducted with the SIRIUS-N facility for the rated operating condition of 3.13GWt natural circulation BWR. Channel and regional stability decay ratios were determined to be 0.38 and 0.54, respectively, which indicates sufficient margin for the instabilities. Experiments were extended to evaluate the stability sensitivity of design parameters such as the power profile, void reactivity coefficients, core inlet sub-cooling, and the fuel rod time constant.
AB - The SIRIUS-N facility was designed and constructed for highly accurate simulation of core-wide and regional instabilities of the BWR. A real-time simulation was performed in the digital controller for heat conduction in a fuel-rod and modal point kinetics of reactor neutronics using measured void fractions in reactor core sections of the thermal-hydraulic loop. In order to estimate decay ratios, an auto-regressive method has been successfully applied for time series data of the core inlet flow rate. Experiments were conducted with the SIRIUS-N facility for the rated operating condition of 3.13GWt natural circulation BWR. Channel and regional stability decay ratios were determined to be 0.38 and 0.54, respectively, which indicates sufficient margin for the instabilities. Experiments were extended to evaluate the stability sensitivity of design parameters such as the power profile, void reactivity coefficients, core inlet sub-cooling, and the fuel rod time constant.
KW - BWR type reactors
KW - Channel stability
KW - Core-wide stability
KW - Density wave oscillations
KW - Natural circulation
KW - Regional stability
KW - Stability
KW - Void-reactivity feedback
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U2 - 10.1080/18811248.2005.9726400
DO - 10.1080/18811248.2005.9726400
M3 - Article
AN - SCOPUS:20944438374
SN - 0022-3131
VL - 42
SP - 341
EP - 350
JO - Journal of Nuclear Science and Technology
JF - Journal of Nuclear Science and Technology
IS - 4
ER -