TY - GEN
T1 - Analytical model for self-excited vibration of an overflow flexible plate weir
AU - Kaneko, Shigehiko
AU - Nagakura, Hiroshi
AU - Nakano, Ryuji
PY - 1993/1/1
Y1 - 1993/1/1
N2 - An analytical model for the self-excited vibration of an overflow flexible weir as observed in the French demonstration fast breeder reactor, Super Phenix-1 is proposed. The instability condition was derived for the case in which the plate vibrates at the frequency of the downstream tank sloshing. In this analysis, the flexible plate weir is modeled as a simply supported - free - simply supported - clamped rectangular plate. Eigenfunction expansions were applied for analyzing both plate vibrations and the downstream tank sloshing. The effect of an overflow liquid is formulated based on the assumption that the momentum change due to the collision of an overflow liquid partly transmitted to the pressure rise on the free surface. As a result, the characteristic equation of the system yielding the theoretical stability boundary was obtained. The stability boundary thus derived agreed well with experimental results.
AB - An analytical model for the self-excited vibration of an overflow flexible weir as observed in the French demonstration fast breeder reactor, Super Phenix-1 is proposed. The instability condition was derived for the case in which the plate vibrates at the frequency of the downstream tank sloshing. In this analysis, the flexible plate weir is modeled as a simply supported - free - simply supported - clamped rectangular plate. Eigenfunction expansions were applied for analyzing both plate vibrations and the downstream tank sloshing. The effect of an overflow liquid is formulated based on the assumption that the momentum change due to the collision of an overflow liquid partly transmitted to the pressure rise on the free surface. As a result, the characteristic equation of the system yielding the theoretical stability boundary was obtained. The stability boundary thus derived agreed well with experimental results.
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M3 - Conference contribution
AN - SCOPUS:0027242981
SN - 0791809854
T3 - American Society of Mechanical Engineers, Pressure Vessels and Piping Division (Publication) PVP
SP - 151
EP - 162
BT - Flow-Induced Vibration and Fluid-Structure Interaction - 1993
PB - Publ by ASME
T2 - Proceedings of the 1993 Pressure Vessels and Piping Conference
Y2 - 25 July 1993 through 29 July 1993
ER -