Yusuke Kazami scite author profile

Yusuke Kazami

5Publications

11Citation Statements Received

14Citation Statements Given

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Affiliations

Tohoku University, Tohoku University Hospital, Japan Aerospace Exploration Agency

Publications

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Thermodynamic Effect on Subsynchronous Rotating Cavitation and Surge Mode Oscillation in a Space Inducer

Yoshida¹,

Nanri

Kikuta

et al. 2011

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The relationship between the thermodynamic effect and subsynchronous rotating cavitation was investigated with a focus on cavity fluctuations. Experiments on a three-bladed inducer were conducted with liquid nitrogen at different temperatures (74, 78, and 83 K) to confirm the dependence of the thermodynamic effects. Subsynchronous rotating cavitation appeared at lower cavitation numbers in liquid nitrogen at 74 K, the same as in cold water. In contrast, in liquid nitrogen at 83 K the occurrence of subsynchronous rotating cavitation was suppressed because of the increase of the thermodynamic effect due to the rising temperature. Furthermore, unevenness of cavity length under synchronous rotating cavitation at 83 K was also decreased by the thermodynamic effect. However, surge mode oscillation occurred simultaneously under this weakened synchronous rotating cavitation. Cavity lengths on the blades oscillated with the same phase and maintained the uneven cavity pattern. It was inferred that the thermodynamic effect weakened peripheral cavitation instability, i.e., synchronous rotating cavitation, and thus axial cavitation instability, i.e., surge mode oscillation, was easily induced due to the synchronization of the cavity fluctuation with an acoustic resonance in the present experimental inlet-pipe system.

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Interaction between Uneven Cavity Length and Shaft Vibration at the Inception of Synchronous Rotating Cavitation

Yoshida

Kazami

Nagaura³

et al. 2008

International Journal of Rotating Machinery

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Asymmetric cavitation is known as one type of the sources of cavitation induced vibration in turbomachinery. Cavity lengths are unequal on each blade under condition of synchronous rotating cavitation, which causes synchronous shaft vibration. To investigate the relationship of the cavity length, fluid force, and shaft vibration in a cavitating inducer with three blades, we observed the unevenness of cavity length at the inception of synchronous rotating cavitation. The fluid force generated by the unevenness of the cavity length was found to grow exponentially, and the amplitude of shaft vibration was observed to increase exponentially. These experimental results indicate that the synchronous shaft vibration due to synchronous rotating cavitation is like selfexcited vibrations arising from the coupling between cavitation instability and rotordynamics.

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Influence of Thermodynamic Effect on Sub-Synchronous Rotating Cavitation and Surge Mode Oscillation(Fluids Engineering)

et al. 2010

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200 Surge Mode Oscillation under the Synchronous Rotating Cavitation

Kazami

Iga

Hashimoto

et al. 2008

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1610 Behavior of Cavity Length at the Inception of Synchronous Rotating Cavitation

Kazami

Hashimoto

Shimagaki

et al. 2007

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Yusuke Kazami

Thermodynamic Effect on Subsynchronous Rotating Cavitation and Surge Mode Oscillation in a Space Inducer

Interaction between Uneven Cavity Length and Shaft Vibration at the Inception of Synchronous Rotating Cavitation

Influence of Thermodynamic Effect on Sub-Synchronous Rotating Cavitation and Surge Mode Oscillation(Fluids Engineering)

200 Surge Mode Oscillation under the Synchronous Rotating Cavitation

1610 Behavior of Cavity Length at the Inception of Synchronous Rotating Cavitation

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