FLOW INDUCED NOISE & CAVITATION CONTROL LAB.

AUTHENTIC DISCOVERY of CAVITATION

REMARKABLE ACHIEVEMENTS

Carousel imageCarousel imageCarousel imageCarousel imageCarousel image

01 Coherent Structure of Turbulent Cavitating Flow

Experiments focused on the dynamics of cavitation clouds were conducted in a cavitation tunnel. Using high-speed visualization, the series process consisting of inception, growth, and desinence of the partial cavity was investigated. Noise generated during the process was also measured, and the correlation with the cavity pattern was examined. The results show that the periodic behavior of cavitation clouds is directly reflected in the noise characteristics. In addition, the visualization of coherent structures within the sheet and cloud cavity provides a qualitative understanding of hairpin vortices and their packets, which play a dominant role in turbulent cavitating flows.

02 Experimental Investigation of Artificial Supercavitation

We investigated physical characteristics of an artificial supercavity generated behind an axisymmetric cavitator. Experiments for the same model were carried out at two different cavitation tunnels of the CNU and the University of Minnesota, and the results were compared and verified with each other. We measured pressures inside the cavity and observed the cavity formation by using a high-speed camera. Cavitation parameters were evaluated in considering blockage effects of the tunnel, and gravitational effects on supercavity dimensions were examined. Cavity dimensions corresponding to the unbounded cavitation number were compared. In addition, we investigated how artificial supercavitation develops according to the combination of injection positions and direction.

Carousel imageCarousel imageCarousel imageCarousel imageCarousel imageCarousel image

RECENT RESEARCH AREAS

Dept. of Naval Architecture and Ocean Engineering, College of Engineering, Chungnam National University,

99 Daehak-ro, Yuseong-gu, Daejon, 34134, KOREA