Dynamics of Laser-Induced Bubble in Pressurized Liquid Nitrogen

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概要

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• The dynamics of a laser-induced bubble in liquid nitrogen is studied experimentally. The motion of an almost spherical bubble, formed under appropriate control of optical conditions, is visualized by high-speed photography. Low subcooled liquid nitrogen at 78.0 K is used; the resulting high vapor pressure inside a bubble causes motion different from that in water at normal temperatures. Pressure is applied to liquid nitrogen to increase the degree of subcooling. An induced bubble grows similarly to a Rayleigh bubble under the effect of liquid inertia. The high vapor pressure, however, retards the collapse from the Rayleigh's solution, and makes the bubble surface rough by Taylor instability coupled with themodynamical effect. Estimation of the cavitation parameter in experiments of liquid nitrogen and water enables us to understand the transition from the motion being heat transfer dominant to that being liquid inertia dominant.

• 一般社団法人日本機械学会の論文
• 1996-05-15

著者

• Tsubota Makoto

  Institute of Fluid Science, Tohoku University

• Kano I

  Yamagata Univ. Yamagata Jpn

• Tomita Yukio

  Hakodate College Hokkaido University Of Education

• SHIMA Akira

  Institute of Fluid Science, Tohoku University

• KANO Ichiro

  Institute of Fluid Science, Tohoku University

• Shima Akira

  Institute Of Fluid Science Tohoku University

• Tsubota Makoto

  Institute Of Fluid Science Tohoku University

関連論文

• Collision of Quantized Vortices in Superfluid Helium and Effect of Applied Superflow
• Reconnection of Quantized Vortices in Superfluid ^4He
• Dynamics of Laser-Induced Bubble in Pressurized Liquid Nitrogen
• On the Behavior of a Spherical Bubble and the Impulse Pressure in a Viscous Compressible Liquid

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