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VIII. On the pressure developed in a liquid during the collapse of a spherical cavity
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This article is published in Philosophical Magazine Series 1.The article was published on 1917-08-01. It has received 2532 citations till now. The article focuses on the topics: Collapse (topology).read more
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On the definition of cavitation intensity
Wu Pengfei,Lixin Bai,Lin Weijun +2 more
TL;DR: From the point of view of energy, the authors proposed a generalized definition of cavitation intensity, derived an approximate formula to calculate the Cavitation intensity and discussed its measure method.
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Development of Cavitation in Refrigerant (R-123) Flow Inside Rudimentary Microfluidic Systems
Chandan Mishra,Yoav Peles +1 more
TL;DR: The existence of hydrodynamic cavitation in the flow of refrigerant (R-123) through micro-Venturis has been viewed in the form of a bubbly cavitating regime as mentioned in this paper.
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Single bubble dynamics on superheated superhydrophobic surfaces
TL;DR: In this article, the authors explored single bubble dynamics on superheated superhydrophobic surfaces and the corresponding heat transfer mechanism of water pool boiling, and found that the bubble growth rate shows little dependence on surface superheat and applied heat flux at large superheats due to the presence of the vapor layer, which seriously limits the heat transfer from the surface.
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Acoustic microbubble dynamics with viscous effects.
TL;DR: The viscous effects to acoustic microbubble dynamics are analyzed in terms of the jet velocity, bubble volume, centroid movement, Kelvin impulse and bubble energy.
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Experimental and numerical investigation of the cavitation-induced choked flow in a herschel venturi-tube
TL;DR: In this paper, high-speed camera investigations of a transparent Herschel Venturi-tube configuration, also known as classical venturi tube, were performed to gain further insight into the choked flow condition with respect to liquid flow measurement.