A Study on the Mechanism of Spontaneous Vapor Explosions with Single Molten Tin Drops and Water.

2007

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In this study, the initiation stage of spontaneous vapor explosions generated by single droplets of molten tin submerged in water was investigated using a highspeed video camera operated with a reflected light system. Photographs of the formation process of vapor film, the process of vapor film disturbance, and the initiation process of the vapor explosions for different masses of molten tin and different nozzle diameters were obtained. The results demonstrate that partial thermal interaction between tin and water does not cause a vapor explosion with fragmentation. The vapor film disappears locally during the formation of the vapor film around the hot liquid droplet. Direct contact between the hot molten tin surface and water is thereby generated. However, the local disappearance of the vapor film does not progress and the vapor film is reconstructed. A vapor explosion occurs when the vapor film collapses at the local area of the bottom or edge of the disk-shaped droplet.

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Section: Experimental Apparatus and Proceduresmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Observations of initiation stage of spontaneous vapor explosions for droplet scale

2007

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“…The pressure change in the R-113 was also measured by another pressure transducer (3) which had been set in liquid and at the same level as the other transducer. The pressure transducer signals were amplified by each amplifier (4) and were recorded in a digital storage oscilloscope (5). To observe the vapor film destabilization phenomenon, still photographs were taken with a 35-mm camera (11) and a strobe lamp (12) with exposure times of about 4 µs.…”

Section: Experimental Apparatus and Proceduresmentioning

confidence: 99%

“…In previous papers, the authors observed the vapor film collapse during a spontaneous vapor explosion in a tin drop/water system [5] and that of the triggered vapor explosions by a pressure wave in a lithium nitrate/ethanol system [6]. The spontaneous collapse of the vapor film around a tin drop was initiated from one end of the disk-shaped drop.…”

Section: Introductionmentioning

confidence: 99%

Destabilization of film boiling and pressure change in vapor film when an external pressure wave is supplied

Iida

2001

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The destabilization process of a vapor film formed around a hemispherical heated surface made of a copper or stainless‐steel rod 30 mm in diameter and immersed in R‐113 is investigated experimentally. The vapor film is destabilized by an external pressure wave, which is produced by a magnetic hammer, and photographs of the behavior are taken. The pressure change in the vapor film when the external pressure wave is supplied is measured by a small pressure transducer set at the stagnation point of the copper rod. The induced pressure change in the film is analyzed theoretically and is shown to be in good agreement with measured data. A sharp pressure pulse in the vapor film, which has a higher peak value than that of the supplied external wave, is confirmed. The maximum pressure in the vapor film is proportional to the 1.6 power of that of the external pressure wave. © 2001 Scripta Technica, Heat Trans Asian Res, 30(8): 689–701, 2001

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Vapor film collapse around hot liquid drops when an external pressure wave is supplied

Iida

2000

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