Estimation of Bubble Fusion Requirements during High-Pressure, High- Temperature Cavitation

International journal of advancements in computing technology Pub Date : 2018-08-25 DOI:10.4172/0976-4860.1000206
T. Yoshimura, Hiroyuki Yoshiya, Kumiko Tanaka, Masataka Ijiri
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引用次数: 7

Abstract

In this work, the cavitation conditions at high temperatures and pressures in acetone containing deuterium were numerically estimated based on multifunction cavitation in conjunction with large microjets. The predicted bubble shrinkage velocity of 1.114 × 103 km/s satisfies the requirement for bubble fusion, which requires a shrinkage velocity greater than 1.00 × 103 km/s. The internal pressure and temperature of a bubble were found to drastically increase to 7.26 × 108 bar and 6.8 × 108°C, respectively, as the bubble radius shrinks from 100 to 0.1 μm. This temperature is sufficient for bubble fusion, which requires a temperature above 1.0 × 108°C. These results suggest that multifunction cavitation may be capable of generating bubble fusion.
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高压、高温空化过程中气泡融合要求的估计
本文基于多功能空化理论,结合大型微射流对含氘丙酮在高温高压下的空化条件进行了数值模拟。预测的气泡收缩速度为1.114 × 103 km/s,满足气泡熔化的要求,而气泡熔化要求收缩速度大于1.00 × 103 km/s。当气泡半径从100 μm缩小到0.1 μm时,气泡内部压力和温度分别急剧增加到7.26 × 108 bar和6.8 × 108℃。这个温度对于气泡聚变来说是足够的,这需要1.0 × 108°C以上的温度。这些结果表明多功能空化可以产生气泡聚变。
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International journal of advancements in computing technology
International journal of advancements in computing technology
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