高发散场作用下烃类液体中气泡的生成与生长

1988. Annual Report., Conference on Electrical Insulation and Dielectric Phenomena Pub Date : 1988-10-16 DOI:10.1109/CEIDP.1988.26344

O. Lesaint, R. Kattan, A. Denat

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引用次数: 8

摘要

采用高速电流测量和可视化相结合的实时光学检测方法研究了纯化环己烷中气泡的产生和生长。在尖锐尖端的高场区域中产生的气泡似乎是检测到的电流脉冲的结果。分析了输入能量和静水压力对气泡产生的影响，表明液体的汽化是最可能的气泡产生机制。能量输入在很短的时间(几纳秒)内实现。随着气泡的增大，气泡内的压力和温度下降至稳态沸腾状态;这时气泡的大小达到最大，当温度进一步降低到环境温度时，蒸汽凝结，气泡消失。

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Generation and growth of gaseous bubbles in hydrocarbon liquids under high divergent field

A real-time optical detection method combined with high-speed current measurement and visualization was used to investigate bubble generation and growth in purified cyclohexane. The generation of gaseous bubbles in the high field region present on a sharp tip appears to be a consequence of the detected current pulse. An analysis of the influence of the energy input together with that of the hydrostatic pressure shows that vaporization of the liquid is the most probable mechanism of bubble generation. The energy input is achieved in a very short time (a few nanoseconds). As the bubble grows, the pressure and temperature decrease in the bubble down to steady-state boiling conditions; the bubble size is then maximal, and as the temperature decreases further to the ambient value, the vapour condenses and the bubble disappears.<>

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1988. Annual Report., Conference on Electrical Insulation and Dielectric Phenomena

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