如此可解得不同时间时气体和固体的浓度分布和气泡相及乳化相中的转化率。
Concentration distribution in gas and solid as well as conversions were found in the bubble phase and emulsion phase at different time stages.
结果表明,它具有比传统的功率谱主频好得多的统计重复性,能更准确地反映气泡相的特性。
The results indicate that the LPWA has much better reproducibility and accuracy than the major frequency of power spectral density in reflecting the properties of bubble phase.
各尺度信号的能量分布表明,压力波动信号主要体现了介尺度的乳化相和气泡相之间的相互作用。
By analyzing energy profile of different scale signals, we found that pressure fluctuations mainly reflect mesoscale interaction between the emulsion phase and the bubbling phase.
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