High-speed tomographic PIV was used to investigate the coalescence of drops placed on a liquid/liquid interface; the coalescence of a single drop and of a drop in the presence of an adjacent drop (side-by-side drops) was investigated. The viscosity ratio between the drop and surrounding fluids was 0.14, the Ohnesorge number (Oh = μd/(ρdσD)1/2) was 0.011, and Bond numbers (Bo = (ρ d − ρ s )gD 2/σ) were 3.1–7.5. Evolving volumetric velocity fields of the full coalescence process allowed for quantification of the velocity scales occurring over different time scales. For both single and side-by-side drops, the coalescence initiates with an off-axis film rupture and film retraction speeds an order of magnitude larger than the collapse speed of the drop fluid. This is followed by the formation and propagation of an outward surface wave along the coalescing interface with wavelength of approximately 2D. For side-by-side drops, the collapse of the first drop is asymmetric due to the presence of the second drop and associated interface deformation. Overall, tomographic PIV provides insight into the flow physics and inherent three-dimensionalities in the coalescence process that would not be achievable with flow visualization or planar PIV only.
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机译:高速层析PIV用于研究放置在液/液界面上的液滴的聚结;研究了单个液滴和在相邻液滴(并排液滴)存在下的液滴的聚结。液滴与周围流体之间的粘度比为0.14,欧姆尼佐数(Oh =μ d /(ρ d σD) 1/2 )为0.011,键数(Bo =(ρ d -ρ s )gD 2 /σ)为3.1–7.5。全聚结过程中不断变化的体积速度场允许量化发生在不同时间尺度上的速度尺度。对于单滴和并排的液滴,聚结以离轴的膜破裂开始,并且膜回缩速度比滴液的崩溃速度大一个数量级。接下来,沿着聚结界面形成并传播波长约为2D的向外表面波。对于并排的液滴,由于第二液滴的存在和相关的界面变形,第一液滴的塌陷是不对称的。总体而言,层析PIV可以洞察聚结过程中的流物理学和固有的三维性,而这仅是通过流可视化或平面PIV无法实现的。
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