סמינר מחלקה של בן עוזיאל - יצירת מיקרו בועות במשטר אינרציאלי.

10 בינואר 2022, 14:00 - 15:00 
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סמינר מחלקה של בן עוזיאל - יצירת מיקרו בועות במשטר אינרציאלי.

 

 

School of Mechanical Engineering Seminar
Monday, January 10, 2022 at 14:00
Wolfson Building of Mechanical Engineering, Room 206

Ben Uziel

MSC Herman

Generation of smaller microbubbles under inertial regime

In recent years, new techniques of microbubbles generation are being widely investigated. Its intensively studied due to its importance in novel medical applications, pharmacology, material science, and the food industry. There is a growing demand for robust generation techniques with highly controlled microbubbles parameters, such as bubbling frequency, the mean bubble diameter and the polydispersity index (PDI). For instance, there is a tremendous need of stable mass production techniques of monodisperse micro bubbles as an ultrasound imaging contrast agent, besides drugs\ genes and oxygen means of delivery, with highly controlled parameters to insure safe use. The present study examines the establishment of a new monodisperse micro bubble generation technique. The preliminary goal of this work is to develop, design and assemble a flexible experimental micro bubble generation apparatus – a gas feed micro needle in the center of a liquid co-flow-focusing microchannel. As well, to develop the experimental ability of capturing several micro bubbles for subsequent use for analysis.

This study focuses on bubbles generation under an inertial regime at relatively high Reynolds numbers (Re>100), as compared to current methods, without the use of surfactants. The experimental system developed enabled high-speed visualization and comparison to  two phase dynamic simulations.

The high flexibility of the  experimental system allowed the study of bubbles generation using various microneedles diameters and different locations of the needles relatively to the channel entrance. The system could be examined under wide range of Reynolds numbers using derived pressures (separately controlled) of air and ultra-pure water. Three known regimes of microbubbles generation observed, in agreement with the known regimes map exist in literature.

Uniform sizes of microbubbles in wide diameter range of 9-50 um were accepted in high  generation rate of >105 Hz. In contrast, the capture of microbubbles was executed under high inertial effects in which the microbubble breaks down over reverse microneedle into a smaller bubbles of the size of the needle tip. Here, various and less uniform sizes of microbubbles could be reached, but effectively, deacceleration of the microbubbles could be observed, an ability allows the controlled extraction of several microbubbles.

Several  interesting phenomena observed, such as coalescence of microbubbles in relatively low flow rate of the liquid in early stages of bubble formation and coalescence of bubbles downstream the channel, what complete a full research of a previous study of the research group, when the jetting to dripping phenomena could be observed.

Successfully, at the same system, the generation and capture of microbubbles of sizes down to below 10 um was executed while both methods rely on inertial effects although the microscale.

https://us02web.zoom.us/j/82108132163?pwd=Z2h4UzNzUS9mbXplT0lMU1pZenFEQT09 Join Zoom Meetin

 

 

 

 

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