Droplet Generation in a Flow-Focusing Microfluidic Device with External Mechanical Vibration

• Main Authors: Zhaoqin Yin, Zemin Huang, Xiaohui Lin, Xiaoyan Gao, Fubing Bao
• Format: Article
• Language: English
• Published: MDPI AG 2020-07-01
• Series: Micromachines
• Subjects: droplet generation; external mechanical vibration; flow-focusing microfluidic device
• Online Access: https://www.mdpi.com/2072-666X/11/8/743

The demand for highly controllable droplet generation methods is very urgent in the medical, materials, and food industries. The droplet generation in a flow-focusing microfluidic device with external mechanical vibration, as a controllable droplet generation method, is experimentally studied. The effects of vibration frequency and acceleration amplitude on the droplet generation are characterized. The linear correlation between the droplet generation frequency and the external vibration frequency and the critical vibration amplitude corresponding to the imposing vibration frequency are observed. The droplet generation frequency with external mechanical vibration is affected by the natural generation frequency, vibration frequency, and vibration amplitude. The droplet generation frequency in a certain microfluidic device with external vibration is able to vary from the natural generation frequency to the imposed vibration frequency at different vibration conditions. The evolution of dispersed phase thread with vibration is remarkably different with the process without vibration. Distinct stages of expansion, shrinkage, and collapse are observed in the droplet formation with vibration, and the occurrence number of expansion–shrinkage process is relevant with the linear correlation coefficient.