Paper Info
Title
Towards Novel Micromanipulations of Submillimeter-Scale Particles in a Laterally-Oscillated Rectangular Container
Abstract
Our previous study discovered that small particles scattered at the bottom of a water-filled rectangular container align at specific positions when the particles are subject to standing wave induced by laterally oscillating the container at specific frequencies. Also, we identified a method to theoretically estimate the oscillation frequency for aligning the small particles and the positions where several particle lines appear. As the next step, we are currently developing novel micromanipulation methods with this unique phenomenon targeting submillimeter-scale particles. In the present study, this alignment phenomenon is further studied to reveal the potential, especially focusing on the distribution of lateral fluid velocity in vertical direction, the amplitude of lateral oscillation, and the liquid height which have never been discussed in our previous study. This paper examines their relationships with the alignment condition and discusses the applicability of these findings obtained in the present study to develop novel micromanipulation methods of small particles.
Year
Venue
Keywords
2019
2019 12th Asian Control Conference (ASCC)
laterally-oscillated rectangular container,particle lines,oscillation frequency estimation,micromanipulation methods,submillimeter-scale particles,water-filled rectangular container,lateral fluid velocity distribution
Field
DocType
ISSN
Oscillation,Vertical direction,Standing wave,Mechanics,Flow velocity,Amplitude,Particle,Physics
Conference
2072-5639
ISBN
Citations 
PageRank 
978-1-7281-0263-4
0
0.34
References 
Authors
2
4
Name
Order
Citations
PageRank
Masayuki Hara1194.90
Takahiro Funabashi200.34
Hiroyuki Nabae31712.12
Masahito Miki400.34