期刊
出版社
NATL ACAD SCIENCES
DOI: 10.1073/pnas.2103822118
关键词
inertial microfluidics; oscillatory flows; particle manipulation
资金
- NSF CAREER Grant [CBET-1846752]
- Blue Waters project [OCI-0725070, ACI1238993]
- NSF [ACI1548562, TGMCB190004]
This literature introduces an analytical method in inertial microfluidics to derive and quantify the theory of inertial effects, which has been verified through full-scale, three-dimensional direct numerical simulations and revealed previously unexplained experimental phenomena.
Modern inertial microfluidics routinely employs oscillatory flows around localized solid features or microbubbles for controlled, specific manipulation of particles, droplets, and cells. It is shown that theories of inertial effects that have been state of the art for decades miss major contributions and strongly underestimate forces on small suspended objects in a range of practically relevant conditions. An analytical approach is presented that derives a complete set of inertial forces and quantifies them in closed form as easy-to-use equations of motion, spanning the entire range from viscous to inviscid flows. The theory predicts additional attractive contributions toward oscillating boundaries, even for density-matched particles, a previously unexplained experimental observation. The accuracy of the theory is demonstrated against full-scale, three-dimensional direct numerical simulations throughout its range.
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