Three-Dimensional Multihelical Microfluidic Mixers for Rapid Mixing of Liquids

Autor:	R Vr, Ganneboyina, M. K. S. Verma, Animangsu Ghatak
Rok vydání:	2008
Předmět:	Molecular diffusion Microchannel Chemistry Microfluidics Helix angle Equipment Design Surfaces and Interfaces Mechanics Condensed Matter Physics Cross section (physics) Electrochemistry Miniaturization General Materials Science Fluidics Spectroscopy Mixing (physics)
Zdroj:	Langmuir. 24:2248-2251
ISSN:	1520-5827 0743-7463
DOI:	10.1021/la702895w
Popis:	Rapid mixing of liquids is important for most microfluidic applications. However, mixing is slow in conventional micromixers, because, in the absence of turbulence, mixing here occurs by molecular diffusion. Recent experiments show that mixing can be enhanced by generating transient flow resulting in chaotic advection. While these are planar microchannels, here we show that three-dimensional orientations of fluidic vessels and channels can enhance significantly mixing of liquids. In particular, we present a novel, multihelical microchannel system built in soft gels, for which the helix angle, helix radius, axial length, and even the asymmetry of the channel cross section are easily tailored to achieve the desired mixing. Mixing efficiency increases with helix angle and asymmetry of channel cross section, which leads to orders of magnitude reduction in mixing length over conventional mixers. This new scheme of generating 3D microchannels will help in miniaturization of devices, process intensification, and generation of multifunctional process units for microfluidic applications.
Databáze:	OpenAIRE
Externí odkaz:	https://explore.openaire.eu/search/publication?articleId=doi_dedup___::2898c5b7d028995036ae7f06bbc280aa https://doi.org/10.1021/la702895w Zobrazit plný text záznamu