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Passive micromixing

A novel in-plane passive micromixer using coanda effect, in Ramsey, J. M., van den Berg, A. (Eds.), Micro Total Analysis Systems, Kluwer, Dordrecht, 2001, 31-33. [Pg.274]

Many types of passive micromixers have been developed based on various... [Pg.114]

Keywords Active micromixers Microfluidics Micromixing Mixing principles Passive micromixers... [Pg.27]

Passive micromixers rely on the mass transport phenomena provided by molecular diffusion and chaotic advection. These devices are designed with a channel geometry that increases the surface area between the different fluids and decreases the diffusion path. By contrast, the enhancement of chaotic advection can be realized by modifying the design to allow the manipulation of the laminar flow inside the channels. The modified flow pattern is characterized by a shorter diffusion path that improves the mixing velocity. In this section, an overview of the different types of passive micromixers is provided. Mixed phase passive micromixers can be categorized as ... [Pg.33]

Recently, it has also been reported that EKl mixing effectiveness can be enhanced by combining its action with a passive micromixing strategy using channel geometries... [Pg.52]

Bhagat AAS, Dagani G, Peterson ETK, Lee JH, Papautsky I (2005) Passive micromixer with obstructions for lab-on-a-chip applications. Proc SPIE 5718 291-297... [Pg.2117]

A passive micromixer is one of the microfluidic devices. It utilizes no energy input except the mechanism (pressure head) used to drive the fluid flow at a constant rate. Due to the dominating laminar flow on the microscale, mixing in passive micromixers relies mainly on chaotic advection realized by manipulating the laminar flow in microchannels or molecular diffusion with increasing the contact surface and time between the different fluid flows. [Pg.2663]

Passive Micromixers, Fig. 1 A generic two-input two-output mixer including lamination and splitting shown in free three-dimensional space, (a) Horizontal lamination and (b) vertical lamination [2]... [Pg.2665]

Passive Micromixers, Fig. 2 (a) Schematic of the microchip fOT parallel electrokinetic mixing, (b) Schematic of the microchip for serial electrokinetic mixing [4]... [Pg.2667]

Passive Micromixers, Fig. 3 (a) The front face of the micro T-mixer test chip, (b) The back face of the micro T-mixer [5]... [Pg.2668]

See other pages where Passive micromixing is mentioned: [Pg.114]    [Pg.114]    [Pg.115]    [Pg.136]    [Pg.139]    [Pg.27]    [Pg.27]    [Pg.33]    [Pg.59]    [Pg.143]    [Pg.239]    [Pg.240]    [Pg.1171]    [Pg.1178]    [Pg.93]    [Pg.2019]    [Pg.2113]    [Pg.2115]    [Pg.2185]    [Pg.2663]    [Pg.2663]    [Pg.2664]    [Pg.2665]    [Pg.2665]    [Pg.2666]    [Pg.2667]    [Pg.2668]    [Pg.2668]    [Pg.2668]    [Pg.2669]    [Pg.2670]    [Pg.2670]    [Pg.2671]    [Pg.2671]    [Pg.2672]    [Pg.2672]   
See also in sourсe #XX -- [ Pg.143 ]



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