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Flow Restrictions and Fluid Turbulence in Microfluidic Channels

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Microfluidics. Needham, MA: Whatis.com. Available from: http://whatis.techtarget.com/definition/0,,sid9_gci526632,00.html Stephen R. Quake compiler. 2005 ... – PowerPoint PPT presentation

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Title: Flow Restrictions and Fluid Turbulence in Microfluidic Channels


1
Flow Restrictions and Fluid Turbulence in
Microfluidic Channels
  • By Joseph M. Clift

2
Outline
  • Introduction
  • Gate Design and Fabrication of Gated Channels
  • Fabrication of Mixers
  • Conclusions and Future Directions

3
Why is it important?
  • Microfluidic devices can be utilized for a wide
    range of applications such as
  • Biosensors1,2
  • Microreactors1,2

Image from http//thebigone.stanford.edu/
4
Fabrication of Gates
  • Gated channels are produced on Macromedia
    Freehand.
  • The finished drawings are then printed on a
    transparency from high resolution laser printer
    and cut to fit into the petri dishes.

5
Nonlithographic Fabrication Method
6
Microfluidic Gates
200mm
200mm
Image taken of three microchannels of distances
165mm, 195mm, and 205mm at 34x.
Image of 195mm microchannel at 50x.
7
Gate Dimensions
8
Microfluidic Mixers
  • Small cross sections and large linear flow
    velocity leads to laminar flows
  • Mixing is essential for biosensors (labeling of
    samples) and microreactors
  • Active mixers moving stirrers
  • Passive mixers no moving parts, the cannel
    geometry generates intertwining flows

9
Nonlithographic Fabrication of Micromixers
10
Observations of mixing channels
11
Conclusions
  • Nonlithographic fabrication is a facile and
    low-cost alternatives for expedient prototyping.
  • Microgate fabrication exceeded twice the
    resolution of the printers we used.
  • Nonlithographic methods allow for the fabrication
    of circular channels with patterned walls.
  • Spiral grooves along the walls of micromixers
    significantly increases the mixing efficiency.

12
Future Directions
  • Evaluate fluid flow through the microgates
  • Model the fluid flow in the spiral-grooved
    micromixers

13
References
  1. Trinidad National Institute of Higher Education
    compiler. 2001 cited 2007 Jul 24. Make Way for
    Microfluidics! Trinidad NIHERST. Available from
    http//www.niherst.gov.tt/scipop/sci-bits/microflu
    idics.htm
  2. Whatis.com compiler. 2001 cited 2007 Jul 24.
    Microfluidics. Needham, MA Whatis.com. Available
    from http//whatis.techtarget.com/definition/0,,s
    id9_gci526632,00.html
  3. Stephen R. Quake compiler. 2005 cited 2007
    Aug.. Stanford, CA Quake Group homepage.
    Available from http//thebigone.stanford.edu/

14
Acknowledgements
  • Dr. Vullev
  • Marlon Thomas
  • Connie Chong
  • Brent Millare
  • Amy Ferriera
  • Elizabeth Zielins
  • BRITE administration and members
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