Kirby Research Group at Cornell: Microfluidics and Nanofluidics :

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Copyright Brian J. Kirby. With questions, contact Prof. Kirby here. This material may not be distributed without the author's consent. When linking to these pages, please use the URL http://www.kirbyresearch.com/textbook.

This web posting is a draft, abridged version of the Cambridge University Press text. Follow the links to buy at Cambridge or Amazon or Powell's or Barnes and Noble. Contact Prof. Kirby here.

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Jump To: [Kinematics] [Couette/Poiseuille Flow] [Fluid Circuits] [Mixing] [Electrodynamics] [Electroosmosis] [Potential Flow] [Stokes Flow] [Debye Layer] [Zeta Potential] [Species Transport] [Separations] [Particle Electrophoresis] [DNA] [Nanofluidics] [Induced-Charge Effects] [DEP] [Solution Chemistry]

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4.9 Exercises [flow patterning/microfluidic mixing top]

Calculate Pe for the following sets of characteristic parameters:
1. U = 100 μm∕s, ℓ = 10 μm, and D = 1e-9 m²∕s.
2. U = 100 μm∕s, ℓ = 10 μm, and D = 1e-11 m²∕s.
3. U = 100 μm∕s, ℓ = 10 μm, and D = 1e-13 m²∕s.
Consider flow of water (ρ = 1000 kg∕m³; η = 1 mPa s) through a circular microchannel of length 5 cm. What is the largest magnitude pressure drop that can be applied while maintaining strictly laminar flow if the microchannel diameter is:
1. 5 μm
2. 50 μm
3. 50 nm
Most exercises are excluded from this web posting. Follow the links to buy the text at Cambridge or Amazon or Powell's or Barnes and Noble.

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Copyright Brian J. Kirby. Please contact Prof. Kirby here with questions or corrections. This material may not be distributed without the author's consent. When linking to these pages, please use the URL http://www.kirbyresearch.com/textbook.

This web posting is a draft, abridged version of the Cambridge University Press text. Follow the links to buy at Cambridge or Amazon or Powell's or Barnes and Noble. Contact Prof. Kirby here.