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Lab on a Chip, 2016
Nanoscale fluid transport through conduits in the 1–100 nm range is termed as nanofluidics.
A. T. Conlisk, Shaurya Prakash
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Nanoscale fluid transport through conduits in the 1–100 nm range is termed as nanofluidics.
A. T. Conlisk, Shaurya Prakash
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Thermal Convection in Nanofluids [PDF]
, 2011 Nanofluids consist of a suspension of very small metallic like particles suspended in a carrier fluid. Typically these fluids are manufactured by using a suspension of copper, Cu, copper oxide, CuO, or aluminium oxide, Al2O3, in water or ethylene glycol, cf.
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2018
This book provides an introduction to nanofluidics in a simple manner and can be easily followed by senior undergraduate students, graduate students, and other researchers who have some background in fluid mechanics. The book covers the main topics about the fundamentals of nanofluidics and how it differs from classic fluid mechanics. It also describes
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This book provides an introduction to nanofluidics in a simple manner and can be easily followed by senior undergraduate students, graduate students, and other researchers who have some background in fluid mechanics. The book covers the main topics about the fundamentals of nanofluidics and how it differs from classic fluid mechanics. It also describes
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Ion separation in nanofluidics
ELECTROPHORESIS, 2008AbstractIonic species with a constant charge‐to‐size ratio (i.e. electrophoretic mobility) cannot be separated in electroosmotic or pressure‐driven flow along microscale channels. In nanoscale channels, however, the enormous electric fields inside electrical double layers cause transverse ion distributions yielding charge‐dependent mean ion speeds in ...
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Nanofluid Boiling presents valuable insights into boiling heat transfer mechanisms, offering state-of-the-art techniques for overcoming obstacles against nanofluid applications. In addition, the book points out emerging industrial applications and guides researchers and engineers in their research and design efforts.
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Proceedings of the 15th International Heat Transfer Conference, 2014
Stephan Kabelac, Jan Rudolf Eggers
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Stephan Kabelac, Jan Rudolf Eggers
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KINETIC MODELS FOR NANOFLUIDICS
Applied and Industrial Mathematics in Italy II, 2007openaire +3 more sources