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Laminar Flow Infrared Spectroelectrochemistry
Analytical ChemistryIn this work, we advance lab-on-chip electrochemistry and spectroscopy by combining these capabilities onto a single platform, thereby achieving mid-infrared spectroelectrochemistry (SEC) for the first time. The key feature of this technique is the use of deterministic laminar flow patterns to precisely transport a reacted solution from upstream ...
Linlin Liu +3 more
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Eos, Transactions American Geophysical Union, 1934
Laminar sheet‐flow may be defined as the flow of a thin sheet of viscous fluid under conditions such that turbulence does not occur.Direct surface‐runoff from the ground takes place initially as the flow of a thin film or sheet of water. Because some of the water is continually being absorbed by the soil and because of the roughness of the ground, the ...
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Laminar sheet‐flow may be defined as the flow of a thin sheet of viscous fluid under conditions such that turbulence does not occur.Direct surface‐runoff from the ground takes place initially as the flow of a thin film or sheet of water. Because some of the water is continually being absorbed by the soil and because of the roughness of the ground, the ...
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1997
Incompressible Newtonian fluid (ϱ η) flows steadily within the annular gap of two infinitely long cylinders (Ro, RI). The outer cylinder rotates with Ω0 the inner one with Ω I . For the case that the axial component of the velocity is equal to zero, calculate a) the velocity and pressure field, b) the moments acting on both cylinders,
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Incompressible Newtonian fluid (ϱ η) flows steadily within the annular gap of two infinitely long cylinders (Ro, RI). The outer cylinder rotates with Ω0 the inner one with Ω I . For the case that the axial component of the velocity is equal to zero, calculate a) the velocity and pressure field, b) the moments acting on both cylinders,
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2017
Abstract In this chapter it is shown that solutions to the Navier-Stokes equations can be derived for steady, fully developed flow of a constant-viscosity Newtonian fluid through a cylindrical duct. Such a flow is known as a Poiseuille flow. For a pipe of circular cross section, the term Hagen-Poiseuille flow is used.
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Abstract In this chapter it is shown that solutions to the Navier-Stokes equations can be derived for steady, fully developed flow of a constant-viscosity Newtonian fluid through a cylindrical duct. Such a flow is known as a Poiseuille flow. For a pipe of circular cross section, the term Hagen-Poiseuille flow is used.
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Assessment methods and performance metrics for redox flow batteries
Nature Energy, 2021Yang Shi, Yi-Chun Lu
exaly