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Friction velocity

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:<math>u_* \equiv \sqrt{\frac{\tau_w}{\rho}}</math>
:<math>u_* \equiv \sqrt{\frac{\tau_w}{\rho}}</math>
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Where <math>\tau_w</math> is the wall shear stress and <math>\rho</math> is the fluid density at the wall.
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Where <math>\tau_w</math> is the [[Wall shear stress|wall shear stress]] and <math>\rho</math> is the fluid density at the wall.
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The friction velocity can also be computed from the [https://en.wikipedia.org/wiki/Darcy%E2%80%93Weisbach_equation Darcy friction factor]:
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:<math>u_{\star} = U \cdot \sqrt{\frac{f}{8}}</math>
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Where <math>U</math> is the average velocity and <math>f</math> is the Darcy friction factor.

Latest revision as of 23:46, 7 December 2024

Dimensional analysis shows that at a wall a charateristic velocity, called the friction velocity, u_*, can be defined in the following way:

u_* \equiv \sqrt{\frac{\tau_w}{\rho}}

Where \tau_w is the wall shear stress and \rho is the fluid density at the wall.

The friction velocity can also be computed from the Darcy friction factor:

u_{\star} = U \cdot \sqrt{\frac{f}{8}}

Where U is the average velocity and f is the Darcy friction factor.

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